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Review

Occupational Health Hazards: Employer, Employee, and Labour Union Concerns

by
Oscar Rikhotso
1,*,
Thabiso John Morodi
1 and
Daniel Masilu Masekameni
2
1
Department of Environmental Health, Tshwane University of Technology, Private Bag X680, Pretoria 0001, South Africa
2
Occupational Health Division, School of Public Health, University of Witwatersrand, Parktown 2193, South Africa
*
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2021, 18(10), 5423; https://doi.org/10.3390/ijerph18105423
Submission received: 9 April 2021 / Revised: 5 May 2021 / Accepted: 11 May 2021 / Published: 19 May 2021
(This article belongs to the Collection Contemporary and Emerging Issues of Occupational Safety and Health)
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Abstract

:
This review paper examines the extent of employer, worker, and labour union concerns to occupational health hazard exposure, as a function of previously reported and investigated complaints. Consequently, an online literature search was conducted, encompassing publicly available reports resulting from investigations, regulatory inspection, and enforcement activities conducted by relevant government structures from South Africa, the United Kingdom, and the United States. Of the three countries’ government structures, the United States’ exposure investigative activities conducted by the National Institute for Occupational Safety and Health returned literature search results aligned to the study design, in the form of health hazard evaluation reports reposited on its online database. The main initiators of investigated exposure cases were employers, workers, and unions at 86% of the analysed health hazard evaluation reports conducted between 2000 and 2020. In the synthesised literature, concerns to exposure from chemical and physical hazards were substantiated by occupational hygiene measurement outcomes confirming excessive exposures above regulated health and safety standards in general. Recommendations to abate the confirmed excessive exposures were made in all cases, highlighting the scientific value of occupational hygiene measurements as a basis for exposure control, informing risk and hazard perception. Conclusively, all stakeholders at the workplace should have adequate risk perception to trigger abatement measures.

1. Introduction

Current occupational health and safety (OHS) legislation, in South Africa (SA), the United Kingdom (UK), and the United States (U.S.), makes provision for the reporting of complaints from exposure to occupational hazards by various stakeholders. The legislation was designed to ensure that working conditions encountered by workers employed in the various sectors is safe and healthy, as possible [1,2,3,4,5]. The reporting process is a function of national arrangement of the relevant OHS legislation from the respective countries. The overall enforcement regime of the OHS legislation, inclusive, has historically and continuously been criticised as being weak, overly bureaucratic, and dysfunctional [6,7,8].
Given that workers are in close proximity to occupational hazards, OHS legislation also places responsibility on them to report dangerous conditions to various stakeholders. This worker activism, provided for in the OHS legislation, can increase the effectiveness of legislation, which can translate to safety at work [6,8,9]. On the other hand, worker inaction in regards to reporting of dangerous conditions encountered at the workplace, can affect co-workers [6,10]. Accordingly, in recognition of this fact, OHS legislation worldwide places a duty on a worker to report dangerous conditions thereby protecting their own health and safety, as well as that of co-workers [1,2,4]. Given the longwinded and complicated bureaucracy associated with reporting procedures provided for in OHS legislation, workers are often deterred from reporting dangerous conditions with exposure remaining unabated [6,11]. A further deterrent to reporting dangerous conditions, following exhaustion of internal reporting procedures, is the weakness in the reporting regimes, asserts Spieler [6]. Undoubtedly, inadequate reporting of dangerous conditions encountered at work by various stakeholders is a contributory factor to the slow institution of regulatory interventions [6]. Complaints of exposure to occupational hazards is a crucial clue of how the various stakeholders perceive occupational hazards at the workplace. In the U.S., for example, Occupational Safety and Health Administration (OSHA) inspections are prioritised based on criteria that considers imminent danger situations, employee complaints, programmed inspections, and follow-up inspections [12]. However, employee complaints is reported to trigger expedited inspections [12,13]. To highlight the importance of worker activism in regard OHS, in a combined health risk assessment–occupational hazard appraisal conducted by New York City, occupational hazards identified by workers enabled the city to introduce intervention measures to mitigate exposure [14].
Worldwide, OHS legislation also provides for workers to refuse dangerous work [1,15,16]. This right of refusing dangerous work is however limited [17,18], as health and safety is a dual responsibility of the worker and employer [17]. Harcout and Harcout [17] also pointed out that current OHS legislation gives a right to management to command workers, further complicating the exercise of this right. This legal contradiction also leads to clashes between workers and management, often resulting is disciplinary action [17]. The right to refuse dangerous work is also burdensome to workers as they may be required to prove, through expert testimony or scientific evidence, of the existence of dangerous work [17,18]. This friction also leaves employees vulnerable to employer reprisals, argues Drapin [19].
The current review paper focused on the micro analysis of reports, where available, indicating stakeholder concerns in regard exposure to occupational health hazards. Lack of concern and inadequate risk perception by affected stakeholders in the management of identified occupational health hazards can result in adverse health impacts, especially on workers. In the U.S., the National Institute for Occupational Safety and Health (NIOSH) investigates workplace health hazards as well as offers technical and consultative assistance to various stakeholders through the discharge of legal authority given under the Occupational Safety and Health Act of 1970 (Section 20(a)(6)) [1], Code of Federal Regulation 1960.35(a)–(b) [20] and Code of Federal Regulations, title 42 volume 1 (section 85.1–85.12) [21]. In the UK, the Health and Safety at Work Act 1974 assigned similar functions to the Health and Safety Executive (HSE) [3]. In SA, the function of enforcing OHS legislation for general industry is mainly through the Department of Employment and Labour, as well as the National Department of Health to a lesser extent. The National Health Laboratory Service (which reports to the National Department of Health), through its subsidiary the National Institute for Occupational Health, serves as a referral body for occupational health matters [22].
This aforementioned scholarly review paper, part of a postgraduate study with the Tshwane University of Technology; ethical clearance: FCRE 2020/10/015 (FCPS 02) (SCI), investigates stakeholder concerns to occupational health hazard exposure as a function of reported and investigated exposure concerns.

2. Materials and Methods

2.1. Conceptual Framework

The management of occupational health hazards follows from a hazard identification and risk assessment [23]. How the identified hazards and risks are treated thereafter is largely influenced by risk perception of different stakeholders inclusive of employers, workers and unions. Additionally, a country’s regulatory framework also plays an important role in hazard and risk perception. The micro analysis of available literature including reports issued by both labour inspectorates and supplementary institutions becomes necessary in order to gain insight on the subject matter. The conceptual framework, adapted from Hongoro and Kumaranayake [24], employed for this review study is shown in Figure 1.

2.2. Search Strategy

2.2.1. Initial Search

An online search on databases of regulatory inspectorates from SA (Department of Employment and Labour), UK (HSE), and the U.S. (OSHA), recording stakeholder concerns or investigation requests to occupational health hazards was conducted as a first phase of the literature search. However, information in these inspectorates’ online databases including annual reports detailing conducted inspections were generic, complex (in the case of OSHA), and scant on the details set out as important search criteria adopted in this study. Thusly, these databases were excluded in the final adopted search strategy.

2.2.2. Adopted Final Database Search and Search Strategy

The second phase of the literature search focused on databases of supplementary and legal bodies to the inspectorates. Consequently, the final adopted database search only focused on the National Institute of Occupational Safety and Health (NIOSH) Health Hazard Evaluations (HHEs) reports as they yielded results matching the adopted search criteria for this review paper. The HHE report database provides a repository of all completed NIOSH-led workplace investigations, a topic of concern for this current study. As of March 2021, the repository had 3614 HHE reports dating back to 1972, covering all sectors. This study however targeted HHEs conducted over two decades spanning from the year 2000 to 2020, conducted within the manufacturing sector. As per the database repository structure, the literature search was refined to include “All States/OSHA Regions”, “Manufacturing”, “all industry subcategories”, and “all health effects”.

2.3. Inclusion Criteria and Exclusion Criteria

Reports considered in the final synthesis were those published in English. Other criteria used in the inclusion and exclusion criteria are shown in Figure 2. Between 2000 and 2020, a total of 209 HHE reports were reposited in the database. Of this total, only two HHE reports were excluded in the final analysis as they were published in Spanish. The qualitative analysis included a total 207 HHE reports whilst the quantitative analysis only included 155 reports. The qualitative analysis focused and reports on industry type and initiator(s) of the investigations on the one hand. On the other hand, the quantitative analysis focused and reports on the target occupational health stressor, type of sample (mainly personal and area samples, as appropriate), measured exposure levels and comparison of the exposure levels to health and safety standards prescribed and recommended by various countries and governmental agencies. The quantitative synthesis further excluded 51 HHE studies reporting on ergonomic, radiation, and hazardous biological agents, due to textual complexities associated with reporting and interpreting results derived therefrom.

3. Results

In general, the synthesised literature suggests that NIOSH is discharging its designated legal duties given under the Occupational Safety and Health Act 1970 [1], Code of Federal Regulation 1960.35(a)–(b) [20], and Code of Federal Regulations, title 42 volume 1 (Section 85.1–85.12) [21]. The synthesised literature revealed that the manufacturing industry exposes workers to a myriad of chemical, physical, ergonomic, and biological occupational health hazard types, with varying degrees of exposure.

3.1. Qualitative Analysis

Table 1 provides an overview, qualitatively, of the initiators of the NIOSH-led exposure investigations included. Overall, employers at (n = 87(42%)); employees at (n = 59(28.5%)); and unions at (n = 32(15.5%)) were the chief initiators of workplace investigations for the period from 2000 to 2020, which when combined, contributed 86% of the investigations. The agency also offered technical and consultative assistance over the period to other government agencies or departments with investigated cases at (n = 10(4.9%)). Investigations conducted as part of state programmes at (n = 3(1.4%)) were also discharge during the period. Joint requests by different stakeholders were also recorded during the period. Workers are empowered by OHS legislation to request investigations following concerns of exposure to occupational health hazards [1,2,3,4,20,21], as is the case with the cases reported to NIOSH.

