Next Article in Journal
Motivation Research on the Content Creation Behaviour of Young Adults in Anxiety Disorder Online Communities
Next Article in Special Issue
Influenza Vaccination Programs for Healthcare Personnel: Organizational Issues and Beyond
Previous Article in Journal
Exploring Tertiary Health Science Student Willingness or Resistance to Cultural Competency and Safety Pedagogy
Previous Article in Special Issue
Indoor Air Quality Evaluation Using Mechanical Ventilation and Portable Air Purifiers in an Academic Dentistry Clinic during the COVID-19 Pandemic in Greece
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
IJERPH
Volume 18
Issue 17
10.3390/ijerph18179185
ijerph-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles thumb_up
...
Endorse textsms
...
Comment
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

COVID-19 among Health Workers in Germany—An Update

by
Albert Nienhaus
1,2
1
Competence Center for Epidemiology and Health Services Research for Healthcare Professionals (CVcare), Institute for Health Services Research in Dermatology and Nursing (IVDP), University Medical Center Hamburg-Eppendorf (UKE), 20246 Hamburg, Germany
2
Department for Occupational Medicine, Hazardous Substances and Health Sciences (AGG), Statutory Accident Insurance and Prevention in the Health and Welfare Services (BGW), 22089 Hamburg, Germany
Int. J. Environ. Res. Public Health 2021, 18(17), 9185; https://doi.org/10.3390/ijerph18179185
Submission received: 8 July 2021 / Revised: 27 August 2021 / Accepted: 29 August 2021 / Published: 31 August 2021
(This article belongs to the Special Issue Infectious Disease Epidemiology 2020: The Importance of (Re)Emerging Occupational Infectious Agents)
Browse Figure
Review Reports Versions Notes

Abstract

:
This is an update of our report on COVID-19 among health and social welfare workers in Germany. Workers’ compensation claims for occupational diseases (OD) are recorded in a standardized database of the Statutory Accident Insurance and Prevention in the Health and Welfare Services (BGW). We analyzed which workers in the health and welfare sector are most often affected by COVID-19. For the different sectors in healthcare and welfare, the number of full-time workers is known (FTW), allowing for calculation of claim rates by sector. The period for data presentation was extended to 3 May 2021 for this update. The cumulative number of COVID-19 claims increased from 4398 by May 2020 to 84,728 by May 2021. The majority of claims concern nursing homes (39.5%) and hospitals (37.6%). Nursing is the profession most often concerned (68.8%). Relative to the number of workers, the claim rate is highest for hospitals (41.3/1000 FTW). Seventy-seven workers died (0.09%) and three hundred and seventy-five (0.4%) were hospitalized. A total of 65,693 (77.5%) claims were assessed, and for 81.4% of these claims, the OD was confirmed. The number of health and welfare workers affected by COVID-19 is high. With most HW vaccinated by now in Germany, within the next few weeks or months, the number of new cases should decrease.