3.2. Quantitative Analysis

Table 2 shows the quantitative data used as input for making judgements relating to exposure for each investigated case. The quantitative exposure data in Table 2 was derived using occupational hygiene measurement techniques as part of the field investigations, and employed personal and area measurements, as appropriate. Concern of exposure to chemical hazard types were, by far, the most investigated compared to physical hazards. Undoubtedly, the manufacturing sector involves the handling of substances with resultant exposures to a myriad of chemical hazards [25,26], some of which are currently not regulated. Comparison of the measured air concentrations of these chemical hazards, both personal and area measurements, generally showed a mixed view in relation to measured exposure levels in compliance with (and non-compliance with) the assigned health and safety standards. In the absence of international covenants on health and safety standards, compliance to these standards becomes a function of the selected standard, in some instances. These occupational hygiene measurements provide objective evidence of the severity of the risks, wherefrom the need for instituting mitigating measures could be proposed [27]. The quantified exposures for both chemical and physical hazard types exceeding the health and safety standards justified stakeholder concerns and adjudged to be indicative of adequate hazard and risk perception on the part of the initiators.
Of the investigated and quantified chemical hazards, diacetyl levels from the popcorn manufacturing industry exceeded the NIOSH recommended exposure level in almost all cases. Whereas noise exposures above the regulated exposure limits were noted in almost all investigated and quantified physical hazards. The measured noise levels exceeded both the NIOSH recommended exposure level as well as the OSHA permissible exposure level. Additionally, exposure to heat stress was also prevalent in the included investigations.
The workplaces at which these investigations were conducted were enabled to abate hazards, in most instances, highlighting the positive impact of these investigative activities. Actions taken to abate identified hazards serve as evidentiary proof of employers fulfilling their legal responsibility of providing safe and healthy workplaces.
Table
Table 1. Qualitative overview of initiators of NIOSH–HHE investigations included.
Table 1. Qualitative overview of initiators of NIOSH–HHE investigations included.
Initiator
Industry Type, Year (Reference)EmployerEmployee(s)State ProgramUnionGovernment AgencyTechnical AssistanceOther
Coffee roasting, flavouring, and packaging facility, 2020 [28]------
Coffee roasting, flavouring, and packaging facility, 2020 [29]------
Architectural metal fabrication workshop, 2020 [30]------
Coffee roasting and packaging facility, 2019 [31]------
Electronics recycling company, 2019 [32]------
Coffee roasting and packaging facility and two off-site retail cafes, 2019 [33]------
Rubber manufacturing facility, 2019 [34]------
Paper converting equipment manufacturing facility, 2019 [35]------
Coffee roasting, flavouring, and packaging facility, 2019 [36]------
Brewery, 2019 [37]------
Aircraft power plant parts manufacturer, 2019 [38]------
Precast concrete manufacturer, 2019 [39]------
Automobile manufacturer, 2019 [40]------
Ceramic tile manufacturer, 2019 [41]------
Optical media production company, 2018 [42]------
Coffee roasting and packaging facility, 2018 [43]------
Coffee roasting and packaging facility, 2018 [44]------
Coffee roasting and packaging facility, 2018 [45]------
Steel coil pickling plant, 2018 [46]------
Fiberglass insulation manufacturing plant; and residential clothes dryers manufacturing, 2018 [47]------
Flooring manufacturing plant, 2018 [48]------
Bullet manufacturer, 2018 [49]------
Engine machining plant, 2018 [50]------
Battery manufacturing plant, 2018 [51]------
Pet care product manufacturing, 2018 [52]------
Coffee roasting and packaging facility, 2018 [53]------
Coffee roasting and packaging facility, 2018 [54]------
Two coffee roasting and packaging facility, 2018 [55]------
Coffee roasting and packaging facility, 2018 [56]------
Coffee roasting and packaging facility, 2018 [57] ------
Coffee roasting and packaging facility, 2018 [58]------
3-D printing product manufacturing facility, 2017 [59]------
Aircraft equipment depot, 2017 [60]------
Plastic film assembly facility, 2017 [61]------
Water heater manufacturing, 2017 [62]------
Coffee processing facility, 2017 [63]------
Coffee roasting and packaging facility and attached retail café, 2017 [64]------
Coffee processing plant, 2017 [65]------
Grey and ductile iron foundry, 2017 [66]------
Coffee roasting and packaging facility, 2017 [67]------
Coffee roasting and packaging facility, 2017 [68]------
Poultry production plant **, 2017 [69]----
Poultry production plant **, 2016 [70]----
Stone countertop manufacturing plant, 2016 [71]------
Hammer forge company, 2016 [72]------
Riffle barrel manufacturing, 2016 [73]------
Security portal manufacturer, 2016 [74]------
Automobile parts manufacturing plant, 2016 [75]------
Steel building materials manufacturer, 2016 [76]------
Snack foods manufacturing facility, 2016 [77]------
Coal and copper slag processing facility, 2016 [78]------
Syntactic foam manufacturing facility, 2016 [79]------
Fiberglass-reinforced wind turbine blade manufacturing, 2016 [80]------
Automotive engine water pump manufacturer, 2016 [81]------
Garlic paste production process, 2015 [82]------
Aircraft ejection seat manufacturer, 2015 [83]------
Poultry processing plant, 2015, [84]------
Grey and ductile iron foundry 2015 [85]------
Dry cleaning shop, 2015 [86]------
Orthopaedic implant manufacturer, 2015 [87]------
Label manufacturing facility, 2014 [88]------
Polymer additive manufacturing facility, 2014 [89]------
Aircraft engine services facility, 2014 [90]------
Specialty Chemicals plant, 2014 [91]------
Pet food manufacturing facility, 2014 [92]------
Electrical cables accessories manufacturing, 2014 [93]------
Poultry processing plant, 2014 [94]------
Automotive lead-acid battery recycling company, 2014 [95]------
Steel mill fiberglass fibre shedding **, 2013 [96]----
Furniture manufacturing plant, 2013 [97]------
Poultry processing plant *, 2013 [98]----
Cream cheese manufacturing facility, 2013 [99]------
Snack food production facility, 2013 [100]------
Flavouring manufacturing facility, 2013 [101] ------
Poultry breading plant, 2013 [102]------
Tire manufacturing plant, 2013 [103]------
Aluminium beverage can manufacturing, 2012 [104]------
Poultry processing plant, 2012 [105]------
Eyeglass manufacturing, 2012 [106]------
Abrasive blasting, 2012 [107]------
Poultry processing facility, 2012 [108]------
Indium-tin oxide production facility, 2012 [109]------
Aircraft engine manufacturing facility, 2012 [110]------
Brewery, 2011 [111]------
Drum refurbishing plant, 2011 [112]------
Ink ribbon manufacturing, 2011 [113]------
Aluminium smelter, 2011 [114]------
Flavouring manufacturing company, 2011 [115]------
Semiconductor manufacturing plant, 2011 [116]------
Immortalis Botanicals, 2010 [117]------
Steel manufacturing, 2010 [118]------
Workholding manufacturing facility, 2010 [119]------
Electrolytic manganese dioxide processing plant [120]------
Aircraft manufacturing plant, 2010 [121]------
Steel grating manufacturing plant **, 2009 [122]----
Road markings manufacturing, 2009 [123]------
Road sign printing, 2009 [124]------
Metal furniture manufacturing, 2009 [125]------
Printed circuit board manufacturing, 2009 [126]------
Bakery, 2009 [127]------
Flavourings, modified dairy products, and bacterial additive manufacturing, 2009 [128]------
Tungsten carbide manufacturing, 2009 [129]------
Three commercial kitchens, 2009 [130]------
Automotive parts manufacturing, 2008 [131]------
Turkey processing plant, 2008 [132]------
Cabinet mill and assembly plant, 2008 [133]------
Piston and cylinder liner manufacturing plant, 2008 [134]------
Automotive parts manufacturing, 2008 [135]------
Pottery shop, 2008 [136]------
Entek Manufacturing *, 2008 [137]----
Metal conduit manufacturing, 2008 [138]------
Flavouring manufacturing plant, 2008 [139]------
Glass bottle manufacturing, 2007 [140]------
Liquid and powdered flavouring manufacturer, 2007 [141]------
Roller chain manufacturing facility, 2007 [142]------
Smelter, 2007 [143]------
Specialty steel manufacturing, 2007 [144]------
Communications company, 2007 [145]------
Poultry processing facility, 2007 [146]------
Popcorn popping plant, 2007 [147]------
Label distribution company, 2007 [148]------
Flavouring manufacturing plant *, 2007 [149]----
Ballistic systems manufacturing, 2006 [150]--- --
Tapered steel roller bearing manufacturing, 2006 [151]------
Motorcycle assembly facility, 2006 [152]------
Microwave popcorn plant, 2006 [153]------
Polystyrene and foam manufacturing, 2006 [154]------
Flock manufacturing facility, 2006 [155]------
Automotive assembly plant, 2006 [156]------
Cultured marble vanities, bath tubs, and shower walls and floors manufacturing, 2006 [157]------
Aircraft fuel cells manufacturing, 2006 [158]------
Poultry processing facility, 2006 [159]------
Residential and industrial furnace manufacturing, 2006 [160]------
Glass container manufacturer, 2005 [161]------
Computer services, 2005 [162]------
Fabricated metal product manufacturing, 2005 [163]------
PTFE, thermoplastic rotating seals, subassembly systems and plastic mating component manufacturing, 2005 [164]------
Portland cement company, 2005 [165]------
Ice cream and frozen novelty product manufacturer, 2005 [166]------
Hardware (zinc casting department), 2005 [167]------
Axle assembly facility, 2005 [168]------
Magnesium ingot, magnesium recycling and chemical by-products supplier and manufacturer *, 2005 [169]---
Asphalt plant 1, 2005 [170]------
Heavy metal fabrication operation, 2005 [171]------
Corrugated cardboard and pulp paper production facility, 2004 [172]------
Microwave popcorn plant *, 2004 [173]----
Microwave popcorn production, 2004 [174]------
Corrosive-resistant stainless steel and piping system fabrication facility, 2004 [175]------
Metal parts manufacturing, 2004 [176]------
Polyethylene and polypropylene plastics complex, 2004 [177]------
Coal-fired boiler component fabrication, 2004 [178]------
Milk, ice cream and cultured dairy products processor, 2004 [179]------
Agri-business enterprise (potato processor), 2004 [180]------
Wireless network systems manufacturer, 2004 [181]------
Microwave popcorn plant, 2003 [182]------
Foam cushion manufacturer, 2003 [183]------
Specialty chemical manufacturer, 2003 [184]------
Custom concrete counter tops manufacturer, 2003 [185]------
Aluminium oil cooler producer, 2003 [186]------
Turkey processing facility, 2003 [187]--- --
Flexographic printing operation, 2003 [188]- ----
Microwave popcorn plant, 2003 [189]------
Metal valves and steam traps manufacturer, 2003 [190]------
Metal phosphide-based fumigant manufacturer, 2003 [191]------
Flexible packaging and pressure sensitive material manufacturer, 2003 [192]------
Advanced surgical instruments and medical services developer, 2003 [193]------
Microwave popcorn manufacturer, 2003 [194]------
Valve manufacturing, 2002 [195]------
Titanium and aluminium commercial airplane parts manufacturer, 2002 [196]------
Electroplated strip steel manufacturer, 2002 [197]------
Rubber moulded parts, rubber to metal mould bonded bushings, Teflon lined bonded bushings, and rubber compounds manufacturer, 2002 [198]------
Air compressor manufacturer, 2002 [199]------
Sofa cushion manufacturer, 2002 [200]------
Neon tube manufacturing, 2002 [201]------
Flexographic printing operation, 2002 [202]------
Glass funnel and panel manufacturer, 2002 [203]------
Automotive brake calipers and drum manufacturer **, 2002 [204]----
Automatic transmissions and transmission components manufacturer **, 2002 [205]---
Seat cushion manufacturer, 2002 [206]------
Specialty, nonferrous metal-alloy billet producer, 2001 [207]------
Potato product manufacturer, 2001 [208]------
Catalyst manufacturer, 2001 [209]------
Wire rope products manufacturer, 2001 [210]------
Instrumentation and component manufacturer, 2001 [211]------
Woodworking operation (garage interior component production), 2001 [212]------
Shear, scissors and thread manufacturer, 2001 [213]------
Nonwoven and specialty fibres manufacturer, 2001 [214]------
Portland cement company, 2001 [215]------
Aircraft support centre, 2001 [216]------
Electrical parts, starters/generators, generator control units, fans, hydraulics, wheels, and breaks assembly shops, 2001 [217]------
Microwave popcorn production, 2001 [218]------
Flock production, 2000 [219]------
Beverage delivery company *, 2000 [220]----
Flat, clear glass producer*, 2000 [221]----
Automotive foam cushion manufacturing, 2000 [222]------
Flocking facility, 2000 [223]------
Aircraft engine facility, 2000 [224]------
Military aircraft manufacturer, 2000 [225]------
Backhoe, crawler dozers and rough terrain forklifts manufacturer, 2000 [226]------
Plastic injection-moulding facility, 2000 [227]------
Automobile transmission plant **, 2000 [228]----
Aircraft support centre, 2000 [229] -----
Beef company, 2000 [230]------
Precious metal recycling facility, 2000 [231]------
Turkey processing plant, 2000 [232]------
Hydraulic commercial and industrial elevator production **, 2000 [233]----
Wire harness and heating, ventilation, and air conditioning components assembly shop, 2000 [234]------
Steel galvanizing operation, 2000 [235]------
Total (percentage)87 (42%)59 (28.5%)3 (1.4%)32 (15.5%)5 (2.4%)14 (6.8%)7 (3.4%)
* Numeric count included as technical assistance only| ** Numeric count included as other.
Table
Table 2. Quantitative presentation of the occupational hygiene measurement outcomes used during investigations.
Table 2. Quantitative presentation of the occupational hygiene measurement outcomes used during investigations.
Manufacturing Industry Type, Year (Reference)Target Occupational Health StressorMeasured Exposure Levels ACompliance to Health and Safety StandardsComplaint Justified
SAOSHANIOSHHSE
Coffee roasting, flavouring, and packaging facility, 2020 [28]Diacetyl: Full-shift personal breathing zone (PBZ) samples4.3–166NR BNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samplesND C–199NRNRNEDNRUNCLEAR
Diacetyl: Full-shift PBZ samples3.3–163.8NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples1.8–899.6NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesND–15.7NRNRNENRUNCLEAR
Coffee roasting, flavouring, and packaging facility, 2020 [29]Diacetyl: Full-shift PBZ samples38.1–185.4NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples20.5–279.9NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samples1.1–9.1NRNRNENRUNCLEAR
Architectural metal fabrication workshop, 2020 [30]Chromium: Full-shift PBZ samplesND–0.0010.5(✓)1000(✓)500(✓)0.5(✓)YES
Iron oxide: Full-shift PBZ samples0.04–1.0085(✓)10(✓)5(✓)5(✓)NO
Manganese: Full-shift PBZ samples0.002–0.0225(✓)5(✓)1(✓)0.5(✓)NO
Zinc oxide: Full-shift PBZ samplesND–0.0045(✓)10(✓)5(✓)5(✓)NO
Coffee roasting and packaging facility, 2019 [31]Diacetyl: Full-shift PBZ samples8.9–420.9NRNR0.005(✕)NReYES
2,3-pentanedione: Full-shift PBZ samples4.9–275.9NRNR0.0093(✕)NRYES
Electronics recycling company, 2019 [32]Iron: Full-shift PBZ samplesND–195(✕)10(✕)5(✕)5(✕)YES
Lead: Full-shift PBZ samplesND–0.080.15(✓)0.050(✕)0.050(✕)0.15(✕)YES
Manganese: Full-shift PBZ samplesND–0.095(✓)5(✓)1(✓)0.5(✓)NO
Nickel: Full-shift PBZ samples ND–0.460.1(✕)1(✓)0.015(✕)0.5(✓)YES
Zinc: Full-shift PBZ samplesND–7.85(✕)10(✓)5(✕)5(✕)YES
Noise (Peak noise): Area noise levels117–123NR140(✓)140(✓)140(✓)YES
Coffee roasting and packaging facility and two off-site retail cafes, 2019 [33]Diacetyl: Full-shift PBZ samples0.7–13.9NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples<0.5–15.6NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samples<0.5 - <0.6NRNRNENRUNCLEAR
Rubber manufacturing facility, 2019 [34]Total volatile organic compounds: Spot measurements0.647 - 8NRNRNENRUNCLEAR
Carbon monoxide: Spot measurements0.9–6.450(✓)50(✓)35(✓)20(✓)NO
Paper converting equipment manufacturing facility, 2019 [35]Thoracic particle mass: Full-shift PBZ samplesND–1.5810(✓)15(✓)10(✓)10(✓)NO
Metalworking fluid: Full-shift PBZ samplesND–0.32NRNR0.40(✓)NRNO
Coffee roasting, flavouring, and packaging facility, 2019 [36]Diacetyl: Full-shift PBZ samplesND–1.3NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samplesND–1.6NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesNDNRNRNENRUNCLEAR
Aircraft power plant parts manufacturer, 2019 [38]Chromium: Full-shift PBZ samples0.0013–0.0120.5(✓)1(✓)0.5(✓)0.5(✓)NO
Hexavalent chromium: Full-shift PBZ samplesND–0.0000010.05(✓)0.1(✓)1(✓)0.05(✓)NO
Nickel: Full-shift PBZ samplesND–0.0351(✓)1(✓)0.015(✕)0.1(✓)YES
Noise: Employee full-shift noise exposure50.3–88.2 E
76–95 F		85(✕)85(✕)
90(✕)		85(✕)80(✓)
87(✕)		YES
Precast concrete manufacturer, 2019 [39]Noise: employee noise exposures: full-shift noise exposure73.1–90.2 E
79–95.1 F		85(✕)85(✕)
90(✕)		85(✕)80(✓)
87(✕)		YES
Ceramic tile manufacturer, 2019 [41]Sulphuric acid: Full-shift PBZ samples0.0022–0.0121110.05NO
Heat stress: area measurements25.7–29.530 G(✕)NR26.7 G(✕)VariesYES
Optical media production company, 2018 [42]2-Butoxyethanol: Full-shift PBZ samples0.001–0.125(✓)50(✓)5(✓)25(✓)NO
Ethylbenzene: Full-shift PBZ samples0.0006–0.01100(✓)100(✓)100(✓)100(✓)NO
Naphthalene: Full-shift PBZ samples0.001–0.110(✓)10(✓)10(✓)NRNO
Trimethylbenzene: Full-shift PBZ samples0.001–0.125(✓)NR25(✓)25(✓)NO
Xylene: Full-shift PBZ samples0.001–0.1100(✓)100(✓)100(✓)50(✓)NO
Coffee roasting and packaging facility, 2018 [43]Diacetyl: Full-shift PBZ samplesND–20.7NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples0.2–24NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesND–0.5NRNRNENRUNCLEAR
Coffee roasting and packaging facility, 2018 [44]Diacetyl: Full-shift PBZ samples0.6–2.9NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples0.4–2.6NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesNDNRNRNENRUNCLEAR
Coffee roasting and packaging facility, 2018 [45]Diacetyl: Full-shift PBZ samples0.9–4.7NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples0.9–3.9NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesNDNRNRNENRNO
Steel coil pickling plant, 2018 [46]Oil mist: Full-shift PBZ samples0.053–0.081NR5(✓)5(✓)NRNO
Noise: Full-shift personal noise exposures70.3–83.6 E
83.9–90.5 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Oil mist: Full-shift area air samplesND–0.088NR5(✓)5(✓)NRNO
Noise: Area noise measurements50.2–90.3 E
76–93.3 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Bullet manufacturer, 2018 [49]Lead: Full-shift PBZ samples0.0023–0.020.15(✓)0.050(✓)0.050(✓)0.15(✓)NO
Tin: Full-shift PBZ samplesND–0.00092(✓)2(✓)2(✓)2(✓)NO
Noise: Spot measurements85–99 F85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Engine machining plant, 2018 [50]Metalworking fluid: Full-shift PBZ samplesND–0.17NRNR0.40(✓)NRNO
Coffee roasting and packaging facility, 2018 [53]Diacetyl: Full-shift PBZ samples7.4–40.5NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples4.8–27.1NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesND–1.3NRNRNENRUNCLEAR
Coffee roasting and packaging facility, 2018 [54]Diacetyl: Full-shift PBZ samples4.8–33.3NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples2.2–177.9NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesND–2NRNRNENRUNCLEAR
Two coffee roasting and packaging facility, 2018 [55]Diacetyl: Full-shift PBZ samples2.3–9.4NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples1.3–5.3NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesND–0.7NRNRNENRUNCLEAR
Coffee roasting and packaging facility, 2018 [56]Diacetyl: Full-shift PBZ samples0.7–5.6NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples0.6–33NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesNDNRNRNRNRUNCLEAR
Coffee roasting and packaging facility, 2018 [57] Diacetyl: Full-shift PBZ samples0.5–21.5NRNR0.005(✕)0.02(✕)YES
2,3-pentanedioneND–15.8NRNR0.0093(✕)NRYES
2,3-hexanedioneND–0.4NRNRNENRUNCLEAR
Coffee roasting and packaging facility, 2018 [58]Diacetyl: Full-shift personal breathing zone samples0.5–25.6NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samplesND–15.8NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesND–0.4NRNRNENRUNCLEAR
3-D printing product manufacturing facility, 2017 [59]Acetone: Full-shift PBZ samples0.05–0.11750(✓)1000(✓)250(✓)500(✓)NO
Ethanol: Full-shift PBZ samples0.051000(✓)1000(✓)1000(✓)1000(✓)NO
Isopropyl alcohol: Full-shift PBZ samples2–2.6400(✓)400(✓)400(✓)400(✓)NO
m,p-Xylene: Full-shift PBZ samples0.002–0.0005100(✓)100(✓)100(✓)50(✓)NO
Aircraft equipment depot, 2017 [60]Cadmium (total particulate): Full-shift PBZ samplesND–000000930.05(✓)0.005(✓)LFLH0.025(✓)NO
Cadmium (respirable particulate): Full-shift PBZ samplesND–0.000000270.05(✓)0.005(✓)LFLH0.025(✓)NO
Plastic film assembly facility, 2017 [61]Acetaldehyde: Full-shift PBZ samples0.0064–0.026100(✓)200(✓)NE20(✓)NO
Formaldehyde: Full-shift PBZ samples0.0046–0.0682(✓)2(✓)0.1(✓)2(✓)NO
Respirable dust: Full-shift PBZ samples0.17–0.495(✓)5(✓)5(✓)4(✓)NO
Water heater manufacturing, 2017 [62]Respirable dust: Full-shift PBZ samples0.000063–0.000595(✓)5(✓)5(✓)4(✓)NO
Crystalline silica: Full-shift PBZ samples (respirable)0.000011–0.0001040.04(✓)0.05(✓)0.05(✓)0.1(✓)NO
Manganese: Full-shift PBZ samples0.00000056–0.000035(✓)5(✓)1(✓)0.05(✓)NO
Iron oxide: Full-shift PBZ samples0.000033–0.000245(✓)10(✓)5(✓)5(✓)NO
MDI monomer: Full-shift PBZ samplesND–0.000000070.2(✓)0.02(✓)0.005(✓)0.02(✓)NO
Coffee processing facility, 2017 [63]Diacetyl: Full-shift PBZ samplesND–7.2NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samplesND–6.9NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesNDNRNRNRNRUNCLEAR
Coffee roasting and packaging facility and attached retail café, 2017 [64]Diacetyl: Full-shift PBZ samplesND–5.9NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples0.9–5.2NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesNDNRNRNRNRUNCLEAR
Coffee processing plant, 2017 [65]Diacetyl: Full-shift PBZ samples1.3–4.1NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples0.9–4.9NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesNDNRNRNENRUNCLEAR
Grey and ductile iron foundry, 2017 [66]Noise: Personal noise exposure95.7–107.5 E
97.7–107.9 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Noise: Area noise levels and spectral analysis93–120 F85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Coffee roasting and packaging facility, 2017 [67]Diacetyl: Full-shift PBZ samples2.8–18.8NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samples2.9–18.7NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesNDNRNRNENRUNCLEAR
Coffee roasting and packaging facility [68]Diacetyl: Full-shift PBZ samplesND–13.1NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samplesND–7.5NRNR0.0093(✕)NRYES
2,3-hexanedione: Full-shift PBZ samplesND–0.4NRNRNENRUNCLEAR
Poultry production plant, 2017k [69]Peracetic acid: Full-shift PBZ samples0.0080–0.0092NRNRNRNRUNCLEAR
Hydrogen peroxide: Full-shift PBZ samples0.027–0.0281(✓)1(✓)1(✓)1(✓)YES
Acetic acid: Full-shift PBZ samples0.047–0.07810(✓)10(✓)10(✓)10(✓)YES
Poultry production plant, 2016 [70]Peracetic acid: Full-shift PBZ samplesNDNRNRNRNRNO
Hydrogen peroxide: Full-shift PBZ samplesND1(✓)1(✓)1(✓)1(✓)YES
Acetic acid: Full-shift PBZ samples0.03010(✓)10(✓)10(✓)10(✓)NO
Stone countertop manufacturing plant, 2016 [71]Respirable dust: Full-shift PBZ samplesND–0.000385(✓)5(✓)5(✓)4(✓)NO
Crystalline silica: Full-shift PBZ samplesND–0.00130.04(✓)0.05(✓)0.05(✓)0.1(✓)NO
Hammer forge company, 2016 [72]Noise: Full-shift TWA noise exposures65.2–107 E
83.4–110.4 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Noise: Impact noise levels of forge equipment118–148 FNRNR137(✕)137(✕)YES
Whole body vibration: Hammers0.02–0.56NRNRNR1.15(✓)NO
Harm-arm vibration: Grinders0.50–4.40NRNRNR5(✓)NO
Heat: General22–33.930 G(✕)NR26.7 G(✕)VariesYES
Riffle barrel manufacturing, 2016 [73]Metalworking fluid mist (thoracic particulate): Full-shift PBZ samples0.12–0.4NRNR0.40(✓)NRNO
Metalworking fluid mist (extracted MWF particulate): Full-shift PBZ samples0.09–0.34NRNRNENRUNCLEAR
Security portal manufacturer, 2016 [74]Chromium: Full-shift PBZ samplesND–0.00050.5(✓)1(✓)0.5(✓)0.5(✓)YES
Manganese: Full-shift PBZ samples0.00001–0.00145(✓)5(✓)1(✓)0.05(✓)YES
Nickel: Full-shift PBZ samplesND–0.00021(✓)1000(✓)15(✓)0.5(✓)YES
Noise: Personal noise sampling66.2–89.5 E85(✕)85(✕)
90(✓)		85(✕)80(✓)
87(✕)		YES
Automobile parts manufacturing plant, 2016 [75]Noise: Personal noise exposure53.2–68.9 E
77.9–84.5 E		85(✕)85(✕)
90(✓)		85(✕)80(✓)
87(✕)		YES
2-butoxyethanol: Full-shift PBZ samples0.013–0.02325(✓)50(✓)5(✓)25(✓)NO
Isopropyl alcohol: Full-shift PBZ samples4.1–5400(✓)400(✓)400(✓)400(✓)NO
Pentane: Full-shift PBZ samples0.062–0.067600(✓)1000(✓)120(✓)600(✓)NO
Toluene: Full-shift PBZ samples0.038–0.04650(✓)200(✓)100(✓)50(✓)NO
Coal and copper slag processing facility, 2016 [78]Total dust: Full-shift PBZ samples0.12–6.5610(✓)15(✓)10(✓)10(✓)NO
Respirable dust: Full-shift PBZ samplesND–0.705(✓)5(✓)5(✓)4(✓)NO
Crystalline silica: Full-shift PBZ samplesND–0.420.04(✕)0.05(✕)0.05(✕)0.1(✕)YES
Chromium: Full-shift PBZ samples0.0003–0.00140.5(✓)0.5(✓)1(✓)0.5(✓)NO
Copper: Full-shift PBZ samplesND–0.4791(✓)1(✓)1(✓)1(✓)NO
Tin: Full-shift PBZ samples0.0004–0.0592(✓)2(✓)2(✓)2(✓)NO
Fiberglass-reinforced wind turbine blade manufacturing, 2016 [80]Styrene: Full-shift PBZ samples0.091–56100(✓)100(✓)50(✕)100(✓)NO
Total dust: Full-shift PBZ samples0.28–9010(✕)15(✕)10(✕)10(✕)YES
Automotive engine water pump manufacturer, 2016 [81]Metalworking fluid mist (thoracic particulate): Full-shift PBZ samples0.19–0.76NRNR0.40(✕)NRNO
Formaldehyde: Full-shift PBZ samples0.041–0.192(✓)0.75(✓)0.016(✕)2(✓)NO
Garlic paste production process, 2015 [82]Diallyl disulphide: Full-shift PBZ samples0.09–0.63NR2(✓)2(✓)NRNO
Aircraft ejection seat manufacturer, 2015 [83]Metalworking fluid mist (thoracic particulate): Full-shift PBZ samples0.08–0.20NRNR0.40(✓)NRNO
Grey and ductile iron foundry, 2015 [85]Noise: Personal noise measurements91.3–103.7 E
94.2–105.9 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Noise: Area measurements105–114 E
100–103 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Dry cleaning shop, 2015 [86]Butylal: Full-shift PBZ samples0.14–0.83NRNRNRNRUNCLEAR
Butylal: Task-based breathing zone samples0.57–1.9NRNRNRNRUNCLEAR
Butylal: Full-shift PBZ samples0.18–0.19NRNRNRNRUNCLEAR
Orthopaedic implant manufacturer, 2015 [87]Hexavalent chromium: Full-shift PBZ samplesND–0.00010.05(✓)0.1(✓)0.005(✓)0.05(✓)NO
Hexavalent chromium: Area samplesND–0.0000010.05(✓)0.1(✓)0.005(✓)0.01NO
Metalworking fluid: Full-shift PBZ samplesNDNRNR0.4(✓)NRNO
Metalworking fluid (total particulate): Area samplesNDNRNR0.4(✓)NRNO
Total particulate in air: Full-shift PBZ samples0.069–2110(✕)15(✕)10(✕)10(✕)YES
Noise: Personal noise monitoring67–93 F85(✕)85(✕)
90(✕)		85(✕)80(✓)
87(✕)		YES
Polymer additive manufacturing facility, 2014 [89]Aniline: Full-shift PBZ samplesND2(✓)5(✓)LFLI(✓)1(✓)NO
Hydrogen sulphide: Full-shift PBZ samplesND10(✓)20(✓)10(✓)5(✓)NO
OTOS dust: Full-shift PBZ samples0.91–1.410(✓)15(✓)10(✓)NRNO
Electrical cables accessories manufacturing, 2014 [93]Formaldehyde: Full-shift PBZ samples0.0032–0.0062(✓)0.75(✓)0.016(✓)2(✓)NO
Toluene: Full-shift PBZ samples2.3–1350(✓)200(✓)100(✓)50(✓)NO
Ethylbenzene: Full-shift PBZ samples0.25–1.2100(✓)100(✓)100(✓)100(✓)NO
Xylene: Full-shift PBZ samples0.8–5.4100(✓)100(✓)100(✓)50(✓)NO
Automotive lead-acid battery recycling company, 2014 [95]Lead: Full-shift PBZ samples0.004–4.10.15(✕)0.050(✕)0.050(✕)0.15(✕)YES
Noise: Personal noise exposure69–86 E
82–92 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Heat: Area WBGT measurements15.6–3130 G(✕)NR26.7 G(✕)VariesYES
Furniture manufacturing plant, 2013 [97]Isobutyl acetate: Full-shift PBZ samples0.31–0.43200(✓)150(✓)150(✓)200(✓)NO
nButyl acetate: Full-shift PBZ samples0.055–0.42150(✓)150(✓)150(✓)150(✓)NO
2-Propoxyethanol: Full-shift PBZ samples0.083–0.11NRNRNRNRUNCLEAR
2-Butoxyethanol: Full-shift PBZ samplesND–0.00725(✓)50(✓)5(✓)25(✓)NO
Cream cheese manufacturing facility, 2013 [99]Diacetyl: Full-shift PBZ samples0.4–15.1NRNR0.005(✕)0.02(✕)YES
2,3-pentanedione: Full-shift PBZ samplesNDNRNR0.0093(✓)NRNO
Acetoin: Full-shift PBZ samples1.7–85.1NRNENENRUNCLEAR
Snack food production facility, 2013 [100]Sodium hydroxide: 8-hour TWA air concentration0.012(✓)2(✓)2(✓)2(✓)NO
Poultry breading plant, 2013 [102]Inhalable flour dust: Full-shift PBZ samples0.22–9310(✕)15(✕)NE10(✕)YES
Inhalable wheat: Full-shift PBZ samplesND–0.4410(✓)10(✓)4(✓)10(✓)NO
Inhalable soy: Full-shift PBZ samplesND–0.0000110(✓)10(✓)4(✓)10(✓)NO
Aluminium beverage can manufacturing, 2012 [104]Noise: Area noise levels and spectral analysis100.5–114 E85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Noise: Full-shift personal noise exposure71.2–100.2 E
84.2–102.7 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Metalworking fluid: Full-shift PBZ samples0.09–0.28NRNR0.40(✓)NRNO
Hydrofluoric acid: Full-shift PBZ samples0.00963(✓)2.5(✓)2.5(✓)1.8(✓)NO
Hydrofluoric acid: Area air samples0.005–0.243(✓)2.5(✓)2.5(✓)1.8(✓)NO
Dibutylaminoethanol: Full-shift PBZ samples0.20–0.26NRNR14 (✓)NRNO
Dibutylaminoethanol: Area air samples0.11–0.28NRNR14 (✓)NRNO
Formaldehyde: Full-shift PBZ samples0.020–0.0902(✓)0.75(✓)0.016(✓)2(✓)NO
Formaldehyde: Area air samples0.006–0.0402(✓)0.75(✓)0.016(✕)2(✓)YES
Poultry processing facility, 2012 [108]Soluble chlorine: Full-shift PBZ samplesND–0.000130.5(✓)1(✓)0.5(✓)0.5(✓)NO
Trichloramine: Full-shift PBZ samplesND–0.000045NRNRNENRUNCLEAR
Aircraft engine manufacturing facility, 2012 [110]Metalworking fluid mist (thoracic particulate): Full-shift PBZ samplesND–0.29NRNR0.40(✓)NRNO
Metalworking fluid mist (extracted MWF particulate): Full-shift PBZ samplesND–0.31NRNRNENRUNCLEAR
Drum refurbishing plant, 2011 [112]Cumene: Work-shift PBZ samples0.007–0.725(✓)50(✓)50(✓)25(✓)NO
Toluene: Work-shift PBZ samplesND–0.3550(✓)200(✓)100(✓)50(✓)NO
Trimethyl benzenes: Work-shift PBZ samples0.47–30.5125(✓)NR25(✕)25(✓)YES
Xylene: Work-shift PBZ samples0,0168–1.5250(✓)400(✓)100(✓)50(✓)NO
Noise: Personal work-shift TWA noise exposure measurements81.3–104.9 E85(✕)85(✕)
90(✓)		85(✕)80(✕)
87(✕)		YES
Ink ribbon manufacturing, 2011 [113]Methyl ethyl ketone: Area samples0.12–85200(✓)200(✓)200(✓)NRNO
Xylene (para): Area samplesND–0.049100(✓)100(✓)100(✓)50(✓)NO
Toluene: Area samples0.34–1150(✓)100(✓)200(✓)50(✓)NO
Aluminium smelter, 2011 [114]Heat stress: Area measurements26–48.930 G(✕)NR26.7 G(✕)VariesYES
Semiconductor manufacturing plant, 2011 [116]Carbon monoxide: Full-shift PBZ samples0–37550(✓)50(✓)35(✓)20(✓)NO
Immortalis Botanicals, 2010 [117]Toluene: TWA PBZ sample 0.064–0.06950(✓)200(✓)100(✓)50(✓)NO
Steel manufacturing, 2010 [118]Carbon monoxide: Full-shift PBZ samples3–750(✓)50(✓)35(✓)20(✓)NO
Lead: Full-shift PBZ samplesND–0.00880.15(✓)0.050(✓)0.050(✓)0.15(✓)NO
Iron: Full-shift PBZ samples0.042–2.35(✓)10(✓)5(✓)5(✓)NO
Electrolytic manganese dioxide processing plant, 2010 [120]Manganese: Full-shift PBZ samples0.015–1.65(✓)5(✓)1(✕)0.5(✕)YES
Aircraft manufacturing plant, 2010 [121]Total dust: Full-shift PBZ samplesND–0.2810(✓)15(✓)NE10(✓)NO
Respirable dust: Full-shift PBZ samplesND–0.295(✓)5(✓)5(✓)4(✓)NO
Road markings manufacturing, 2009 [123]Respirable dust: Full-shift PBZ samplesND–0.185(✓)5(✓)5(✓)4(✓)NO
Formaldehyde: Full-shift PBZ samplesND–0.00982(✓)0.75(✓)0.016(✓)2(✓)NO
Road sign printing, 2009 [124]Toluene: Full-shift PBZ samples9.8–1750(✓)200(✓)100(✓)50(✓)NO
n-Hexane: Full-shift TWA PBZ samples2.9–5.720(✓)500(✓)50(✓)20(✓)NO
Isopropyl alcohol: Full-shift TWA PBZ samples6.9–10400(✓)400(✓)400(✓)400(✓)NO
Acetone: Full-shift TWA PBZ samples14–31750(✓)1000(✓)250(✓)500(✓)NO
Cyclohexanone: Full-shift TWA PBZ samples0.28–0.6050(✓)50(✓)25(✓)10(✓)NO
Metal furniture manufacturing, 2009 [125]Welding fumes: Manganese: Full-shift PBZ samples0.81–701(✕)5(✕)1(✕)0.5(✕)YES
Welding fumes: Iron: Full-shift PBZ samples34–18305(✕)10(✕)5(✕)5(✕)YES
Respirable dust: Full-shift PBZ samplesND–8.45(✕)5(✕)5(✕)NRYES
Total dust: Full-shift PBZ samples0.80 - 13010(✕)15(✕)10(✕)10(✕)YES
Printed circuit board manufacturing, 2009 [126]Toluene: Full-shift PBZ samples0.17–350(✓)200(✓)100(✓)50(✓)NO
Xylene: Full-shift PBZ samples0.063–4100(✓)100(✓)100(✓)50(✓)NO
n-Butyl acetate: Full-shift PBZ samples0.99–40150(✓)150(✓)150(✓)150(✓)NO
MEK: Full-shift PBZ samples0.045–4.7200(✓)200(✓)200(✓)200(✓)NO
2-Butoxyethanol: Full-shift PBZ samples0.0062–0.009525(✓)50(✓)5(✓)25(✓)NO
Benzyl alcohol: Full-shift PBZ samples0.57–2.6NR1(✕)1(✕)NRYES
Noise: Full-shift noise exposure doses20–66.4 F85(✓)85(✓)
90(✓)		85(✓)80(✓)
87(✓)		NO
Bakery, 2009 [127]Flour dust: Inhalable Full-shift PBZ samplesND–6510(✕)15(✕)NE10(✕)YES
α-amylase: Full-shift PBZ samplesND–11NRNRNENRUNCLEAR
Wheat: Full-shift PBZ samplesND–90010(✕)10(✕)4(✕)10(✕)YES
Flavourings, modified dairy products, and bacterial additive manufacturing, 2009 [128]Diacetyl: Full-shift PBZ samplesND–4.30NRNR0.0005(✕)0.02(✕)YES
Acetaldehyde: Full-shift PBZ samplesND100(✓)200(✓)LFC20(✓)NO
Respirable dust: Full-shift PBZ samplesND–1.255(✓)5(✓)5(✓)4(✓)NO
Tungsten carbide manufacturing, 2009 [129]Cobalt: Full-shift PBZ samples0.0016–0.8150.1(✕)0.1(✕)0.05(✕)0.1(✕)YES
Chromium: Full-shift PBZ samplesND–0.00290.5(✓)1(✓)0.5(✓)0.5(✓)NO
Nickel: Full-shift PBZ samples0.0002–0.8050.5(✕)1(✓)0.015(✕)0.5(✕)YES
Total dust: Full-shift PBZ samples0.0217–10.8610(✕)15(✓)NE10(✕)YES
Metalworking fluid: Full-shift PBZ samples0.0001–0.0009NRNR0.40(✓)NRNO
Three commercial kitchens, 2009 [130]Diacetyl, acetoin, nitrogen dioxide: Full-shift PBZ samplesND----NO
Automotive parts manufacturing, 2008 [131]Heat stress: Area WBGT index21.1–25.630 G(✓)NR26.7 G(✓)VariesYES
Noise: Area noise levels90–100 E85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Pottery shop, 2008 [136]Respirable particulates: Full-shift PBZ samples0.15–0.345(✓)5(✓)5(✓)4(✓)NO
Silica: Full-shift PBZ samplesND0.04(✓)0.05(✓)0.05(✓)0.1(✓)NO
Respirable particulates: Task-based PBZ samples0.43–2.45(✓)5(✓)5(✓)4(✓)NO
Silica: Task-based PBZ samplesND–1.30.04(✓)0.05(✓)0.05(✓)0.1(✓)NO
Entek manufacturing, 2008 [137]Trichloroethylene: Full-shift PBZ samples1.7 - 130100(✕)100(✕)25(✕)100(✕)YES
Noise: Area noise levels75–97 E85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Noise: Noise dose levels20–93.2 E
84.3–104.6 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Metal conduit manufacturing, 2008 [138]Noise: Personal noise dosimetry measurements72.2–95.6 E
81.7–102.7 E		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Metalworking fluids: Full-shift PBZ samples(thoracic part mass)0.17–0.5NRNR0.40(✕)NRYES
Metalworking fluids: Full-shift PBZ samples (extracted MWF)ND–0.32NRNRNENRUNCLEAR
Acids: nitric acid: Full-shift PBZ samplesND–0.0542(✓)5(✓)5(✓)1(✓)NO
Chromium VI: Full-shift PBZ samples0.026–0.0400.05(✓)5(✓)1(✓)0.05(✓)NO
Welding fumes: Zinc: Full-shift PBZ samples7.7–14505(✕)5(✕)5(✕)NRYES
Welding fumes: Iron: Full-shift PBZ samples11–3805(✕)10(✕)5(✕)5(✕)YES
Heat stress: Area measurements26.2–30.530 G(✕)NR26.7 G(✕)VariesYES
Noise: Area noise levels81–96.5 F85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Flavouring manufacturing plant, 2008 [139]Acetoin: PBZ task-based samples0.05–1.05NRNRNENRUNCLEAR
Diacetyl: PBZ task-based samples0.05–11.04NRNR0.005(✕)0.02(✕)YES
2-Furaldehyde: PBZ task-based samples0.01–0.042(✓)5(✓)LFL2(✓)NO
Acetaldehyde: PBZ task-based samples0.19–4.02100(✓)200(✓)LFL20(✓)NO
Acetic acid: PBZ task-based samples1.9310(✓)10(✓)10(✓)10(✓)NO
Butyric acid: PBZ task-based samples1.20NRNRNENRUNCLEAR
Propionic acid: PBZ task-based samples1.4310(✓)NR10(✓)10(✓)UNCLEAR
Glass bottle manufacturing, 2007 [140]Heat stress: Area WBGT measurements18.1–30.730 G(✕)NR26.7 G(✕)VariesYES
Specialty steel manufacturing, 2007 [144]Noise: Noise dose levels50–80.3 E
83.4–96 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Hydrochloric acid: Full-shift PBZ samplesND–115(✕)7(✕)7(✕)2(✕)YES
Sulphuric acid: Full-shift PBZ samplesND–0.231(✓)1(✓)1(✓)0.05(✕)YES