1. Introduction

In a pandemic, health workers (HW) are at increased risk for work-related infections. This lesson was already learned from the influenza A (H1N1) pandemic in 2009 and the outbreaks of the severe acute respiratory syndrome (SARS) in 2002 and 2003 as well as the Middle East respiratory syndrome (MERS) outbreaks since 2012 [1,2,3,4,5,6,7,8], and it has been confirmed in this pandemic. By May 2020, 152,888 infections and 1413 deaths of HW due to COVID-19 were reported in literature worldwide [9].
In northern Italy, which was particularly hit by the first COVID-19 wave in Europe, seroprevalence in HW in the high exposure group was 28.5% compared to 12.8% in the low exposure group [10]. Similarly high infection rates are found in HW from Spain. In a hospital-based study, 31.6% of the HW were seropositive for SARS-CoV-2. The odds ratio for infection was highest for doctors (OR = 2.4) [11]. In Germany, the seroprevalence rate of HW after the first wave was as low as 3.3%. Again, HW with contact to COVID-19 patients had an increased risk of infection [12]. According to German health insurance data, sick leave or hospitalization due to COVID-19 was 2.4 times more likely in HW than in all other professions [13].
Not only are HW at increased risk of infection, they also can increase the risk of infection for their families. In a study from Scotland, the hazard ratio for hospitalization due to COVID-19 was 3.3 for HW and 1.8 for their family members [14]. In a French study, the odds ratio for a positive PCR was 3.1 for HW; two relatives died because isolation of the affected HW was not effective. [15]. In a British study, an increased risk was observed not only for HW but also for social workers and teachers (7.4 versus 1.8) [16]. In a study from Washington State, HW had higher infection rates than the other professions [17]. However, it was also shown that infection rates tend to be higher in typical low-wage industries such as farming, fishing, and forestry, or building and grounds cleaning and maintenance.
According to a systematic review and meta-analysis, infected HW are most often female (78.6%). In addition, the authors summarize studies showing that faulty handwashing, inadequate use of masks and personal protection equipment (PPE) or a shortage of PPE increases the risk of infection for HW, while adequate use of PPE reduces the risk of infection [18].
Neither H1N1 nor SARS or MERS led to a significant increase in the number of infections reported as occupational diseases (OD) in Germany [19]. As can be suspected from the brief summary of the actual literature above, during the pandemic, the number of claims concerning infections with SARS-CoV-2 increased in the first five months of 2020, as we reported in our first publication [20]. Here we provide an update on the number of seropositive, COVID-19-related claims filed by HW in Germany by May 2021. In addition, we analyze which workers in the health and welfare sector are most often affected by COVID-19 and suffer severe consequences such as hospitalization and death.

2. Materials and Methods

Suspected cases of occupational diseases are recorded in compensation insurance providers “BK-DOK” in a standardized manner. The BK-DOK (or “Berufskrankheiten-Dokumentations-System”) is the database in which all workers’ compensation claims for occupational diseases (Berufskrankheiten-OD) are assessed. In this database, the job title and the particular sector where the worker is engaged are documented. Along with the profession and sector, reporting obligations regarding whether the OD has been confirmed or rejected and whether hospitalization or death have occurred are documented in the system. However, since the database was adjusted in order to assure quick reporting, information on gender and age is not yet available. The number of particular professionals covered by the accident insurance provider is unknown. However, for different sectors (e.g., hospitals or nursing homes) the number of full-time workers (FTW) is known. Two workers working 50% of the usual working time of 39 h per week are considered one FTW. The number of claims per 1000 FTW (claim rate) and the number of hospitalizations and deaths per 100,000 FTW are calculated.
As with all other diseases, a COVID-19 illness which is presumably occupational in nature must be reported to the accident insurance provider or the federal state-level trade office (Landesgewerbeamt) by the physician in charge of the patient concerned. In addition, a patient or a health insurance can file a claim if the disease is suspected to be caused by an exposure at the workplace. There is no timeframe within which the claim needs to be filed, and some delay in reporting infections or other diseases must be taken into account. The system of OD management is mixed in Germany. The government issues a list of occupational diseases with an opening clause stating that a disease which is not yet listed as an OD can be recognized as such if new evidence emerges that it is caused by exposure at the workplace. In total, more than 60 ODs are listed. They are grouped either by kind of exposure (1: chemical, 2: physical, 3: biological) or by organ affected (4: lung, 5: skin). An additional group covers all other ODs; however, in terms of numbers, this sixth group is not important. COVID-19 is caused by a biological agent and therefore belongs to group 3. As an “infection caused by human-to-human transmission”, it has been assigned number OD 3101 [21]. The criteria for recognizing COVID-19 as an OD are explained by Nowak et al. 2021 [22]. In brief, they apply to people working in healthcare, in laboratories testing for SARS-CoV-2, in welfare, or in places with an infection risk similar to that of healthcare. In addition to being compensated for an OD, workers in places not included in the list of ODs can be compensated for a work-related accident caused by COVID-19, e.g., following contact with an infectious colleague at the workplace or after an outbreak in a slaughterhouse.
German accident insurance providers each cover different branches. The BGW is the accident insurance provider for the private health and welfare sector including churches and other NGOs; therefore, the BGW database does not cover workers in state-owned hospitals. As a rule of thumb, it can be assumed that about half of the work-related infections in HW are covered by the BGW. The rest are covered by accident insurance providers in the various German states [23].
The analysis of this data is mostly descriptive. Odds ratios and 95% confidence intervals (CI) are calculated for the hospitalizations and deaths of nurses and physicians, using other HW as a comparison group. As aggregated anonymous data is used, the Helsinki declaration is honored. In this analysis, only cases subject to mandatory reporting are considered. This means the diagnosis of COVID-19 is ascertained by a positive SARS-CoV2-PCR and the infection is symptomatic. In addition, the infection is likely to be work-related.

3. Results

A total of 84,728 COVID-19 cases suspected to be work-related were registered by 3 May 2021 by the BGW (Table 1). Most claims concern inpatient and outpatient nursing (39.5%) or clinics (37.6%). As few as 3.2% of the claims concern medical practices. Up to 3 May, 77.5% of all claims were assessed, and in 81.4% of these, the OD was confirmed. For clinics, the assessment rate and the confirmation rate are highest (83.2% and 84.1%) when the small group of “Others” is disregarded. The confirmation rate for inpatient and outpatient care is comparable to the one for clinics (81.8% versus 84.1%), although the assessment rate differed to some extent (76.4% versus 83.2%). As shown in Figure 1, the OD rate per 1000 FTW is highest in clinics, followed by inpatient and outpatient care (28.9 and 20.8). For all other sectors, the OD rate per 1000 FTW is lower, and far below of the average rate of 10.5.
Of the 84,728 claims, 375 (0.4%) workers were hospitalized and 77 died (0.09%). The majority of workers in need of hospital treatment come from clinics (52.3%) and inpatient and outpatient care facilities (28.0%) (Table 2). Correspondingly, the hospitalization rate per 100,000 FTW is highest for clinics (25.4), followed by inpatient and outpatient care (10.5) and medical practices (8.7). Again, the majority of workers who died because of COVID-19 come from clinics or in- and outpatient care (n = 22, or 28.6% each). The third most affected sector are facilities for occupational rehabilitation and workplaces for people with disabilities (n = 12) (see work with disability in Figure 1). The rate of death per 100,000 FTW was as high as for clinics (2.9), though the hospitalization rate per FTW differed (0.2 versus 25.4).
Most claims concern nurses and nurses’ aides (68.8%), followed by physicians (5.4%) (Table 3). Disregarding “Other professions”, the confirmation rate was lowest in kindergarten teachers (73.6%) and highest in nurses and nurses’ aides (83.7%). Hospitalization most often concerns nurses and nurses’ aides (71.5%), followed by physicians (9.3%). The same is true for deaths resulting from COVID-19 (nurses and nurses’ aides 45.5%, physicians 15.6%).
With physicians and nurses, the odds for a claim concerning hospitalization increased compared to other HW (OR 2.4 and 1.4) (Table 4). For deaths, the odds increased for physicians (OR 1.9) and were lower for nurses (OR 0.4). The effect was statistically significant for nurses but only of borderline significance for physicians (95% CI 1.0–3.8, p = 0.06).