Metalworking fluid: Full-shift PBZ samples0.57–2.6NRNR0.40(✕)NRYES
Oil mist: Full-shift PBZ samples0.30–2.3NR5(✓)5(✓)NRNO
Communications company, 2007 [145]Noise: Area noise levels52.8–69.985(✓)85(✓)
90(✓)		85(✓)80(✓)
87(✓)		NO
Poultry processing facility, 2007 [146]Trichloramine: Full-shift PBZ samples0.00006–0.00021NRNRNENRUNCLEAR
Soluble chlorine: Full-shift PBZ samplesND–0.00010.5(✓)1(✓)0.5(✓)0.5(✓)NO
Flavouring manufacturing plant, 2007 [149]Diacetyl: Full-shift PBZ TWA samples0.001–8.66NRNR0.005(✕)0.02(✕)YES
Acetoin: Full-shift PBZ TWA samples0.002–0.894NRNENENRUNCLEAR
Acetaldehyde: Full-shift PBZ TWA samples0.0001–0.185100(✓)200(✓)LFL20(✓)NO
Benzaldehyde: Full-shift PBZ TWA samples0.0002–2.23NRNRNENRUNCLEAR
Ballistic systems manufacturing, 2006 [150]Silver iodide: Full-shift PBZ samples0.007–0.430.01(✕)0.01(✕)0.01(✕)0.01(✕)YES
Tapered steel roller bearing manufacturing, 2006 [151]Metalworking fluid: Full-shift PBZ samples (thoracic particulates)0.22–5NRNR0.40(✕)NRYES
Formaldehyde: Full-shift PBZ samplesND–0.062(✓)0.75(✓)0.016(✓)2(✓)NO
Microwave popcorn plant, 2006 [153]Diacetyl: Full-shift PBZ samplesND–97.9NRNR0.0005(✕)0.02(✕)YES
Polystyrene and foam manufacturing, 2006 [154]Pentane: Full-shift PBZ samples7–73600(✓)1000(✓)120(✓)600(✓)NO
Total dust: Full-shift PBZ samples1.8810(✓)15(✓)NE10(✓)NO
Respirable dust: Full-shift PBZ samples0.095(✓)5(✓)5(✓)4(✓)NO
Flock manufacturing facility, 2006 [155]Respirable dust: Full-shift PBZ samples0.01–0.605(✓)5(✓)5(✓)4(✓)NO
Cultured marble vanities, bath tubs, and shower walls and floors manufacturing, 2006 [157]Total particulate: Full-shift PBZ samples0.6–4310(✕)15(✕)NE10(✕)YES
Respirable particulate: Full-shift PBZ samples0.09–0.405(✓)5(✓)5(✓)4(✓)NO
Styrene: Personal breathing zone air samples0.2–31100(✓)100(✓)50(✓)100(✓)NO
α-Methyl styrene: Full-shift PBZ samplesND–0.6100(✓)100(✓)50(✓)100(✓)NO
Methyl methacrylate: Full-shift PBZ samples0.1–2.8100(✓)100(✓)100(✓)50(✓)NO
Noise: Personal noise exposure doses73.4–96.4 E
89.3–112.3 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Aircraft fuel cells manufacturing, 2006 [158]MEK: Full-shift PBZ samples0.3–144200(✓)200(✓)200(✓)200(✓)NO
Acetone: Full-shift PBZ samples0.3–145.6750(✓)1000(✓)250(✓)500(✓)NO
Toluene: Full-shift PBZ samples0.05–650(✓)200(✓)100(✓)50(✓)NO
Poultry processing facility, 2006 [159]Trichloramines: Full-shift PBZ samplesND–0.000023NRNRNENRUNCLEAR
Soluble chlorine: Full-shift PBZ samplesND–0.00010.5(✓)1(✓)0.5(✓)0.5(✓)NO
Glass container manufacturer, 2005 [161]Tin: Full-shift PBZ samplesND–4.62(✕)2(✕)2(✕)2(✕)YES
Monobutyltin trichloride: Full-shift PBZ samplesND–1.5NRNRNENRUNCLEAR
Hydrochloric acid: Full-shift PBZ samplesND–0.175(✓)7(✓)7(✓)2(✓)NO
Computer services, 2005 [162]Trichloroethylene: Full-shift PBZ samples0.01–0.89100(✓)100(✓)25(✓)100(✓)NO
Trimethylbenzene: Full-shift PBZ samples0.32–1.625(✓)NR25(✓)25(✓)NO
2-butoxyethanol: Full-shift PBZ samples4.2–9.3NR50(✓)5(✓)25(✓)NO
Fabricated metal product manufacturing, 2005 [163]Total particulates: Full-shift PBZ samples0.1–7.610(✓)15(✓)NE10(✓)NO
Copper in total dust: Full-shift PBZ samplesND–0.0871(✓)1(✓)1(✓)1(✓)NO
Iron in total dust: Full-shift PBZ samples0.04–45(✓)10(✓)5(✓)5(✓)NO
PTFE, thermoplastic rotating seals, subassembly systems and plastic mating component manufacturing, 2005 [164]Airborne fiberglass: Full-shift PBZ samples1.9–3.9 ^NR15(✓)3^(✕)NRYES
Portland cement company, 2005 [165]Total particulates: Full-shift PBZ samples0.57–59.6910(✕)15(✕)NE10(✕)YES
Respirable dust: Full-shift PBZ samplesND–0.965(✓)5(✓)5(✓)4(✓)NO
Aluminium in total dust: Full-shift PBZ samples0.02–0.9210(✓)15(✓)5(✓)10(✓)NO
Calcium in total dust: Full-shift PBZ samples0.08–15.4110(✕)15(✕)5(✕)10(✕)YES
Iron in total dust: Full-shift PBZ samples0.02–0.965(✓)10(✓)5(✓)5(✓)NO
Magnesium in total dust: Full-shift PBZ samplesND–0.5610(✓)15(✓)NE10(✓)NO
Hardware (zinc casting department), 2005 [167]Xylene: Full-shift PBZ samples0.038–0.080100(✓)100(✓)100(✓)50(✓)NO
Ethyl benzene: Full-shift PBZ samples0.0013–0.015100(✓)100(✓)100(✓)100(✓)NO
n-Butyl acetate: Full-shift PBZ samples0.0057–0.52150(✓)150(✓)150(✓)150(✓)NO
Trimethylbenzene: Full-shift PBZ samples0.004–0.425(✓)NR25(✓)25(✓)NO
Diacetone alcohol: Full-shift PBZ samplesND–0.2050(✓)50(✓)50(✓)50(✓)NO
Propylene glycol monoethyl ether acetate: Full-shift PBZ samples0.003–0.42NRNRNENRUNCLEAR
Magnesium ingot, magnesium recycling and chemical by-products supplier and manufacturer, 2005 [169]Carbon tetrachloride: Full-shift PBZ samplesND–0.182(✓)10(✓)2(✓)1(✓)NO
Hexachlorobenzene: Full-shift PBZ samplesND–0.0069NRNRNENRUNCLEAR
Asphalt plant 1, 2005 [170]Total particulate (diesel particulate): Full-shift PBZ samples0.21–8.48NRNRNENRUNCLEAR
Benzene-soluble fraction: Full-shift PBZ samplesND–0.08NRNRNENRUNCLEAR
Organic carbon: Full-shift PBZ samples0.000064NRNRNRNRUNCLEAR
Elemental carbon: Full-shift PBZ samples0.000005NRNRNRNRUNCLEAR
Heavy metal fabrication operation, 2005 [171]HDI monomer: Full-shift PBZ samples0.000001–0.0000040.2(✓)NR0.005(✓)0.02(✓)NO
NCO monomer: Full-shift PBZ samples0.3–1.90.02(✕)NR0.005(✕)0.02(✕)YES
NCO oligomer: Full-shift PBZ samples0.8–2980.02(✕)NR0.005(✕)0.02(✕)YES
Microwave popcorn plant, 2004 [173]Diacetyl: Full-shift PBZ samplesND–0.004NRNRNE0.02(✓)NO
Total dust: Full-shift PBZ samples0.02–0.310(✓)15(✓)NE10(✓)NO
Respirable dust: Full-shift PBZ samples0.01–0.065(✓)5(✓)5(✓)4(✓)NO
Microwave popcorn production, 2004 [174]Diacetyl: Full-shift PBZ samplesND–1.97NRNR0.005(✕)0.02(✕)YES
Acetoin: Full-shift PBZ samplesND–1.82NRNRNENRUNCLEAR
Corrosive-resistant stainless steel and piping system fabrication facility, 2004 [175]Nickel: Full-shift PBZ samples0.032–0.1560.5(✓)1(✓)0.015(✕)0.5(✓)YES
Chromium: Full-shift PBZ samples0.072–0.360.5(✓)1(✓)0.5(✓)0.5(✓)NO
Manganese: Full-shift PBZ samples0.01–0.345(✓)5(✓)1(✓)0.05(✓)NO
Hexavalent Chromium: Full-shift PBZ samples0.005–0.020.05(✓)0.1(✓)0.005(✓)0.05(✓)NO
Metal parts manufacturing, 2004 [176]Respirable dust (particles not otherwise regulated): Full-shift PBZ samplesND–5.95(✕)5(✕)5(✕)4(✕)YES
Aluminium: Full-shift PBZ samples0.003–0.9810(✓)15(✓)5(✓)10(✓)NO
Titanium: Full-shift PBZ samples0.0067–0.1910(✓)15(✓)LFL10(✓)NO
Yttrium: Full-shift PBZ samplesND–1.141(✕)1(✕)1(✕)1(✕)YES
Vanadium pentoxide: Full-shift PBZ samples0.00042–0.0220.5(✓)0.5(✓)0.05(✓)0.05(✓)NO
Polyethylene and polypropylene plastics complex, 2004 [177]Hexavalent chromium: Full-shift PBZ samplesND–0.390.05(✕)0.1(✕)0.005(✕)0.05(✕)YES
Agri-business enterprise (potato processor), 2004 [180]Noise: Personal noise levels41–87.8 E
75.9–91.6 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Noise: Area noise levels80–105 E85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Microwave popcorn plant, 2003 [182]Diacetyl: Full-shift PBZ samples0.01–1.14NRNR0.005(✕)0.02(✕)YES
Acetoin: Full-shift PBZ samples0.01–1.05NRNRNENRUNCLEAR
Foam cushion manufacturer, 2003 [183]1-bromopropane: Full-shift PBZ samples7–281NRNRNENRUNCLEAR
2-bromopropane: Full-shift PBZ samples0.08–0.68NRNRNENRUNCLEAR
Specialty chemical manufacturer, 2003 [184]3-Amino-5mercapto-1,2,4-triazole: Full-shift PBZ samples0.005–5.6NRNRNENRUNCLEAR
Flumetsulam: Full-shift PBZ samples0.0007–5.8NRNRNENRUNCLEAR
Custom concrete counter tops manufacturer, 2003 [185]Noise: Dosimetry74.6–84.2 E85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Respirable dust: Full-shift PBZ samples0.8–105(✕)5(✕)5(✕)4(✕)YES
Aluminium oil cooler producer, 2003 [186]Aluminium: Full-shift PBZ samples0.017–0.2510(✓)15(✓)5(✓)10(✓)NO
Total particulate: Full-shift PBZ samples0.11–1.310(✓)15(✓)NE10(✓)NO
Trichloroethylene: Full-shift PBZ samples7.1–7.6100(✓)100(✓)25(✓)100(✓)NO
Turkey processing facility, 2003 [187]Soluble chlorine: Full-shift PBZ samples0.0000035–0.00000130.5(✓)1(✓)0.5(✓)0.5(✓)NO
Trichloramine: Full-shift PBZ samplesND–0.00016NRNRNENRUNCLEAR
Flexographic printing operation, 2003 [188]Dimethylaminoethanol: Full-shift PBZ samples0.02–5NRNRNENRUNCLEAR
Dimethylisopropanolamine: Full-shift PBZ samples0.04–2.9NRNRNENRUNCLEAR
Microwave popcorn plant, 2003 [189]Diacetyl: Full-shift PBZ samples0.06–0.64NRNR0.005(✕)0.02(✕)YES
Acetoin: Full-shift PBZ samplesND–0.501NRNRNENRUNCLEAR
Metal valves and steam traps manufacturer, 2003 [190]Toluene: Full-shift PBZ samples0.20–0.3450(✓)200(✓)100(✓)50(✓)NO
Butyl acetate: Full-shift PBZ samples0.34–0.57150(✓)150(✓)150(✓)150(✓)NO
Propylene glycol monoethyl ether acetate: Full-shift PBZ samples0.36–0.58NRNRNRNRUNCLEAR
Cyclohexanone: Full-shift PBZ samples0.59–125(✓)50(✓)25(✓)10(✓)NO
Decane: Full-shift PBZ samples0.32–0.37NRNR0.5(✓)NRNO
Methyl ethyl ketone: Full-shift PBZ samples2.3–4.6200(✓)200(✓)200(✓)200(✓)NO
Metal phosphide-based fumigant manufacturer, 2003 [191]Total dust (particulates not otherwise regulated): Full-shift PBZ samples0.047–0.1810(✓)15(✓)NE10(✓)NO
Aluminium: Full-shift PBZ samples0.01–0.0210(✓)15(✓)5(✓)10(✓)NO
Nickel: Full-shift PBZ samplesND–0.0010.5(✓)1(✓)0.015(✓)0.5(✓)NO
Titanium: Full-shift PBZ samplesND–0.00110(✓)15(✓)NE10(✓)NO
Lithium: Personal breathing zone samplesND–0.0010.025(✓)0.025(✓)0.025(✓)0.02(✓)NO
Flexible packaging and pressure sensitive material manufacturer, 2003 [192]Formaldehyde: Full-shift PBZ samples0.04–0.092(✓)0.75(✓)0.016(✕)2(✓)YES
Acetaldehyde: Full-shift PBZ samples0.02–0.06100(✓)200(✓)LFC20(✓)NO
Microwave popcorn manufacturer, 2003 [194]Diacetyl: Full-shift PBZ samplesND–18NRNR0.005(✕)0.02(✕)YES
Acetoin: Full-shift PBZ samplesND–0.07NRNRNENRUNCLEAR
Valve manufacturing, 2002 [195]Phenol: Full-shift PBZ samplesND–0.085(✓)5(✓)5(✓)2(✓)NO
Ammonia: Full-shift PBZ samplesND–3.725(✓)50(✓)25(✓)25(✓)NO
White spirits: Full-shift PBZ samples1.71–5.41100(✓)500(✓)350(✓)NRNO
Cumene: Full-shift PBZ samplesND–0.0925(✓)50(✓)50(✓)25(✓)NO
Toluene: Full-shift PBZ samples0.02–0.1350(✓)200(✓)100(✓)50(✓)NO
Trimethylbenzene Full-shift PBZ samples0.12–2.225(✓)NR25(✓)25(✓)NO
Titanium and aluminium commercial airplane parts manufacturer, 2002 [196]Metalworking fluid: Full-shift PBZ samplesND–1.84NRNR0.4(✕)NRYES
Electroplated strip steel manufacturer, 2002 [197]Copper: Full-shift PBZ samples0.0002–0.041(✓)1(✓)1(✓)1(✓)NO
Iron: Full-shift PBZ samples0.0009–0.0045(✓)10(✓)5(✓)5(✓)NO
Nickel: Full-shift PBZ samples0.0008–0.10.5(✓)1(✓)0.015(✕)0.5(✓)YES
Zinc: Full-shift PBZ samples0.0004–0.025(✓)5(✓)5(✓)NRNO
2.6-di-tert-butyl-p-cresol (butylated hydroxytoluene): Full-shift PBZ samples0.001–0.004NRNR10(✓)NRNO
Rubber moulded parts, rubber to metal mould bonded bushings, Teflon lined bonded bushings, and rubber compounds manufacturer, 2002 [198]Total particulate: Full-shift PBZ samples0.04–1.7110(✓)15(✓)NE10(✓)NO
Respirable particulate: Full-shift PBZ samples0.175(✓)5(✓)5(✓)4(✓)NO
Air compressor manufacturer, 2002 [199]Total or thoracic metalworking fluid: 8-hour TWA PBZ samples0.10–1.98NRNR0.4(✕)NRYES
Total or thoracic extractable metalworking fluid: 8-hour TWA PBZ samplesND–1.16NRNRNENRUNCLEAR
n-Butyl acetate: Full-shift PBZ samples0.08–1.8150(✓)150(✓)150(✓)150(✓)NO
MIBK: Full-shift PBZ samples0.08–2.250(✓)100(✓)50(✓)50(✓)NO
Xylene: Full-shift PBZ samples0.19–3.1100(✓)100(✓)100(✓)50(✓)NO
Sofa cushion manufacturer, 2002 [200]1-Bromopropane: Full-shift PBZ samples6.3–143NRNRNENRUNCLEAR
2-Bromopropane: Full-shift PBZ samples0.1–1.4NRNRNENRUNCLEAR
Neon tube manufacturing, 2002 [201]Mercury: Full-shift PBZ samples0.030.05(✓)0.1(✓)0.05(✓)0.02(✕)YES
Flexographic printing operation, 2002 [202]Dimethylaminoethanol: Full-shift PBZ samples0.18–5.16NRNRNENRUNCLEAR
Dimethylisopropanolamine: Full-shift PBZ samples0.66–17.08NRNRNENRUNCLEAR
Glass funnel and panel manufacturer, 2002 [203]Heat stress: Area WBGT measurements32.7–39.330 G(✕)NR26.7 G(✕)VariesYES
Automotive brake calipers and drum manufacturer, 2002 [204]Metalworking fluid aerosol: Full-shift PBZ samplesND–0.41NRNR0.4(✕)NRYES
Thoracic particulates: Full-shift PBZ samples0.14–0.69NRNRNENRUNCLEAR
Seat cushion manufacturer, 2002 [206]1-Bromopropane: Full-shift PBZ samples60–381.2NRNRNENRUNCLEAR
2-Bromopropane: Full-shift PBZ samples0.01–0.55NRNRNENRUNCLEAR
Specialty, nonferrous metal-alloy billet producer, 2001 [207]Hexavalent chromium: Full-shift PBZ samplesND–0.000000380.05(✓)0.1(✓)0.005(✓)0.05(✓)NO
Cobalt: Full-shift PBZ samplesND–0.0002760.1(✓)0.1(✓)0.05(✓)0.1(✓)NO
Niobium: Full-shift PBZ samplesND–0.00001NRNRNENRUNCLEAR
Nickel: Full-shift PBZ samplesND–1.3730.5(✕)1(✕)0.015(✕)0.5(✕)YES
Potato products manufacturer, 2001 [208]Total particulate: Full-shift PBZ samples0.038–0.52710(✓)15(✓)NE10(✓)NO
Catalyst manufacturer, 2001 [209]Nickel: Full-shift PBZ samples0.005–16.150.5(✕)1(✕)0.015(✕)0.5(✕)YES
Wire rope products manufacturer, 2001 [210]Asphalt fume (total particulate): Full-shift PBZ samples0.6–3.25(✓)NR5(✓)5(✓)NO
Asphalt fume–benzene-soluble fraction: Full-shift PBZ samples0.2–1.25(✓)NRNR5(✓)NO
Noise: Personal noise dosimetry83–103.2 E
89.6–105.5 F		85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
Instrumentation and component manufacturer, 2001 [211]1-bromopropane: Full-shift PBZ samples0.02–0.63NRNRNENRNO
2-bromopropane: Full-shift PBZ samplesNDNRNRNENRNO
Woodworking operation (Garage interior component production), 2001 [212]Total wood dust particulates: Full-shift PBZ samples0.39–2.6NR15(✓)1(✕)NRYES
Respirable wood dust particulates: Full-shift PBZ samples0.028–1.9NR5(✓)1(✕)NRYES
Shear, scissors and thread manufacturer, 2001 [213]Total or thoracic metalworking fluid: 8-hour PBZ samples0.78–3.95NRNR0.4(✕)NRYES
Total or thoracic extractable metalworking fluid: 8-hour PBZ samples0.66–3.78NRNRNENRUNCLEAR
Nonwoven and specialty fibres manufacturer, 2001 [214]Total dust: Full-shift PBZ samples0.033–0.09910(✓)15(✓)NE10(✓)NO
Fibres: Full-shift PBZ samples0.008–0.022NR15(✓)3^(✓)NRNO
Sulphuric acid mist: Personal breathing zone samplesND–0.0871(✓)1(✓)1(✓)0.05(✕)NO
Portland cement company, 2001 [215]Total dust: Full-shift PBZ samples0.127–3.8010(✓)15(✓)NE10(✓)NO
Aircraft support centre, 2001 [216]Total dust (particulate not otherwise classified): Full-shift PBZ samples0.09–0.3410(✓)15(✓)NE10(✓)NO
Dipropylene glycol butyl ether: Full-shift PBZ samples0.056–0.40NRNRNRNRUNCLEAR
Tripropylene glycol methyl ether: Full-shift PBZ samples0.13–0.67NRNRNRNRUNCLEAR
Electrical parts, starters/generators, generator control units, fans, hydraulics, wheels, and breaks assembly shops, 2001 [217]Toluene: Full-shift PBZ samples1.09–2.0750(✓)200(✓)100(✓)50(✓)NO
HDI-based polyisocyanate: Full-shift PBZ samplesND–1.560.2(✕)NR0.005(✕)0.02(✕)YES
Microwave popcorn production, 2001 [218]Diacetyl: Full-shift PBZ samples0.19–86.9NRNR0.005(✕)0.02(✕)YES
Acetoin: Full-shift PBZ samples0.05–11.7NRNRNENRUNCLEAR
Flock production, 2000 [219]Respirable dust: Full-shift PBZ samples0.02–0.085(✓)5(✓)5(✓)4(✓)NO
Fibre dust: Full-shift PBZ samples0.1–0.2 ^NR15(✓)3^(✓)NRNO
Flat, clear glass producer, 2000 [221]Respirable dust: Full-shift PBZ samples0.31–4.865(✓)5(✓)5(✓)4(✕)YES
Crystalline silica dust: Full-shift PBZ samples0.09–0.350.04(✕)0.05(✕)0.05(✕)0.1(✕)YES
Total dust: Full-shift PBZ samples0.25–0.8510(✓)15(✓)NE10(✓)NO
Total dust (adipic acid concentration): Full-shift PBZ samples0.02–0.14NRNRNENRUNCLEAR
Automotive foam cushion manufacturing, 2000 [222]2,4-TDI: Full-shift PBZ samplesND–0.0000040.2(✓)0.02(✓)LFL(✓)0.02(✓)NO
2,6-TDI: Full-shift PBZ samplesND–0.0000040.2(✓)0.02(✓)LFL(✓)0.02(✓)NO
Flocking facility, 2000 [223]Respirable dust: Full-shift PBZ samples0.04–0.0625(✓)5(✓)5(✓)4(✓)YES
Respirable fibres: Full-shift PBZ samples0.04–0.11NR15(✓)3^(✓)NRNO
Aircraft engine facility, 2000 [224]4,4-methylenedianiline: Full-shift PBZ samplesND–0.000420.1(✓)0.010(✓)LFL(✓)0.01(✓)NO
Methanol: Full-shift PBZ samples3.6–22200(✓)200(✓)200(✓)200(✓)NO
Military aircraft manufacturer, 2000 [225]4,4-methylenedianiline: Full-shift PBZ samplesND–0.0013640.1(✓)0.010(✓)LFL(✓)0.01(✓)NO
MDI-based polyisocyanate: Full-shift PBZ samplesND–0.001080.2(✓)0.02(✓)0.005(✓)0.02(✓)NO
HDI: Full-shift PBZ samples0.0000014–0.00000190.2(✓)NR0.005(✓)0.02(✓)NO
HDI-based polyisocyanate: Full-shift PBZ samplesND–0.00020.2(✓)NR0.005(✓)0.02(✓)NO
Backhoe, crawler dozers and rough terrain forklifts manufacturer, 2000 [226]Aluminium metal: Full-shift PBZ samplesND–0.01310(✓)15(✓)5(✓)10(✓)NO
Iron metal: Full-shift PBZ samples0.06–6.85(✕)10(✓)5(✕)5(✕)YES
Manganese metal: Full-shift PBZ samples0.02–0.815(✓)5(✓)1(✓)0.2(✕)YES
Nickel metal: Full-shift PBZ samplesND–0.0040.5(✓)1(✓)0.015(✓)0.1(✓)NO
Total or thoracic metalworking fluid: Full-shift PBZ samplesND–7.92NRNR0.4(✕)NRYES
Total or thoracic extractable metalworking fluid: Full-shift PBZ samplesND–1.03NRNRNENRUNCLEAR
Automobile transmission plant, 2000 [228]Total or thoracic metalworking fluid particulate: Full-shift PBZ samples0.12–0.51NRNR0.4(✕)NRYES
Total or thoracic particulate: Full-shift PBZ samples0.04–0.74NRNRNENRUNCLEAR
Aircraft support centre, 2000 [229]Particulates respirable fraction: Full-shift PBZ samples0.05–0.595(✓)5(✓)5(✓)4(✓)NO
Particulates inhalable fraction: Full-shift PBZ samples0.13–4.0110(✓)15(✓)NE10(✓)NO
Iron inhalable fraction: Full-shift PBZ samplesND–0.1585(✓)10(✓)5(✓)5(✓)NO
Precious metal recycling facility, 2000 [231]Silver: Full-shift PBZ samples0.140.01(✕)0.01(✕)0.01(✕)0.01(✕)YES
Hydraulic commercial and industrial elevator production, 2000 [233]Total welding fume: Full-shift PBZ samples5.44–6.1NRNR5(✕)NRYES
Manganese fume: Full-shift PBZ samples0.23–0.311(✓)1(✓)1(✓)0.2(✕)YES
Wire harness and heating, ventilation, and air conditioning components assembly shop, 2000 [234]Lead: Full-shift PBZ samplesND–0.0000040.15(✓)0.050(✓)0.050(✓)0.15(✓)NO
Tin: Full-shift PBZ samplesND–0.550.1(✕)0.002(✕)0.002(✕)0.1(✕)YES
Noise: noise dosimetry results78.9–90.2 F85(✕)85(✕)
90(✕)		85(✕)80(✕)
87(✕)		YES
A Exposure limit for noise in dBA unless indicated otherwise; milligram per cubic meter (mg/m3) for particulates; parts per million (ppm) for solvents vapours and gases, and meters per second squared for vibration | B Not regulated | C Non detect | D Not established| ✓ Complies with health and safety standard| ✕ Does not comply with health and safety standard| E Values derived using OSHA instrument settings| F Values derived using NIOSH instrument settings | G Limit is for acclimatised, healthy, physically fit men engaged in moderate continuous physical activity, H Lowest feasible level.