4. Discussion

COVID-19 has entirely changed the occupational occurrence of infections in Germany. In past years, roughly 800 to 1000 claims of infectious diseases subject to mandatory reporting were submitted to the BGW each year [19]. In the previous publication, which covered the first four months of the pandemic, the BGW had already received 4398 claims due to SARS-CoV-2 and COVID-19 which were subject to mandatory reporting. Eleven deaths and one hundred and fifty-one severe illnesses requiring hospitalization demonstrate the particular vulnerability of healthcare workers [20]. These numbers increased to 84,728 claims, 375 hospitalizations and 77 deaths. This means the number of claims increased more than the number of deaths (19 times versus 7 times for deaths and 2.5 times for hospitalizations). The steep increase of claims is well defined by the three pandemic waves in Germany. The first wave at the beginning of the pandemic was less severe than the second wave starting in October 2020 and the third wave starting in March 2021. The first wave had a maximum of 5000 new cases per day and the second and third waves a maximum of 25,000 and 20,000 per day. However, the different increase in claims compared to hospitalizations and deaths might indicate that more cases of less severe disease were reported. Two factors might explain this development. At the beginning of the pandemic, it was not clear under which terms COVID-19 would be accepted as an OD. This became clearer with a publication explaining the conditions under which COVID-19 is recognized as an OD [23]. Probably more importantly, only during the course of 2020 did it become evident that long-lasting illness can occur even after a light case of the acute infection [24]. Therefore, milder forms of the infection might have been reported to make sure that, in case symptoms occur later, the infection is registered.
The relatively low proportion of severe illness (hospitalization) after COVID-19 (0.4%) can possibly be explained not only by the increased availability of tests but by the fact that our data covers the working age population and younger people, who exhibit severe progressions less frequently than older people [25,26]. However, this could also be explained by the fact that cases are discovered more actively for health workers, in the context of contact tracing or occupational medical check-ups. As a result, cases are discovered which would not have been found otherwise due to a lack of symptoms. After tests became available in Germany at the beginning of the pandemic, HW were tested after they had known contact to COVID-19 patients or when they showed symptoms of COVID-19. It was only in autumn 2020 that employers were obligated to offer regular testing to all workers, regardless of whether they had known contact to COVID-19 patients at the workplace. Though the number of tests performed in the different health and welfare sectors is not available, it is safe to assume that HW in hospitals and nursing homes were tested more frequently than other HW since hospitals and nursing homes were of particular concern. Therefore, the increased number of workers’ compensation claims by HW in hospitals and nursing homes is partly explained by the higher number of tests performed and the resulting higher diction rate of SARS-CoV-2 infection that might have been unnoticed without the regular testing. However, the high number of COVID-19 cases treated in hospitals and the high number of older people infected in nursing homes are a cause of the high infection risk of hospital and nursing home workers. By now, more than 275,000 COVID-19 cases have been treated in hospitals [27]; 132,952 infections were identified in older people over the course of 4937 outbreaks in nursing homes and the resulting contact tracing [28].
Most of the burden of the disease is carried by nurses or nurses’ aides as well as physicians, in terms of both the number of claims and the number of deaths. However, a wide range of other occupations is also concerned. Surprisingly, the rate of accepted claims does not differ much between the different sectors, most likely because workers in all the sectors covered by BGW have close contact to patients or clients. In addition, it should be noted that claims are filed when an OD is suspected and the legal aspects have been taken into account.
Differences between the HW groups in the proportion of claims concerning hospitalization or death might be explained by different screening strategies, or by the varying degree of likelihood that they will file a workers’ compensation claim. However, the higher intensity and frequency of exposure for nurses and physicians might also increase the probability of a severe cause of the disease. In a Swedish study comprising 9500 workers, subjects with high amounts of SARS-CoV-2 virus, as indicated by the cycle threshold (Ct) value in the PCR, had the highest risk for sick leave in the two weeks following testing (OR 11.97 (CI 95% 6.29–22.80)) [29]. However, in a study by Chien et al., it was not confirmed that close contact to an infectious person, e.g., in a household, increases the probability of a high virus load [30].
This analysis is based on workers’ compensation claims relating to COVID-19 in health and welfare workers. In the literature, there are several additional studies available that use secondary data from claim statistics. In the Czech Republic, 150 cases of COVID-19 were recognized as occupational diseases in 2020; of these, 148 were cases in the health and social care sector. By contrast, of 732,202 COVID-19 cases that were registered by December 2020 in the Czech Republic, 34% had work-related contacts [31]. This indicates a large gap between work-related infection risk and recognition as ODs. However, according to the authors, a number of delays exist between the process of recognition of occupational diseases and their entry into the statistics, meaning that a significant proportion of the cases of occupational diseases that are detected in 2020 will be included in the 2021 statistics.
Marinaccio et al. analyzed the workers’ compensation claims collected by the Italian Workers’ Compensation Authority (INAIL) [32]. In the period of March–October 2020, 65,804 compensation claims for COVID-19 were collected by INAIL. The ratio between compensation claim applications and COVID-19 cases in the general population decreased from 20% in March–April to 3–4% in September–October. Most claims concern nurses and paramedics; physicians follow in fourth place. The number of recognized OD is not given. Given the smaller population size, the number of claims in Italy is comparable to the number of claims in Germany. In another analysis from this working group, it is estimated that about 19% of all COVID-19 cases are work-related. The sectors with the highest burden are health and social work; however, occupational compensation claims were also made by meat and poultry processing plant workers, store clerks, postal workers, pharmacists and cleaning workers [33].
Bernacki et al. analyzed about 2000 COVID-19 workers’ compensation claims from 11 states in the U.S. Health and social workers filed 84% of these claims [34]. The proportion of COVID-19-related claims to all claims was as high as 32% in April 2020 and declined to 7% in August 2020. The difficulties that can arise from evaluating workers’ compensation claims related to COVID-19 are detailed by Hayman et al. COVID-19 is a multi-organ disease and assessment of the long-term consequences depends on the organs affected [35]. In addition, as the authors point out, recognition of a claim as an OD depends on the legislation of the different states. Guthrie et al. indicate that the number of workers’ compensation claims due to COVID-19 is low in Australia so far; however, a spike in claims in areas such as geriatric care and the medical and allied professions is expected [36]. This might give rise to legal and practical questions concerning workers’ compensation.
The data presented here do have some limitations. The data of accident insurance provider BGW, generated in view of the reporting obligations of the Occupational Disease Ordinance (Berufskrankheitenverordnung), is likely subject to underreporting. A disease which causes only mild symptoms for a few days might not be reported because the insurance will not grant any compensation for this disease. In addition, only half of the work-related infections in Germany pertain to HW covered by the BGW [23]. Therefore, the numbers of claims of an OD because of COVID-19 should roughly be doubled for an estimate of the real number of affected health and social workers in Germany. However, it should be borne in mind that due to the complicated nature of the disease, COVID-19 is preferably treated in large hospitals with the corresponding expertise [37]. Though a large number of hospital workers (>80%) covered by the BGW work in hospitals with more than 800 HW, in Germany, large hospitals tend to be public and therefore covered by government insurance. Thus, the number of hospital workers affected might even be higher than estimated in this paper. In addition, it should be borne in mind that the particular OD for infection diseases covers health and welfare workers but not most other workers. For other workers, a work-related infection can be compensated as a workplace accident. However, it will be difficult to show that a bus driver, for example, was infected by a passenger, even though in literature an increased infection risk for transportation workers is reported [16]. This is also true for other essential workers who cannot protect themselves by working at home or at a distance; they have an increased infection risk [38]. Short of an outbreak situation, they will have difficulty proving that the source of the infection was at the workplace. Therefore, the burden of infection for workers might be underestimated during the pandemic. As the vaccination campaigns progress not only in HWs, this problem will be mitigated in the near future [39].