4. Discussion

Table 1 and Table 2 depicts evidentiary and interpretive proof of worker, employer, government and labour union concern relating to workplace exposure, manifested in formal requests for investigations. The initiators of the exposure investigations covered in this review paper emanated from stakeholders from an array of sub-industries within the manufacturing sector as well as government, and related to both chemical and physical hazard types. The volume of investigations triggered by complaints seem minimal to moderate, a view also shared by Spieler [6]. This compared to the number of establishments within the manufacturing sector totalling some 358,000, as well as the yearly occupational disease (OD) cases ranging between 258,000 and 329,000, reported between 2015 and 2019 within the U.S. manufacturing sector alone [236,237]. These statistics are suggestive of muted concerns of exposure as well as insufficient risk perception by some stakeholders within the sector. The authors of this review paper however submit that the relevant institutions are proactively attending to received exposure concerns in an efficient manner, under persistent staffing challenges.
The moderate volume of requested investigations may also be an acceptance of a declining influence of governmental institutions in OHS matters [238]. Administratively, the moderate number of complaints are so in part, due to the screening process leading to their dismissal or withdrawal on grounds of lack of cooperation and jurisdiction and late filing [6]. Smith [239] also argued that the small volume of worker complaints directed for investigation are also in part to the alleged perception of resource consumption with minimal impact.
In support of worker-initiated requests for investigations, Smith [239] expounds that workers should be encouraged to continuously lodge complaints as they uncover other OHS violations during investigations. Due to the legal responsibilisation of worker duties, workers therefore have an unquestionable moral duty of protecting themselves against risks and hazards by voicing concerns as they arise [240]. Risk perception however, plays an important role on how workers perceive and manage these risks and hazards [241]. Risk perception itself is predicted using models, such as psychometric models and cultural theory of risk perception, with low correlation to worker perception [241]. Given the risk associated with hazard exposure in an occupational setting, it is thus comprehensible that the working conditions encountered at the workplace should be of great concern for workers and other stakeholders [242]. Migrant workers, blue-collar workers, samplers, production workers, machinists, and lower level supervisory personnel continue to be the most highly exposed job categories to identified occupational health hazards [236,243,244]. With regard to risk perception related to noise, employees in workplaces with excessive noise levels have high risk perception compared to those in workplaces with noise exposure levels around the exposure limits, reported Bockstael, De Bruyne [245].
From a global point of view, there is a need for the continual up keeping of occupational hygiene exposure data sets for some of the identified hazards as well as better OHS regulatory policies. In the case of exposure data sets, these become valuable during occupational exposure assessment initiatives and indicates that workers are indeed exposed [246]. With regard to the nagging concern of noise exposure as an example, noise data bases such as that available from the OSHA-administered Integrated Management Information System [247] and the NIOSH noise measurement database [248], can prove useful during prioritisation of targeted exposure interventions. This still remains relevant today as noise exposure and hearing loss are still contemporary within the cycles of occupational hygienists who are required to identify, evaluate and control noise; whilst employers are expected to provide resources for control; whereas policymakers, the other important stakeholders, have the mandatory responsibilities to regulate exposure [249]. With regard to specific OHS laws related to noise, the measured noise levels above the exposure limits indicated in Table 2 highlights their weaknesses. As an example, current noise regulations, worldwide, and in general, allow for hearing protection device (HPD) use as a default control within hearing conservation programs which is proving to be problematic as some 34% noise-exposed workers from the U.S. have reported non-use thereof. Instead of using HPDs as a short-term control measure, workplaces have tended to neglect the implementation of feasible engineering noise controls which reduces noise at the source [250]. Untreated noise implies that resultant exposure will remain prevalent well into the future.
This therefore implies that companies should thus attach great value in collecting exposure data as part of demonstrating legal compliance, for instituting and checking the efficacy of implemented preventive measures [251]. Regrettably, in the U.S., large corporations have tended to reduce workplace exposure sources commensurate with historical changes in regulated exposure limits [252], than in response to worker concerns. On the other hand, no publicly available occupational exposure measurements are available in SA, though companies are required by OHS laws to report exposure data to regulatory authorities.

4.1. Concern and Perception of Hazards and Risks by Workers

Workers’ risk perception leading to formal complaints to responsible government institutions relating to occupational health hazard exposure is shown in Table 1 and Table 2. In formalising the complaints, workers merely exercised their legal rights afforded within OHS laws [1,2,3]. Although workers may know the unacceptability of unsafe working conditions, they often lack knowledge on whom to consult to remedy infractions, consequently leading to acceptance of unsafe conditions as part of daily operations [253]. To highlight the importance of correct risk perception, Robinson and Smallman [254] posit that workplaces whose workers are encouraged and empowered to actively influence OHS tend to conduct work in a safe and healthier manner.
Workers perceive and interpret hazards differently based on gender, duration of employment and prevailing safety climate. A hazard may be perceived as trivial and hidden by one worker, whilst the same hazard is perceived as obvious and emerging by another [255,256]. With regard to gender differences, men have lower risk perceptions to health hazards compared to woman as a result of risk familiarity [257,258,259]. Whereas, the high risk perception in women is linked to their social roles of being nurtures and care providers which is generally related to health and safety issues [259]. Men consequently have high OD burden due to their low risk perception notwithstanding the skewed employment demographics within the manufacturing sector. Leoni [260] also reported that risk perception correlates are higher in single parents, elderly workers and workers with completed tertiary education. Given this view and the uncertainty associated with this perception, the relationship between gender and risk perception still requires further studies [259].
The evident disparity in risk perception also extends to new workers into a job compared to experienced workers in the same job [242,255,260,261]. To increase the success of workplace health interventions, Robinson, and Smallman [262] suggested that employers and regulatory authorities should raise the health and safety awareness levels of new entrants and younger workers. Employment status, such as contract work, economic, and remuneration factors, and inadequate regulatory controls, are also identified as playing important roles in worker risk perception [263].
Arezes and Miguel [264], Fleming, Flin [265], and Garcia, Boix [261] reported in their respective studies that prevailing safety climate within an enterprise greatly influences workers’ behaviour towards identified hazards whilst at work. Enterprise factors such as extended shift cycles, employees’ characteristics, attitude and job requirements are also contributory to worker risk perception [266]. Individual risk perception and the value of self-preservation is also an outcome of safety climate playing an indirect; yet predictive role in the use of protective equipment [264]. In the same breath, Frenkel, Priest [242], in their study reporting worker perception to occupational health and safety, reported that majority of workers in their sample were able to identify one or more occupational health hazards, such as noise, extremes of indoor temperature, fumes, dust and dangerous chemicals in their workplaces. This highlighting an enterprise with an effective risk management strategy was found to be intriguing in that it empowered all workers to correctly identify hazards in an aligned manner [255]. Despite this noted success, many workers however still lack in skills of identifying effective hazard preventive strategies which compounds the problem [267]. There is also a credible claim that the workers’ perception to exposure and risk is largely influenced by disease latency, as workers tend to be more concerned about exposure giving rise to immediate, medium-term effects compared to chronic health effects such as cancer and noise-induced hearing loss (NIHL) [257]. Of the identified health hazards in this review, noise is by far the most perceived occupational health hazard by workers as a danger to their health [257,258], this in spite of market availability of effective noise control measures and workplace noise regulations [257]. Frenkel, Priest [242], however, contended that newer employees into a job do not appear to perceive noise exposure as a health hazard indicating underestimation of prevailing risks. There however remains no definite and contemporary literature indicating that workers have accurate risk perceptions [265]. Therefore caution should be exercised when attempting to describe worker risk perception as segments of those workers with high risk perceptions are more likely predisposed to other health issues as burnout, anxiety, and depression; and are also the most dissatisfied with their jobs [268].
Although workers are empowered by health and safety laws to receive information related to workplace hazards [269], the information received is not always adequate. Workers’ right to know and to be informed about these hazards has also not entirely eliminated ODs from the workplace [270]. Rikhotso, Harmse [271] found that information provided to workers enrolled in a hearing conservation programme of a chemical manufacturing company was inadequate. Workers who are inadequately informed about health hazards have higher prevalence of ODs [242]. Contemporary health and safety laws assign workers greater responsibilities that make them accountable, liable, and sanctionable as opposed to the old system where they were seen as victims and offenders. This responsibilisation strategy can however cloud employer and worker health and safety responsibilities if not well understood [272].
The law also affords workers the right to refuse dangerous work, however, the action of refusing dangerous work will not in itself result in the improvement of workplace conditions [273]. The right to refuse dangerous work is reportedly the most exercised by union-affiliated workers [267]. Kerr [274] argued that workers are hindered in exercising their rights as they cannot force the employer to comply with health and safety laws as the enforcement duty has been legally placed on health and safety inspectors [273,274]. Undoubtedly, the guaranteeing of workers’ right to a hazard-free workplace continues to be an issue of central debate within the social justice context [275].

4.2. Employer Concerns and Perception of Hazards and Risks

Employers carry the unquestionable bulk of the responsibility of providing healthy and safe workplaces [275,276], and employ the services of trained specialists to fulfil and uphold this legal responsibility [276]. This ultimate employer responsibility stems from the fact they created the hazards and risks, and also decide how work is performed [276,277]. In that regard, workplaces with identified occupational health hazards erodes worker job satisfaction [242], erodes profit, reduces investment opportunities, as well as increases staff turnover and absenteeism [278]. In self-regulatory regimes, the identified hazards imply that employers have in large not fulfilled their legally imposed duty of providing hazard and risk free workplaces [279], notwithstanding the risk acceptability principles.
For the purpose of clarity regarding this matter, employer concern to occupational hazards and risks are also shown in Table 1 and Table 2. That employers initiated the highest number of exposure investigations compared to employees and unions has an unsurprising historical legal background. To this effect, initial OHS laws gave employers the ultimate responsibility of providing and maintaining the health of employees until recently, whereby employees are also charged with certain duties in so far as preserving health at work is concerned. From another point of view, employers also have a historic advantage of having institutional knowledge and better awareness with regard to health and safety arrangements required for legal compliance with OHS laws, prompting them to request exposure investigations [10]. Additionally, employers are also coerced into requesting exposure investigations by the natural deterrence accompanying pending regulatory inspections as demonstration of commitment to attaining legal compliance with OHS laws [280], and a shift in regulatory approaches incorporating OHS management systems as part of legal compliance [281].
Occupational hygienists in particular, play a proactive role in influencing risk perception by employers and subsequent establishment of occupational health programmes [276]. Bian and Keller [282] stated that employers’ risk perception is also influenced by a country’s culture. To improve the overall worker behaviour and attitude toward interventions intended for health and safety, visible management and commitment is required [261]. Concurrently, to show commitment to risk management, employers have included as a key governance theme the continuous identification, assessment and management of risks [283]. Nonetheless, employers are critiqued for not leveraging the participatory approach advocated by OHS laws by promoting the role of Health and Safety Representatives in the decision-making process, with the aim of encouraging the participation of all workers in workplace risk reduction efforts [284]. Where risks from hazards have resulted in adverse impact is indicative of a company’s failure to use their risk prevention knowledge [285]. Therefore, responsible and committed employers should stay abreast of advances in OHS science and new technologies intended for hazard assessment and control to improve their decision-making in the related field [276]. In that regard, to increase the risk perception of employers within enterprises, an introduction of a penal and reward system can be implemented to continuously improve risk reduction efforts [286].

4.3. Worker Representative Concerns and View on Risks and Hazards

Other legally recognised stakeholders with vested interest in occupational hazards include labour unions and Health and Safety Representatives, acting as worker voices [1,2,4]. In SA and the UK, relevant OHS legislation affords workers a reporting platform upon which issues such as exposure to occupational hazards can be progressively reported, inclusive of the Health and Safety Representative, Health and Safety Committee, employer and the inspector [2,4]. As shown in Table 1 and Table 2, U.S. labour union-initiated health hazard evaluations conducted by NIOSH also contributed a moderate share of exposure investigations to occupational hazards compared to those initiated by workers and employers, similar to employer and worker-initiated workplace exposure investigations. A contributory factor to the moderate union-initiated exposure investigations may be due to employers’ reported strategy of screening-out unionised and pro-union workers during job interviews, contends Beaumont and Townley [287]. Additionally, some workplaces remain non-unionised, thus minimising labour union involvement in initiating exposure investigations [254]. Workplace unionisation in itself, a consequence of protest by workers in response to prevailing occupational hazards at different workplaces, has been criticised for accompanying long work shifts and faster work pace, factors linked to an increase in ODs, argued Fairris [288]. According to Robinson and Smallman [254], union participation in workplace health and safety issues, however minimal, should be encouraged. From a legal view point, Segall [289] argued that unions are however not legally liable for failures in the control of occupational hazards as well as enforcing related health and safety standards. The control of occupational hazards lies with employers, whereas the enforcement of health and safety standards is a legal duty of regulatory inspectorates [289,290].
In so far as labour union involvement in workplace health and safety, Jacques [290] posited that labour unions are rightly involved as workers affected by ill health resulting from exposure to occupational hazards are from their membership. In that respect, labour unions deserve recognition for efforts made on health and safety matters. A case in point of labour union success in worker health and safety has been their instrumental role in the enactment of workplace health and safety legislation requiring institution of basic controls measures for prevailing occupational hazards, affirmed [290]. In response of failing OHS programmes, unions have proactively initiated alternative health and safety initiatives such as the Triangle of Prevention (TOP), as an example, allowing for an engagement between a union and company management to track the number of identified hazards as well as their mitigation [291]. Whilst not inclusive, McQuiston, Cable [291] asserted that TOP had the potential to strengthen the effectiveness of existing OHS programmes. Another union-initiated health and safety intervention with reported success included a worker training programme that enrolled union members. Post-training, a decline in OHS incidence metrics, credited to the success of the initiative, were noted [292].
In criticism directed towards labour unions, Brown [238] argued that health and safety concerns brought to the union’s attention by the rank and file members were not prioritised. Additionally, Robinson and Smallman [254] also argued that worker rights in regard participation in OHS initiatives to improve the health and safety at the workplace are still denied at some workplaces, regardless of union representation. More than ever, unions should attend to workplace realities experienced by workers and action such problems into demands for improving health and safety, argues Vogel [293]. In spite of prevailing active labour union involvement in OHS issues, conclusively, the success of worker health and safety strategies require joint cooperation between employers/workers and employers/labour unions. This stakeholder participation is a critical factor in regulatory endeavours of lowering ODs and injuries [254,294,295].