5. Conclusions

Following the presented data, 53,472 cases of COVID-19 in health and welfare workers have been confirmed as OD by the BGW in Germany. The real number is likely to increase since not all claims have been assessed yet and new claims are still being filed—although a high number of HW and social workers are now vaccinated in Germany. These high numbers demonstrate the importance of preparedness for the next pandemic, and indicate that long-term effects of COVID-19 in workers should be monitored closely.

Funding

No funds were received for this work.

Institutional Review Board Statement

Not applicable.

Informed Consent Statement

Not applicable.

Data Availability Statement

The data are available from the author upon request.

Acknowledgments

We would like to thank BGW’s administrators who enter the data on COVID-19 cases in the BK-DOC. In addition, we are grateful to all health and social workers who continue to provide health and social care despite the risk of infection and psychological stress.

Conflicts of Interest

The research work on CVcare at University Medical Center Hamburg-Eppendorf (UKE) is primarily funded by the BGW. The BGW exercises no influence on the publication of research results.

References

  1. Kuster, S.P.; Coleman, B.L.; Raboud, J.; McNeil, S.; De Serres, G.; Gubbay, J.; Hatchette, T.; Katz, K.C.; Loeb, M.; Low, D.; et al. Working Adult Influenza Cohort Study Group. Risk factors for influenza among health care workers during 2009 pandemic, Toronto, Ontario, Canada. Emerg. Infect. Dis. 2013, 19, 606–615. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  2. Lietz, J.; Westermann, C.; Nienhaus, A.; Schablon, A. The Occupational Risk of Influenza A (H1N1) Infection among Healthcare Personnel during the 2009 Pandemic: A Systematic Review and Meta-Analysis of Observational Studies. PLoS ONE 2016, 11, e0162061. [Google Scholar] [CrossRef]
  3. Ho, P.L.; Becker, M.; Chan-Yeung, M.M. Emerging occupational lung infections. Int. J. Tuberc. Lung. Dis. 2005, 11, 710–721. [Google Scholar]
  4. Poon, L.L.; Guan, Y.; Nicholls, J.M.; Yuen, K.Y.; Peiris, J.S. The aetiology, origins and diagnosis of severe acute respiratory syndrome. Lancet Infect. Dis. 2004, 4, 663–671. [Google Scholar] [CrossRef] [Green Version]
  5. Lee, N.; Hui, D.; Wu, A.; Chan, P.; Cameron, P.; Joynt, G.M.A.; Ahuja, A.; Yung, M.Y.; Leung, C.B.; To, K.F.; et al. Major outbreak of severe acute respiratory syndrome in Hong Kong. N. Engl. J. Med. 2003, 348, 1986–1994. [Google Scholar] [CrossRef]
  6. Booth, C.M.; Matukas, L.M.; Tomlinson, G.A.; Rachlis, A.R.; Rose, D.B.; Dwosh, H.A.; Walmsley, S.L.; Mazzulli, T.; Avendano, M.; Derkach, P.; et al. Clinical features and short term outcomes of 144 patients with SARS in the Greater Toronto Area. JAMA 2003, 289, 2801–2809. [Google Scholar] [CrossRef] [Green Version]
  7. Oraby, T.; Tyshenko, M.G.; Balkhy, H.H.; Tasnif, Y.; Quiroz-Gaspar, A.; Mohamed, Z.; Araya, A.; Elsaadany, S.; Al-Mazroa, E.; Alhelail, M.A.; et al. Analysis of the Healthcare MERS-CoV Outbreak in King Abdulaziz Medical Center, Riyadh, Saudi Arabia, June–August 2015 Using a SEIR Ward Transmission Model. Int. J. Environ. Res. Public Health 2020, 17, 2936. [Google Scholar] [CrossRef] [PubMed]
  8. Lai, X.; Wang, M.; Qin, C.; Tan, L.; Ran, L.; Chen, D.; Zhang, H.; Shang, K.; Xia, C.; Wang, S.; et al. Coronavirus Disease 2019 (COVID-2019) Infection among Health Care Workers and Implications for Prevention Measures in a Tertiary Hospital in Wuhan, China. JAMA Netw. Open 2020, 3, e209666. [Google Scholar] [CrossRef] [PubMed]
  9. Bandyopadhyay, S.; Baticulon, R.E.; Kadhum, M.; Alser, M.; Ojuka, D.K.; Badereddin, Y.; Kamath, A.; Parepalli, S.A.; Brown, G.; Iharchane, S.; et al. Infection and mortality of healthcare workers worldwide from COVID-19: A systematic review. BMJ Glob. Health 2020, 5, e003097. [Google Scholar] [CrossRef]