4.4. Concern of Exposure and Inadequacy of Workplace Exposure Limits

Table 2 also shows a generic comparison of measured exposure levels against exposure limits from SA, OSHA, HSE, and NIOSH. Comparison of the measured exposure levels shown in Table 2 enables occupational hygienists and associated professions to make risk-based decisions on the need for exposure mitigation [296]. In the absence of an international harmonisation on these limits, differences in compliance outcomes were noted in some instances for the same exposure value. In a case of chemical hazards, the extent of exposure is underestimated by both employers and workers due to lack of awareness of chemical names and their toxic effects [297]. In making determinations relating to compliance with health and safety standard regulated via the Occupational Safety and Health Act 1970, NIOSH is required to forward copies of outcomes to the Department of Labor (OSHA), regulatory inspectorate for enforcement action [21].
These mandatory exposure limits have been developed to protect workers and to provide for workplace regulation of the various occupational hazards [298,299,300]. These exposure limits create an equity relief whereby workers are entitled to work in a safe and healthy workplace without having to choose between health and safety or their jobs [273]. The stringency of exposure limits currently in use however reflects industry and labour interests [301]. Further, these exposure limits do not reflect individual workers’ preferences [302], whilst also not accounting for combined effects which may underestimate risks [303]. Consequently, employers only need to demonstrate that exposure levels are below the limits and thereafter are not mandated to do further risk control [303], to the detriment of workers. Therefore, to increase compliance, exposure limits should be sufficiently protective to workers and fair to employers, argued Vincent [300]. A further concern for Occupational hygienists is the exponential development of new chemicals, some highlighted in Table 2, which continue to outpace the establishment of exposure limits and air sampling and analytical methods [27].

5. Limitations

Due to differences in the OHS legislative arrangements and reporting methods between that from U.S., SA, and the UK, no comparisons could be deduced about aspects discussed in this paper. The discussions and conclusions made in this review paper are reflective of the state of OHS affairs in the U.S. on the relevant topics. The inference of the volume of conducted HHE investigations was solely based on numerical counts in the absence of records indicating the number of requested investigations over the covered period. The authors also acknowledge the intensive and time-consuming nature of conducting occupational hygiene measurements, investigations and actual reporting, which further complicates the issue. The statement on the justification of complaints was solely based on exposure data derived through occupational hygiene measurement techniques, and excluded biological exposure indices and questionnaire as complementary data collection tools which also used during these investigations, due to their inherent complexities. Additionally, statements on compliance to exposure limits considered the worst case scenario (highest quantified value) for each quantified occupational hazard. The discussion and conclusions made in this review paper are made against these methodological constraints.

6. Implications of Study Findings on the Role of Occupational Hygienists in Shaping Risk Perceptions

The role of OHS specialists, including occupational hygienists, remains little understood in industry. Occupational hygiene, as a specialised profession, is not limited to workplace monitoring and report writing, but is legally empowered to propose effective preventive measures for the advancement of worker health [304]. The effectiveness of OHS specialists such as occupational hygienists is currently questionable in view of the unacceptable leading OD metrics worldwide [305]. Occupational hygienists in particular, should reclaim and shape the professional discourse with regard to hazard and risk management processes in industry, which has a bearing on how occupational health hazards are perceived and eventually treated. In support of this view, occupational hygienists use scientific tools for characterising risks, which incorporate variability in exposure estimates and the dose-response curve scenarios [296]. In SA as an example, OHS regulations remain ambiguous with regard to specific OHS professions empowered to conduct inferred hazard identification and risk assessments [306,307,308]. This often creates legal and operational tension between OHS professionals stemming from divergences in descriptors used during risk ranking, consequence definitions, as well as impact rankings amongst others, when identified risks and hazards are being considered for treatment prioritization. Additionally, occupational hygienists are professionally trained and capable of recognizing and explaining mitigating factors and for determining true risks [27]. Due to their delayed health impacts in the main, occupational health hazards are often overlooked for treatment to occupational safety hazards. Conclusively, risk perception by different stakeholders is an important factor which should be considered amidst the ongoing unabated prevalence of ODs from industry.

7. Conclusions

The synthesised literature covering two decades from the year 2000 indicated that employers, workers, and unions, combined at 86%, were the main initiators of conducted exposure investigations. These stakeholders initiated the exposure investigations through the discharge of legal duties afforded by prevailing occupational health and safety laws, which promotes active participation in the management of issues of concern. The investigated exposure concerns related to both chemical and physical hazard types, for which exposure limits currently exist in the main, and all quantifiable through occupational hygiene techniques. The quantification of prevailing exposure levels to these occupational health hazards forms the basis for making judgements on the extent of workplace exposure and justification of exposure concerns. In spite of prevailing exposure limits and current legal arrangements of exposure investigations workers are still negatively impacted by workplace exposure from identified occupational health hazards. The implementation of preventive measures for protection against hazards is however influenced by risk perception and concern among workers, employers and national labour unions, reflected as complaints forwarded to relevant government institutions. Workers with a lack of concern to risks and hazards will not seek or pressure the employer to implement remedial actions, report the infraction to regulatory inspectorates for further investigation nor adequately use and follow provided protective measures. To promote a culture of prevention at the workplace, changes in behaviour and attitudes of workers towards hazards is needed [309]. Similarly, employers with inadequate risk perception to hazards will not be compelled to initiate risk reduction actions. In the case of workers, high risk perception is central to their cause and often leads to the detection and solution-seeking initiatives for identified health problems [310]. Workplace studies reporting noncompliance to hazards such as noise, thermal stresses, vibration, electromagnetic fields, ionizing radiation, chemical substances, and dusts should spring labour inspectorates into intensive enforcement activities [258]. Exposure investigations conducted by NIOSH in the U.S., as shown in Table 1 and Table 2, confirm the presence in the workplace, especially the manufacturing sector of a myriad of occupational health hazards. These investigations, initiated by various stakeholders, have had a positive effect in inducing workplaces to abate exposure. However, abatement efforts with regard to noise in cited literature leans towards implementation of fulltime hearing conservation programs to engineering noise controls. This implies that noise exposure in the manufacturing industry will consistently be a nagging occupational health concern. Stakeholders initiating investigations, consequently leading to exposure abatement, are adjudged to have ideal hazard and risk perception. However the number of the complaints available in the reviewed literature seems minimal compared to the multitude of workplaces and occupational health stressors as well as occupational disease statistics, worldwide. Conclusively, there needs to be an improvement in the hazard and risk perception and appraisal of occupational hazards amongst different stakeholder at work if safe and healthy workplaces are to be attained.
That employees continue to be exposed to exposure levels above exposure limits amidst technological advancements in manufacturing processes highlights the need for renewed calls of making institution of occupational hygiene programs mandatory for all workplaces. This review paper also highlighted the continuing importance of the contemporary need and importance of occupational hygiene exposure measurements as a basis for informing risk and hazard perception amongst concerned stakeholders.
Further studies incorporating activities performed by labour inspectorates to those discussed in this current study will shed more light into the subject matter highlighted hereunder.

Author Contributions

O.R. conceptualised the study, conducted the literature study, drafted, and edited the manuscript. T.J.M. and D.M.M. reviewed the technical content and layout of the manuscript. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Institutional Review Board Statement

Not applicable.

Informed Consent Statement

Not applicable.

Data Availability Statement

Data supporting reported results can be found at https://www2a.cdc.gov/hhe/search.asp (accessed on 7 May 2021).

Acknowledgments

This paper is the outcome of a Doctoral Degree in Environmental Health project, registered with the Tshwane University of Technology, South Africa, as part of a national initiative for training academics, managed by the National Department of Higher Education and Training. The primary researcher was an nGAP funded student. No limitations were placed on the study. The primary author acknowledges participants of the 2020 scientific writing retreat hosted by the Human Sciences Research Council (HSRC) for comments made on the initial draft.

Conflicts of Interest

The authors declare no conflict of interest.

Ethical Statement

The results presented in this paper form part of a broader study for which ethical clearance was obtained from the Tshwane University of Technology (TUT) Ethics Committee: FCRE 2020/10/015 (FCPS 02) (SCI).

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  29. National Institute for Occupational Safety and Health. Evaluation of Exposures at a Coffee Roasting, Flavoring, and Packaging Facility; Report No.: HHE, 2018-0134-3373; Fortner, A.R., Beaty, M.C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2020.
  30. National Institute for Occupational Safety and Health. Evaluation of Metals Exposure in an Architectural Metal Fabrication Workshop; Report No.: HHE, 2019-0215-3371; Methner, M.M., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2020.
  31. National Institute for Occupational Safety and Health. Evaluation of Exposure and Respiratory Health at a Coffee Roasting and Packaging Facility; Report No.: HHE, 2016-0164-3341; Harvey, R.R., Blackley, B.H., Martin, S.B., Jr., Stanton, M.L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2019.
  32. National Institute for Occupational Safety and Health. Evaluation of Exposure to Metals and Flame Retardants at an Electronics Recycling Company; Report No.: HHE, 2017-0013-3356; Ramsey, J.G., Grimes, G.R., Beaucham, C.C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2019.
  33. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Roasting and Packaging Facility and Two Off-Site Retail Cafes; Report No.: HHE, 2016-0109-3343; McClelland, T., Boylstein, R.J., Martin, S.B., Jr., Beaty, M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2019.
  34. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Rubber Manufacturing Facility; Report No.: HHE, 2016-0227-3364; Tomasi, S.E., Park, J.H., Nett, R.J., Martin, S.B., Jr., Bailey, R.L., Cox-Ganser, J.M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2019.
  35. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health Concerns in a Paper Converting Equipment Manufacturing Facility; Report No.: HHE, 2012-0055-3337; Stanton, M.L., Nett, R.J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2019.
  36. National Institute for Occupational Safety and Health. Evaluation of Exposures at a Coffee Roasting, Flavoring, and Packaging Facility; Report No.: HHE, 2018-0071-3342; Blackley, B.H., Fortner, A.R., Duling, M.G., Beaty, M.C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2019.
  37. National Institute for Occupational Safety and Health. Evaluation of Laser Coding Particulate Composition, Health Effects, and Safety Climate at a Brewery; Report No.: HHE, 2017-0072-3347; Broadwater, K., Grimes, G.R., Wiegand, D.M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2019.
  38. National Institute for Occupational Safety and Health. Evaluation of Metal and Noise Exposures at an Aircraft Powerplant Parts Manufacturer; Report No.: HHE, 2018-0001-3349; Feldmann, K.D., Jackson, D.A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2019.
  39. National Institute for Occupational Safety and Health. Evaluation of Noise Exposures at a Precast Concrete Manufacturer; Report No.: HHE, 2015-0133-3339; Li, J.F., Brueck, S.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2019.
  40. National Institute for Occupational Safety and Health. Evaluation of Punch and Pull Forces and Musculoskeletal Symptoms among Employees at an Automotive Manufacturer; Report No.: HHE, 2019-0004-3363; Ramsey, J., Hatcher, S., Lowe, B., Hayden, M., Salar-Barim, M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2019.
  41. National Institute for Occupational Safety and Health. Workplace Exposures at a Ceramic Tile Manufacturer; Report No.: HHE, 2018-0163-3344; Burr, G., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2019.
  42. National Institute for Occupational Safety and Health. Evaluation of Chemical Exposures during Optical Media Production; Report No.: HHE, 2017-0078-3323; Grant, M.P., Musolin, K., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  43. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Roasting and Flavoring Facility; Report No.: HHE, 2017-0020-3316; Fechter-Leggett, E.D., Johnson, A.R., Martin, S.B., Jr., Grant, M.P., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  44. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Roasting and Packaging Facility; Report No.: HHE, 2016-0080-3324; Fechter-Leggett, E.D., Duling, M.G., Johnson, A.R., Boylstein, R., Beaty, M.C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  45. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Roasting and Packaging Facility and Associated Café; Report No.: HHE, 2016-0067-3313; Martin, S.B., Jr., LeBouf, R.F., Stanton, M.L., Bailey, R.L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  46. National Institute for Occupational Safety and Health. Evaluation of Exposures in a Steel Coil Pickling Plant; Report No.: HHE, 2017-0022-3311; Li, J.F., de Perio, M.A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  47. National Institute for Occupational Safety and Health. Evaluation of Forklift Operators’ risk of Musculoskeletal Disorders at two Manufacturing Plants; Report No.: HHE, 2012-0182-0208-3300; Lu, M.-L., Werren, D.M., Ramsey, J.G., Brueck, S.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  48. National Institute for Occupational Safety and Health. Evaluation of Health Symptoms and Exposures among Employees at a Flooring Manufacturing Plant; Report No.: HHE 2016-0126-3301; Chiu, S., Li, J.F., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  49. National Institute for Occupational Safety and Health. Evaluation of Lead Exposures at a Bullet Manufacturer; Report No.: HHE, 2017-0146-3310; Jackson, D.A., Burr, G.A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  50. National Institute for Occupational Safety and Health. Evaluation of Metalworking Fluid Exposure, Dermatitis, Respiratory Symptoms, and Psychological Factors in an Engine Machining Plant; Report No.: HHE, 2015-0070-3304; Beaucham, C., Tapp, L., Wiegand, D., Couch, J., Mueller, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  51. National Institute for Occupational Safety and Health. Evaluation of Nonproduction Area Air and Surface Lead Levels, Employee Blood Lead Levels, and Psychosocial Factors at a Battery Manufacturing Plant; Report No.: HHE, 2013-0226-3314; Harney, J.M., Musolin, K., Wiegand, D., Mueller, C., Henn, S., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  52. National Institute for Occupational Safety and Health. Evaluation of Odors in a Pet care Product Manufacturing Office; Report No.: HHE, 2015-0085-3321; Methner, M.M., Gibbins, J.D., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  53. National Institute for Occupational Safety and Health. Exposures and Respiratory Health at a Coffee Roasting and Packaging Facility; Report No.: HHE, 2016-0141-3329; Boylstein, R., McClelland, T., White, S., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  54. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Roasting, Flavoring, and Packaging Facility; Report No.: HHE, 2017-0054-3327; Hawley, B., Reynolds, L.E., Harvey, R.R., Martin, S.B., Jr., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  55. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at Two Coffee Roasting and Packgaing Facilities; Report No.: HHE, 2016-0006-3309; Duling, M.G., Harvey, R.R., Stanton, M.L., Lawrence, R.B., McClelland, T.L., Nett, R.J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  56. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Roasting and Packaging Facility; Report No.: HHE 2016-0144-3305; Harvey, R.R., Hawley, B., Martin, S.B., Jr., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  57. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Roasting and Packaging Facility; Report No.:, HHE-2016-0005-3303; Hawley, B., Reynolds, L., Nett, R.J., Martin, S.B., Jr., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  58. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Roasting and Packaging Facility; Report No.:, HHE-2016-0012-3302; Stanton, M.L., Martin, S.B., Jr., Nett, R.J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2018.
  59. National Institute for Occupational Safety and Health. Evaluation of 3-D Printer Emissions and Personal Exposures at a Manufacturing Workplace; Report No.: Report No.: HHE, 2017-0059-3291; Stefaniak, A.B., Hammond, D.R., Johnson, A.R., Knepp, A.K., LeBouf, R.F., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2017.
  60. National Institute for Occupational Safety and Health. Evaluation of Cadmium Exposures at an Aircraft Equipment Depot; Report No.: HHE, 2015-0019-3273; Fieldmann, K.D., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2017.
  61. National Institute for Occupational Safety and Health. Evaluation of Employee Exposures at a Plastic Bag Sealing Plant; Report No.: HHE, 2016-0145-3292; Li, J.F., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2017.
  62. National Institute for Occupational Safety and Health. Evaluation of Exposure to Crystalline Silica, Welding Fume, and Isocynates during Water Heater Manufacturing; Report No.: HHE, 2015-0076-3282; Methner, M.M., Page, E.H., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2017.
  63. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Roasting and Packaging Facility; Report No.: HHE, 2015-0082-3287; LeBouf, R.F., Martin, S.B., Jr., Mugford, C., Stanton, M.L., Bailey, R.L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2017.
  64. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Roasting and Packaging Facility and Attached Café; Report No.: HHE, 2016-0003-3299; LeBouf, R.F., Martin, S.B., Jr., Stanton, M.L., Mugford, C., Bailey, R.L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2017.
  65. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Processing Facility; Report No.: HHE, 2015-0147-3266; Fechter-Leggett, E.D., Boylstein, R.J., Stanton, M.L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2017.
  66. National Institute for Occupational Safety and Health. Evaluation of Noise Exposure in the Knockoff Areas of an Iron Foundry; Report No.: HHE, 2009-0224-3274; Brueck, S.E., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2017.
  67. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Roasting and Packaging Facility; Report No.: HHE, 2015-0163-3298; Nett, R.J., Hawley, B., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2017.
  68. National Institute for Occupational Safety and Health. Evaluation of Exposures and Respiratory Health at a Coffee Roasting and Packaging Facility; Report No.: HHE, 2016-0013-3294; Hawley, B., Martin, S.B., Jr., Duling, M., Bailey, R.L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2017.
  69. National Institute for Occupational Safety and Health. Evaluation of Peracetic Acid Exposure Among Federal Poultry Inspectors; Report No.: HHE, 2015-0130-3290; Burton, N.C., Gibbins, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2017.
  70. National Institute for Occupational Safety and Health. Assessment of Peracetic acid Exposure Among Federal Poultry Inspectors; Report No.: HHE 2014-0196-3254; Burton, N.C., Gibbins, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2016.
  71. National Institute for Occupational Safety and Health. Evaluation of Crystalline Silica Exposure During Fabrication of Natural and Engineered Stone Countertops; Report No.: HHE, 2014-0215-3250; Zwack, L.M., Victory, K.R., Brueck, S.E., Qi, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2016.
  72. National Institute for Occupational Safety and Health. Evaluation of Impact and Continuous Noise Exposure, Hearing Loss, Heat Stress, and Whole Body Vibration at a Hammer Forge Company; Report No.: HHE, 2007-0075-3251; Brueck, S.E., Eisenberg, J., Zechmann, E., Murphy, W.J., Morata, T.C., Krieg, E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2016.
  73. National Institute for Occupational Safety and Health. Evaluation of Metalworking Fluid Exposure and Dermatitis Among Rifle Barrel Manufacturing Employees; Report No.: HHE 2014-0170-3263; Tapp, L.C., Broadwater, K., Mueller, C.A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2016.
  74. National Institute for Occupational Safety and Health. Evaluation of Noise and Metal Exposure at a Security Portal Manufacturer; Report No.: HHE, 2015-0180-3261; Li, J.F., Ahrenholz, S., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2016.
  75. National Institute for Occupational Safety and Health. Evaluation of Occupational Exposures to Noise and Chemicals at an Automobile Parts Manufacturing Plant; Report No.: HHE, 2015-0158-3262; Li, J.F., Methner, M.M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2016.
  76. National Institute for Occupational Safety and Health. Evaluation of Optical Radiation Hazards From Plasma Arc Cutting Operations; Report No.: HHE, 2016-0027-3260; Glassford, E., Burr, G., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2016.
  77. National Institute for Occupational Safety and Health. Evaluation of Respiratory and Indoor Environmental Quality Concerns at a Snack Foods Facility-Pennsylvania; Report No.: HHE, 2014-0056-3259; Hawley, B., Gibbs, J.A., Casey, M., Park, J.-H., Mugford, C., Cox-Ganser, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2016.
  78. National Institute for Occupational Safety and Health. Evaluation of Respiratory Concerns at a Coal and Copper Slag Processing Company; Report No.: HHE, 2013-0016-3258; Mugford, C., Boylstein, R., Gibbs, J.A., McCague, A.B., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2016.
  79. National Institute for Occupational Safety and Health. An evaluation of Respiratory Health at a Syntatic Foam Manufacturing Facility; Report No.: HHE, 2012-0107-3233; Stanton, M.L., LeBouf, R., Schuler, C.R., Cummings, K.J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2016.
  80. National Institute for Occupational Safety and Health. Evaluation of Styrene and Dust Exposures and Health Effects During Fiberglass-Reinforced Wind Turbine Blade Manufacturing; Report No.: HHE, 2013-0056-3256; Harney, J.M., McCaue, A.B., Cummings, K.J., Cox-Ganser, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2016.
  81. National Institute for Occupational Safety and Health. Investigation of Dermal and Respiratory Exposures to Metalworking Fluids at an Automotive Parts Manufacturer; Report No.: HHE, 2013-0075-3264; Harney, J.M., Tapp, L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2016.
  82. National Institute for Occupational Safety and Health. Evaluation of a Garlic Paste Production Process; Report No.: HHE, 2012-0102-3245; Broadwater, K.R., McCleery, R.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2015.
  83. National Institute for Occupational Safety and Health. Evaluation of an Unpleasant Odor at an Aircraft Ejection Seat Manufacturer; Report No.: HHE, 2014-0050-3234; Broadwater, K., de Perio, M.A., Brueck, S.E., Burton, N.C., Lemons, A.R., Green, B.J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2015.
  84. National Institute for Occupational Safety and Health. Evaluation of Carpal Tunnel Syndrome and Other Musculoskeletal Disorders among Employees at a Poultry Processing Plant; Report No.: HHE, 2014-0040-3232; Ramsey, J.G., Musolin, K., Mueller, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2015.
  85. National Institute for Occupational Safety and Health. Evaluation of Noise Exposures at a Gray Ductile Iron Foundry; Report No.: HHE, 2011-0087-3241; Brueck, S.E., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2015.
  86. National Institute for Occupational Safety and Health. Evaluation of Occupational Exposures at a Drycleaning Shop Using solvonk4; Report No.: HHE, 2014-0081-3231; Ceballos, D., Broadwater, K., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2015.
  87. National Institute for Occupational Safety and Health. Evaluation of Skin and Respiratory Symptoms among Employees with Exposure to Metals, Metalworking Fluids, and Noise at an Orthopedic Implant Manufacturer; Report No.: HHE, 2013-0033-3238; Beaucham, C., Tapp, L., Mueller, C., Oza, A.Y., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2015.
  88. National Institute for Occupational Safety and Health. Evaluation of Ergonomic Hazards at a Label Manufacturing Facility; Report No.: HHE 2012, -0121-3225; Ramsey, J., Eisenberg, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2014.
  89. National Institute for Occupational Safety and Health. Evaluation of Exposure to Chemicals at a Polymer Additive Manufacturing Facility; Report No.: HHE, 2012-0176-3215; Beacham, C., Tapp, L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2014.
  90. National Institute for Occupational Safety and Health. Evaluation of Exposures and a Potential Hydrogen Sulfide Release Event at an Aircraft Engine Services Facility, West Virginia; Report No.: HHE, 2014-0042-3216; Armstrong, J.L., Cummings, K.J., Boylstein, R., Ham, J., Blackley, D., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2014.
  91. National Institute for Occupational Safety and Health. Evaluation of Exposures and Health at a Specialty Chemicals Plant, West Virginia; Report No.: HHE, 2012-0222-3203; McCague, A.B., Armstrong, J.L., Cummings, K.J., Park, J.H., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2014.
  92. National Institute for Occupational Safety and Health. Evaluation of Health Concerns at a Pet Food Manufacturing Facility-Missouri; Report No.: HHE, 2012-0260-3202; LeBouf, R.F., McCague, A.B., Armstrong, J., Boylstein, R., Bailey, R.L., Kreiss, K., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2014.
  93. National Institute for Occupational Safety and Health. Evaluation of Metals, Solvents, Formaldehyde, Ventilation, and Ergonomic Risks during the Manufacture of Electrical Cable Accessories; Report No.: HHE, 2012-0025-3207; Methner, M.M., Tapp, L., Ramsey, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2014.
  94. National Institute for Occupational Safety and Health. Evaluation of Musculoskeletal Disorders and Traumatic Injuries among Employees at a Poultry Processing Plant; Report No.: HHE, 2012-0125-3204; Musolin, K., Ramsey, J.G., Wassell, J.T., Hard, D.L., Mueller, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2014.
  95. National Institute for Occupational Safety and Health. Noise, and Heat at an Automotive Lead-Acid Battery Recycling Company; Report No.: HHE, 2012-0071-3224; King, B.S., Musolin, K., Ceballos, D., Brueck, S.E., Beaucham, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2014.
  96. National Institute for Occupational Safety and Health. Evaluation of Cut-Resistant Sleeves and Fiberglass Fiber Shedding at a Steel Mill; Report No.: HETA 2011-0113-3179; Tapp, L., Ceballos, D., Wiegand, D., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2013.
  97. National Institute for Occupational Safety and Health. Evaluation of Dermatitis among Sanders in a Furniture Manufacturing Plant; Report No.: HHE, 2011-0180-3193; Tapp, L.C., Burton, N.C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2013.
  98. National Institute for Occupational Safety and Health. Evaluation of Health Effects of a Chlorine Gas Release in a Poultry Processing plant-Arkansas; Report No.: HETA 2011-0128-3166; Meza, F., Mueller, C., King, B., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2013.
  99. National Institute for Occupational Safety and Health. Evaluation of Respiratory Concerns at a Cream Cheese Manufacturing Facility; Report No.: HHE, 2011-0102-3194; Bailey, R.L., Piacitelli, C.A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2013.
  100. National Institute for Occupational Safety and Health. Evaluation of Respiratory Concerns at a Snack Food Production Facility; Report No.: HETA 2001-0037-3172; Cummings, K.J., Piacitelli, C., Stanton, M., Bailey, R.L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2013.
  101. National Institute for Occupational Safety and Health. An Evaluation of Respiratory Health at a Flavoring Manufacturing Facility – Kentucky; Report No.: HHE, 2012-0012-3192; Cummings, K.J., Boylstein, R.J., Stanton, M.L., Piacitelli, C.A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2013.
  102. National Institute for Occupational Safety and Health. Evaluation of Sensitization and Exposure to Flour Dust, Spices, and Other Ingredients Among Poultry Breading Workers; Report No.: HHE, 2009-0131-3171; Page, E.H., Dowell, C.H., Mueller, C.A., Biagini, R.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2013.
  103. National Institute for Occupational Safety and Health. Evaluation of Work-Related Health Concerns at a Tire Manufacturing Plant; Report No.: HHE, 2012-0114-3185; Wiegand, D.M., Methner, M., Page, E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2013.
  104. National Institute for Occupational Safety and Health. Air Contaminant, Noise, and Dermal Hazards During Aluminum Beverage Can Manufacturing-Texas; Report No.: HETA 2008-0099-3152; Rodriguez, M., West, C., Brueck, S.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2012.
  105. National Institute for Occupational Safety and Health. Campylobacter Infection and Exposures Among Employees at a Poultry Processing Plant-Virginia; Report No.: HETA 2011-0058-3157; de Perio, M.A., Gibbins, J.D., Niemeier, R.T., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2012.
  106. National institute for Occupational Safety and Health. Ergonomic Evaluation of Surfacing and Finishing Tasks During Eyeglass Manufacturing-Minnesota; Report No.: HETA 2010-0114-3168; Ramsey, J.G., Tapp, L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2012.
  107. National Institute for Occupational Safety and Health. Evaluation of Air Sampling Methods for Abrasive Blasting-Lousiana; Report No.: HETA 2001-0279-3163; Sylvain, D., Ceballos, D., Kiefer, M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2012.
  108. National Institute for Occupational Safety and Health. Evaluation of Eye and Respiratory Symptoms at a Poultry Processing Facility-Oklahoma; Report No.: HETA 2007-0284 &, 2007-0317-3155; Chen, L., Eisenberg, J., Durgam, S., Mueller, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2012.
  109. National Institute for Occupational Safety and Health. An Evaluation of Preventive Measures at an Indium-Tin Oxide Production Facility; Report No.: HETA 2009-0214-3153; Cummings, K.J., Suarthana, E., Day, G.A., Stanton, M.L., Kreiss, K., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2012.
  110. National Institute for Occupational Safety and Health. Metalworking Fluid Exposure at an Aircraft Engine Manufacturing Facility-Ohio; Report No.: HETA 2010-0144-3164; Chen, L., Meza, F., Hudson, N., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2012.
  111. National institute for Occupational Safety and Health. Ergonomic and Safety Climate Evaluation at a Brewery-Colorado; Report No.: HETA 2010-0008-3148; Ramsey, J.G., Tapp, L., Wiegand, D., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2011.
  112. National Institute for Occupational Safety and Health. Evaluation of Chemical Hazards and Noise Exposures at a Drum Refurbishing plant-Indiana; Report No.: HETA 2010-0031-3130; Fent, K.W., Page, E., Brueck, S.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2011.
  113. National Institute for Occupational Safety and Health. Evaluation of Contact Dermatitis Among Ink Ribbon Manufacturing Employees-New York; Report No.: HETA 2007-0261-3122; Tapp, L.C., Durgam, S., Mueller, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2011.
  114. National Institute for Occupational Safety and Health. Heat Stress and Strain Evaluation Among Aluminum Potroom Employees-Texas; Report No.: HETA 2006-0307-3139; Dang, B., Dowell, C.H., Mueller, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2011.
  115. National Institute for Occupational Safety and Health. Lung Function (spirometry) Testing in Employees at a Flavorings Manufacturing Plant; Report No.: HETA 2008-0155-3131; Kreiss, K., Piacitelli, C., Cox-Ganser, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2011.
  116. National Institute for Occupational Safety and Health. Unknown Gases Generated from a Silicon Wafer Grinding Filtration Process-Colorado; Report No.: HETA 2008-0045-3145; Durgam, S., Streicher, R., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2011.
  117. National Institute for Occupational Safety and Health. Evaluation of Exposures to Expoxy Resin While Manufacturing Artificial Floral Arrangements; Report No.: HETA 2007-0355-3102; Aristequieta, C., Rodriquesz, M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2010.
  118. National Institute for Occupational Safety and Health. Evaluation of Metal and Carbon Monoxide Exposures During Steel Slab Cutting and Slitting-Indiana; Report No.: HETA 2008-0091-3118; Burr, G., Eisenberg, J., Jang, S.H., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2010.
  119. National Institute for Occupational Safety and Health. Evaluation of Methicillin-Resistant Staphylococcus aureus (MRSA) Cases among Employees at a Workholding Manufacturing Facility; Report No.: HETA 2009-0098-3103; Gibbins, J., Niemeier, T., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2010.
  120. National Institute for Occupational Safety and Health. Evaluation of Potential Exposures at an Electrolytic Manganese Dioxde Processing Plant; Report No.: HETA 2007-0331-3100; Durgam, S., Aristeguieta, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: New Johnsonville, TN, USA, 2010.
  121. National Institute for Occupational Safety and Health. Evaluation of Potential Exposures During Composite Grinding at an Aircraft Manufacturing Plant; Report No.: HETA 2007-0344-3104; Durgam, S., de Perio, M.A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2010.
  122. National Institute for Occupational Safety and Health. Ergonomic Evaluation at a Steel Grating Manufacturing Plant; Report No.: HETA 2008-0074-3081; West, C., Ramsey, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2009.
  123. National Institute for Occupational Safety and Health. Evaluation of Employees’ Chemical Exposures while Blending and Repackaging Glass Beads for Road Markings; Report No.: HETA 2008-0017-3095; Rodriguez, M., Aristeguieta, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2009.
  124. National Institute for Occupational Safety and Health. Evaluation of Employees’ Exposures to Organic Solvent Vapors During Screen Printing; Report No.: HETA 2007-0053-3092; Brueck, S.E., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2009.
  125. National Institute for Occupational Safety and Health. Evaluation of Employees’ Exposures to Welding Fumes and Powder Paint Dust during Metal Furniture Manufacturing; Report No.: HETA 2007-0199-3075; Rodriguez, M., Adebayo, A., Brueck, S.E., Ramsey, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2009.
  126. National Institute for Occupational Safety and Health. Evaluation of Health Concerns at a Printed Circuit Board Manufacturing Plant; Report No.: HETA 2007-0201-3086; Durgam, S., Aristeguieta, C., Achutan, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2009.
  127. National Institute for Occupational Safety and Health. Exposure to Flour Dust and Sensitization among Bakery Employees; Report No.: HETA 2005-0248-3077; Page, E.H., Dowell, C.H., Mueller, C.A., Biagini, R.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2009.
  128. National Institute for Occupational Safety and Health. Findings from Industrial Hygiene Air Sampling, Ventilation Assessment, and a Medical Survey at a Facility that Manufactures Flavorings, Modified Dairy Products, and Bacterial Additives; Report No.: HETA 2007-0327-3083; Sahakian, N., Jullman, G., Dunn, K., Kanwal, R., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2009.
  129. National Institute for Occupational Safety and Health. Report on Respiratory Symptoms and Disease among Cemented Tungsten Carbide Workers; Report No.: HETA 2003-0257-3088; Sahakian, N., Stefaniak, A., Day, G., Kanwal, R., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2009.
  130. National Institute for Occupational Safety and Health. Respiratory Symptoms in Workers at Three Commercial Kitchens; Report No.: HETA 2008-0125-0126-0127-3093; Gaughan, D.M., Boylstein, R., Iossifova, Y.Y., Piacitelli, C., Bailey, R., Day, G., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2009.
  131. National Institute for Occupational Safety and Health. Assessment of Physical Hazards at an Automotive Parts Manufacturing Facility; Report No.: HETA 2003-0268-3065; Acharya, A., Driscoll, R., Habes, D., Tubbs, R.L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2008.
  132. National Institute for Occupational Safety and Health. Ergonomic Evaluation of Frank Hangers at a Turkey Processing Plant; Report No.: HETA 2007-0098-3061; Ramsey, J., Gibbins, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2008.
  133. National Institute for Occupational Safety and Health. Ergonomic Evaluation of Workers at a Cabinet Mill and Assembly Plant; Report No.: HETA 2007-0038-3057; Ramsey, J., Dang, B., Habes, D., Eds.; U.S. Department of Health and Human Services. Centers for Disease Control and Prevention. National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2008.
  134. National Institute for Occupational Safety and Health. Ergonomic Evaluation of Workers at a Piston and Cylinder Liner Manufacturing Plant; Report No.: HETA 2007-0124-3060; Ramsey, J., Eisenberg, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2008.
  135. National Institute for Occupational Safety and Health. Evaluation of Contact Dermatitis among Machinists at an Automotive Parts Manufacturer; Report No.: HETA 2006-0155-3072; Tapp, L., Ewers, L., Durgam, S., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2008.
  136. National Institute for Occupational Safety and Health. Evaluation of Exposures at a Pottery Shop; Report No.: HETA 2007-0127-3068; Chen, L., Ramsey, J., Brueck, S., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2008.
  137. National Institute for Occupational Safety and Health. Evaluation of Neurological Dysfunction Among Workers Exposed to Trichloroethylene; Report No.: HETA 2004-0372-3054; Baumann, A., Page, E., Mueller, C., Burr, G., Hitchcock, E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2008.
  138. National Institute for Occupational Safety and Health. Evaluation of Worker Exposures to Noise, Metalworking Fluids, Welding fumes, and acids During Metal Conduit Manufacturing, Republic conduit, Louisville, Kentucky; Report No.: HETA 2006-0332-3058; Rodriquez, M., West, C.A., Brueck, S.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2008.
  139. National Institute for Occupational Safety and Health. Report on fixed Obstructive Lung Disease in Workers at a Flavoring Manufacturing Plant; Report No.: HETA 2007-0033-3074; Bailey, R., McKernan, L.T., Dunn, K.H., Sahakian, N., Kreiss, K., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2008.
  140. National Institute for Occupational Safety and Health. Evaluation of Heat Stress at a Glass Bottle Manufacturer; Report No.: HETA 2003-0311-3052; Dowell, C.H., Tapp, L.C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2007.
  141. National Institute for Occupational Safety and Health. Gold Coast Ingredients, California. Interim Report; Report No.: HETA 2007-0033; Bailey, R.L., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2007.
  142. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report, Diamond Chain Company, Indianapolis, Indiana; Report No.: HETA 2005-0227-3049; Tapp, L.C., Ewers, L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2007.
  143. National Institute for Occupational Safety and Health. Highlights of the NIOSH Health Hazard Evaluation: Copperhill Smelter Worker Study; Report No.: HETA 2001-0088-3048; Marsh, G.M., Esmen, N.A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2007.
  144. National Institute for Occupational Safety and Health. NIOSH Health Hazard Evaluation report COL-FIN Specialty Steel, Fallston, Pennsylvania; Report No.: HETA 2003-0175-3033; Achutan, C., Nemhauser, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2007.
  145. National Institute for Occupational Safety and Health. NIOSH Health Hazard Evaluation Report L-3 Communications, Budd Lake, New Jersey; Report No.: HETA 2005-0188-3038; Tubbs, R.L., Stephenson, M.R., Epp, R., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2007.
  146. National Institute for Occupational Safety and Health. NIOSH Health Hazard Evaluation Report US Department of Agriculture, Food Safety and Inspection Service. Natchitoches, Louisiana; Report No.: HETA 2004-0337-3051; King, B., Warren, A., Mueller, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2007.
  147. National Institute for Occupational Safety and Health. NIOSH Health Hazard Evaluation Report, Yatsko’s Popcorn, Sand Coulee, Montana; Report No.: HETA 2006-0195-3044; Kullman, G., Sahakian, N., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2007.
  148. National Institute for Occupational Safety and Health. Nuisance Odors from a Neighboring Printing Facility-Air Quality Evaluation at a Label Distributing Company; Report No.: HETA 2006-0343-3045; Rodriguez, M., Gibbins, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2007.
  149. National Institute for Occupational Safety and Health. Report on Severe Fixed Obstructive Lung Disease in Workers at a Flavoring Manufacturing Plant; Report No.: HETA 2006-0303-3043; Kanwal, R., Kullman, G., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2007.
  150. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2004-0239-3014. MK Ballistic Systems, Hollister, California; Report No.: HETA 2004-0239-3014; Lee, S.A., Boudreau, Y., West, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2006.
  151. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2004-0399-3007. NTN-Bower Corporation, Hamilton, Alabama; Report No.: HETA 2004-0399-3007; Rodriguez, M., Eisenberg, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2006.
  152. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2006-0156-3031. Harley-Davidson Motor Company, York, Pennsylvania; Report No.: HETA 2006-0156-3031; Kanwal, R., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2006.
  153. National Institute for Occupational Safety and Health. NIOSH Health Hazard Evaluation Report 2000-0401-2991. Gilster-Mary Lee Corporation, Jasper, Missouri; Report No.: HETA 2000-0401-2991; Kanwal, R., Kullman, G., Fedan, K., Kreiss, K., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2006.
  154. National Institute for Occupational Safety and Health. NIOSH Health Hazard Evaluation Report, ACH foam technologies, Fond du Lac, Wisconsin; Report No.: HETA 2005-0243-3016; Rodriguez, M., Achutan, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2006.
  155. National Institute for Occupational Safety and Health. NIOSH Health Hazard Evaluation Report, Claremont Flock Corporation, Leominster, Massachusetts; Report No.: HETA 2004-0186-3011; Antao, V., Piacitelli, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2006.
  156. National Institute for Occupational Safety and Health. NIOSH Health Hazard Evaluation Report, DaimlerChrysler Jefferson North Assembly Plant, Detroit, Michigan; Report No.: HETA 2006-0059-3009; Kanwal, R., Boylstein, R.J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2006.
  157. National Institute for Occupational Safety and Health. NIOSH Health Hazard Evaluation Report, Dixie Cultured Marble, Birmingham, Alabama; Report No.: HETA 2001-0326-2999; McCleery, R.E., Warren, A., Tubbs, R.L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2006.
  158. National Institute for Occupational Safety and Health. NIOSH Health Hazard Evaluation Report, Engineered Fabrics Corporation, Rockmart, Georgia; Report No.: HETA 2000-0374-2998; Tapp, L., Mattorano, D., Mueller, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2006.
  159. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2006-0153-3022, Sara Lee Foods, Storm Lake, Iowa; Report No.: HHE, 2006-0153-3022; King, B., Page, E., Khan, A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2006.
  160. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2005-0024-3000. United Technologies/Carrier Corporation, Indianapolis, Indiana; Report No.: HETA 2005-0024-3000; Ewers, L.M., Tapp, L.C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2006.
  161. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2003-0016-2959. Owens-Illinois, Lapel, Indiana; Report No.: HETA 2003-0016-2959; Dowell, C.H., Page, E.H., Mueller, C., Mortimer, V., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2005.
  162. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2003-0203-2952. Wallace Computer Services, Clinton, Illinois; Report No.: HETA 2003-0203-2952; Finley, M., Page, E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2005.
  163. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2003-0237-2986. Morton Metalcraft, Welcome, North Carolina; Report No.: HETA 2003-0237-2986; King, B., Adebayo, A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2005.
  164. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2003-0351-2972. Freudenberg-NOK, High Quality Plastics Division, Findlay, Ohio; Report No.: HETA 2003-0351-2972; Burr, G., Habes, D., Driscoll, R., Krake, A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2005.
  165. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2004-0016-2971. Lehigh Portland Cement Company, Union Bridge, Maryland; Report No.: HETA 2004-0016-2971; Achutan, C., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2005.
  166. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2004-0117-2964. Good Humor-Breyers Ice Cream, Hagerstown, Maryland; Report No.: HETA 2004-0117-2964; Habes, D., Driscoll, R., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2005.
  167. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2004-0160-2962. Truth Hardware, West Hazelton, Pennsylvania; Report No.: HETA 2004-0160-2962; Hall, R.M., Driscoll, R.J., Dowell, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2005.
  168. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2004-0166-2977, ZF Industries, Tuscaloosa, Alabama; Report No.: HETA 2004-0166-2977; Habes, D., Driscoll, R., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2005.
  169. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2004-0169-2982. U.S. Magnesium, Rowley, Utah; Report No.: HETA 2004-0169-2982; Kim, E.A., Bernard, B.P., Esswein, E.J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2005.
  170. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2004-0184-2965. City of Los Angeles, Bureau of Street Services, Los Angeles, California; Report No.: HETA 2004-0184-2965; McCleery, R.E., Tapp, L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2005.
  171. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2004-0349-2970. Kewaunee Fabrications, LLC, Kewaunee, Wisconsin; Report No.: HETA 2004-0349-2970; Methner, M.M., Achutan, C., Adebayo, A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2005.
  172. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2001-0381-2932. Smurfit-Stone Container Corporation, Missoula, Montana; Report No.: HETA 2001-0381-2932; Lushniak, B., Mattorano, D., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2004.
  173. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2001-0474-2943; Report No.: HETA 2001-0474-2943; Kanwal, R., Boylstein, R.J., Piacitelli, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2004.
  174. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2003-0112-2949. ConAgra Snack Foods, Marion, Ohio; Report No.: HETA 2003-0112-2949; Kanwal, R., Kullman, G., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2004.
  175. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2003-0114-2924. Felker Brothers Corporation, Marchfield, Wisconsin; Report No.: HETA 2003-0114-2924; Hall, R.M., Rhodes, D., Page, E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2004.
  176. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2003-0171-2925. PCC Schlosser, Redmond, Oregon; Report No.: HETA 2003-0171-2925; Esswein, E.J., Boudreau, Y., Sollberger, R., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2004.
  177. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2003-0328-2935. CPC Pasadena Plastics Complex, Pasadena, Texas; Report No.: HETA 2003-0328-2935; Rodriguez, M., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2004.
  178. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2003-0383-2942. Alstom Power, Inc. Chattanooga, Tennessee; Report No.: HETA 2003-0383-2942; Habes, D.J., Rodriguez, M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2004.
  179. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2004-0001-2937. Superior Dairy, Canton, Ohio; Report No.: HETA 2004-0001-2937; Habes, D., Driscoll, R.J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2004.
  180. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2004-0014-2929, Navajo Agricultural Products Industry, Farmington, New Mexico; Report No.: HETA 2004-0014-2929; Achutan, C., Tubbs, R.L., Habes, D., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2004.
  181. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2004-0064-2933. ISCO International, Mt. Prospect, Illinois; Report No.: HETA 2004-0064-2933; Cardarelli, J., Achutan, C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2004.
  182. National Institute for Occupational Safety and Health. Health Hazard Evaluation 2001-0517. B.K. Heuermann Popcorn, Inc, Phillips, Nebraska; Report No.: HETA 2001-0517; Kanwal, R., Martin, S.B., Jr., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  183. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 99-0260-2906. Marx Industries, Inc. Sawmills, North Carolina; Report No.: HETA 99-0260-2906; Harney, J.M., Nemhauser, J.B., Reh, C.M., Trout, D., Schrader, S., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  184. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2000-0096-2876, ChemDesign Corporation, Fitchburg, Massachusetts; Report No.: HETA 2000-0096-2876; Hnizdo, E., Sylvain, D.C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  185. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2001-0461-2889. The Concrete Revolution, Denver, Colorado; Report No.: HETA 2001-0461-2889; Esswein, E.J., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  186. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2002-0184-2888. Aero-Classics, Ltd. Huron, Ohio; Report No.: HETA 2002-0184-2888; Burr, G.A., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  187. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2002-0257-2916. Bil-Mar Foods, Inc. Storm Lake, Iowa; Report No.: HETA 2002-0257-2916; King, B.S., Page, E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  188. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2002-0379-2901. Superior Label Systems, Mason, Ohio; Report No.: HETA 2002-0379-2901; Burr, G.A., Page, E.H., Methner, M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  189. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2002-0408-2915. Agrilink Foods Popcorn Plant, Ridgway, Illinois; Report No.: HETA 2002-0408-2915; Sahakian, N., Choe, K., Boylstein, R., Schleiff, P., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  190. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2002-0418-2912. Richards Industries, Cincinnati, Ohio; Report No.: HETA 2002-0418-2912; Finley, M.D., Nemhauser, J.B., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  191. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2003-0064-2913. Degesh America, Inc. Weyers Cave, Virginia; Report No.: HETA 2003-0064-2913; Nemhauser, J.B., Dowell, C.H., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  192. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2003-0102-2921. Bemis, West Hazelton, Pennsylvania; Report No.: HETA 2003-0102-2921; Achutan, C., Rhodes, D.W., Burr, G., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  193. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2003-0111-2909. Ethicon Endo-Surgery, Cincinnati, Ohio; Report No.: HETA 2003-0111-2909; Methner, M.M., Lotz, W.G., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  194. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report HETA 2002-0089. Nebraska popcorn close-out report; Report No.: HETA 2002-0089; Kanwal, R., Ed.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2003.
  195. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 98-0237-2872. Mueller Company, Chattanooga, Tennessee; Report No.: HETA 98-0237-2872; Burton, N.C., McCullough, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2002.
  196. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 99-0177-2828. Boeing Commercial Airplane Group, Oak Ridge, Tennessee; Report No.: HETA 99-0177-2828; Roegner, K.C., Tapp, L., Martinez, K.F., Mueller, C., Trout, D., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2002.
  197. National Institute for Occupational Safety and Health. Health Hazard Evaluation report 99-0343-2882. Thomas Steel Strip Corporation, Warren, Ohio; Report No.: HETA 99-0343-2882; Lawson, C.C., Bloom, T.F., Hein, M.J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2002.
  198. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2000-0124-2875. Tenneco Automotive, Milan, Ohio; Report No.: HETA 2000-0124-2875; McCleery, R.E., Nemhauser, J.B., Martinez, K.F., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2002.
  199. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2000-0356-2851. Cambell Hausfield, Harrison, Ohio; Report No.: HETA 2000-0356-2851; Reh, B.D., Page, E., Harney, J., McCleery, R.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2002.
  200. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2000-0410-2891. STN Cushion Company, Thomasville, North Carolina; Report No.: HETA 2000-0410-2891; Harney, J.M., Hess, J., Reh, C., Trout, D., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2002.
  201. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2001-0081-2877. Galss Masters Neon, Savannah, Georgia; Report No.: HETA 2001-0081-2877; Ewers, L.M., Page, E.H., Mortimer, V., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2002.
  202. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2001-0144-2867. Superior Label Systems, Mason, Ohio; Report No.: HETA 2001-0144-2867; Page, E.H., Cook, C.K., Mueller, C.A., Mortimer, V., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2002.
  203. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2001-0248-2874. Thomson Multimedia, Inc. Circleville, Ohio; Report No.: HETA 2001-0248-2874; King, B.S., McCullough, J.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2002.
  204. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2001-0303-2893. TRW Automotive, Mt. Vernon, Ohio; Report No.: HETA 2001-0303-2893; Trout, D., Harney, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2002.
  205. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2002-0155-2886. DaimlerChrysler Indiana Transmission Plant, Kokomo, Indiana; Report No.: HETA 2002-0155-2886; Trout, D., Harney, J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2002.
  206. National Institute for Occupational Safety and Health. Health Hazard Evaluation, Custom Products, Inc. Mooresville, North Carolina; Report No.: HETA 98-0153-2883; Reh, C.M., Mortimer, .V., Nemhauser, J.B., Trout, D., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2002.
  207. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 97-0141-2819. Special Metals Corporation, Princeton Powder Division, Princeton, Kentucky; Report No.: HETA 97-0141-2819; McCleery, R.E., Blade, L.M., Burt, S.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2001.
  208. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 99-0091-2846. McCain Foods, Inc., Plover, Wisconsin; Report No.: HETA 99-0091-2846; Ewers, L.M., Tapp, L.C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2001.
  209. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2000-0139-2824. United Catalysts, Inc. Louisville, Kentucky; Report No.: HETA 2000-0139-2824; Page, E., Harney, J.M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2001.
  210. National Institute for Occupational Safety and Health. Health hazard evaluation report 2000-0181-2841. Wire Rope Corporation of America, Sedalia, Missouri; Report No.: HETA 2000-0181-2841; Cook, C.K., Hess, J.E., Tubbs, R.L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2001.
  211. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2000-0233-2845. Trilithic, Inc., Indianapolis, Indiana; Report No.: HETA 2000-0233-2845; Reh, R.M., Nemhauser, J.B., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2001.
  212. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2000-0250-2837. Winnebago Industries Inc. Forest City, Iowa; Report No.: HETA 2000-0250-2837; King, B.S., Hess, J.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2001.
  213. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2000-0262-2833. Southern Supply & Manufacturing Company, Inc., St. Petersburg, Florida; Report No.: HETA 2000-0262-2833; Harney, J.M., Trout, D., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2001.
  214. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2000-0291-2840. E.I. DuPont de Nemours and Co., Inc., Richmond, Virginia; Report No.: HETA 2000-0291-2840; Roegner, K., Tapp, L., McCleery, R., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2001.
  215. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2000-0309-2857. Lehigh Portland Cement Company, Union Bridge, Maryland; Report No.: HETA 2000-0309-2857; Hall, R.M., Gwin, K.K., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2001.
  216. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 2001-0034-2843. USAirways Aircraft Support Center, Charlotte, North Carolina; Report No.: HETA 2001-0034-2843; Kiefer, M., Weber, A., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2001.
  217. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 99-0196-2860, Future Aviation, Inc., Naples, F; Report No.: HETA 99-0196-2860; Kasting, C., Reh, C.M., Roegner, K.C., Keifer, M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2001.
  218. National Institute for Occupational Safety and Health. NIOSH Investigation of Gilster Mary Lee. HETA 2000-0401. Technical assistance to Missouri Department of Health; Report No.: HETA 2000-0401; Gomaa, A., Kullman, G., Fedan, K., Enright, P., Schleiff, P., Phillips, P.E., Simoes, E., Kreiss, K., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2001.
  219. National Institute for Occupational Safety and Health. Health Hazard Evaluation 98-0212-2788. Claremont Flock Corporation, Claremont, NH; Report No.: HETA 98-0212-2788; Daroowalla, F., Wang, M.L., Piacitelli, C., Burkhart, J., Jones, W., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2000.
  220. National Institute for Occupational Safety and Health. Health Hazard Evaluation report 97-0076-2805. Coors Distributing Company, Golden, Colorado; Report No.: HETA 97-0076-2805; McGlothlin, J.D., Wurzelbacher, S.J., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2000.
  221. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 97-0265-2781. AFG Industries, Bridgeport, West Virginia; Report No.: HETA 97-0265-2781; Kullman, G.J., Ortega, H.G., Wedgewood, J.M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2000.
  222. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 98-0011-2801. Woodbridge Corporation, Brodhead, Wiscconsin; Report No.: HETA 98-0011-2801; Daftarian, H.S., Roegner, K.C., Reh, C.M., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2000.
  223. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 98-0238-2789. Spectro Coating Corporation, Leominster, MA; Report No.: HETA 98-0238-2789; Daroowalla, F., Wang, M.L., Piacitelli, C., Burkhart, J., Jones, W., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2000.
  224. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 98-0263-2817. General Electric, Evendale, Ohio; Report No.: HETA 98-0263-2817; Burr, G.A., Tapp, L., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2000.
  225. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 99-0122-2798. Lockheed Martin Aeronautical Systems, Marietta, Georgia; Report No.: HETA 99-0122-2798; Reh, C.M., Roegner, K.C., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2000.
  226. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 99-0144-2797. Case Corporation, Burlington, Iowa; Report No.: HETA 99-0144-2797; Harney, J.M., Trout, D., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2000.
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  228. National Institute for Occupational Safety and Health. Health Hazard Evaluation Report 99-0311-2790. DaimlerChrysler Transmission Plant, Kokomo, Indiana; Report No.: HETA 99-0311-2790; Trout, D., Harney, J.M., Sullivan, P., Ortega, H., McCleery, R.E., Eds.; U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health: Cincinnati, OH, USA, 2000.
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Ijerph 18 05423 g001 550
Figure 1. Conceptual framework.
Figure 1. Conceptual framework.
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Figure 2. PRISMA flow diagram.
Figure 2. PRISMA flow diagram.
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MDPI and ACS Style

Rikhotso, O.; Morodi, T.J.; Masekameni, D.M. Occupational Health Hazards: Employer, Employee, and Labour Union Concerns. Int. J. Environ. Res. Public Health 2021, 18, 5423. https://doi.org/10.3390/ijerph18105423

AMA Style

Rikhotso O, Morodi TJ, Masekameni DM. Occupational Health Hazards: Employer, Employee, and Labour Union Concerns. International Journal of Environmental Research and Public Health. 2021; 18(10):5423. https://doi.org/10.3390/ijerph18105423

Chicago/Turabian Style

Rikhotso, Oscar, Thabiso John Morodi, and Daniel Masilu Masekameni. 2021. "Occupational Health Hazards: Employer, Employee, and Labour Union Concerns" International Journal of Environmental Research and Public Health 18, no. 10: 5423. https://doi.org/10.3390/ijerph18105423

APA Style

Rikhotso, O., Morodi, T. J., & Masekameni, D. M. (2021). Occupational Health Hazards: Employer, Employee, and Labour Union Concerns. International Journal of Environmental Research and Public Health, 18(10), 5423. https://doi.org/10.3390/ijerph18105423

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