  10. Airoldi, C.; Patrucco, F.; Milano, F.; Alessi, D.; Sarro, A.; Rossi, M.A.; Cena, T.; Borrè, S.; Faggiano, F. High Seroprevalence of SARS-CoV-2 among Healthcare Workers in a North Italy Hospital. Int. J. Environ. Res. Public Health 2021, 18, 3343. [Google Scholar] [CrossRef]
  11. Galán, I.; Velasco, M.; Casas, L.; Goyanes, J.; Rodríguez-Caravaca, G.; Losa-García, J.E.; Noguera, C.; Castilla, V.; Algora Weber, A.; Alonso Punter, J.C.; et al. Hospital-Wide SARS-CoV-2 seroprevalence in health care workers in a Spanish teaching hospital. Enferm. Infecc. Microbiol. Clín. 2020. [Google Scholar] [CrossRef]
  12. Platten, M.; Cranen, R.; Peters, C.; Wisplinghoff, H.; Nienhaus, A.; Bach, A.D.; Michels, G. Prevalence of SARS-CoV-2 in employees of a general hospital in Northrhine-Westphalia, Germany. Dtsch. Med. Wochenschr. 2021, 146, e30–e38. [Google Scholar] [CrossRef]
  13. Möhner, M.; Wolik, A. Differences in COVID-19 Risk Between Occupational Groups and Employment Sectors in Germany. Dtsch. Ärzteblatt Int. 2020, 117, 641–642. [Google Scholar] [CrossRef] [PubMed]
  14. Shah, A.S.V.; Wood, R.; Gribben, C.; Caldwell, D.; Bishop, J.; Weir, A.; Kennedy, S.; Reid, M.; Smith-Palmer, A.; Goldberg, D.; et al. Risk of hospital admission with coronavirus disease 2019 in healthcare workers and their households: Nationwide linkage cohort study. BMJ 2020, 371, m3582. [Google Scholar] [CrossRef]
  15. Krastinova, E.; Garrait, V.; Lecam, M.-T.; Coste, A.; Varon, E.; Delacroix, I.; Ali, A.S.; Jung, C.; Smati, M.; Cherbit, M.; et al. Household transmission and incidence of positive SARS-CoV-2 RT-PCR in symptomatic healthcare workers, clinical course and outcome: A French hospital experience. Occup. Environ. Med. 2021, 78, 479–485. [Google Scholar] [CrossRef]
  16. Mutambudzi, M.; Niedzwiedz, C.; Macdonald, E.B.; Leyland, A.; Mair, F.; Anderson, J.; Celis-Morales, C.; Cleland, J.; Forbes, J.; Gill, J.; et al. Occupation and risk of severe COVID-19: Prospective cohort study of 120 075 UK Biobank participants. Occup. Environ. Med. 2021, 78, 307–314. [Google Scholar] [CrossRef] [PubMed]
  17. Zhang, M. Estimation of differential occupational risk of COVID-19 by comparing risk factors with case data by occupational group. Am. J. Ind. Med. 2021, 64, 39–47. [Google Scholar] [CrossRef] [PubMed]
  18. Gholamia, M.; Fawada, I.; Shadana, S.; Rowaieea, R.; Ghanema, H.A.; Khamisb, A.H.; Hoa, S.B. COVID-19 and healthcare workers: A systematic review and meta-analysis. Int. J. Infect. Dis. 2021, 104, 335–346. [Google Scholar] [CrossRef]
  19. Nienhaus, A. Infections in Healthcare Workers in Germany—22 Year Time Trends. Int. J. Environ. Res. Public Health 2018, 15, 2656. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  20. Nienhaus, A.; Hod, R. COVID-19 among Health Workers in Germany and Malaysia. Int. J. Environ. Res. Public Health 2020, 17, 4881. [Google Scholar] [CrossRef]
  21. Ministry of Work (Bundesministerium für Arbeit—BMA). Merkblatt zur BK Nr. 3101: Infektionskrankheiten, Wenn der Versicherte im Gesundheitsdienst, in der Wohlfahrtspflege oder in Einem Laboratorium Tätig Oder Durch eine Andere Tätigkeit der Infektionsgefahr in Ähnlichem Maße Besonders Ausgesetzt war Merkblatt für die Ärztliche Untersuchung. (Bek. des BMA v. 1.12.2000, BArbBl. 1/2001, S. 35). Available online: https://www.baua.de/DE/Angebote/Rechtstexte-und-Technische-Regeln/Berufskrankheiten/pdf/Merkblatt3101.pdf?__blob=publicationFile&v=3 (accessed on 23 June 2021).
  22. Nowak, D.; Ochmann, U.; Brandenburg, S.; Nienhaus, A.; Woltjen, M. COVID-19 as an occupational disease or work-related accident: Considerations regarding insurance cover and reporting obligation in the statutory accident insurance (article in German). Dtsch Med. Wochenschr. 2021, 146, 198–204. [Google Scholar] [CrossRef]
  23. Kersten, J.F.; Nienhaus, A.; Schneider, S.; Schablon, A. Tuberculosis among Health Workers—A Secondary Data Analysis of German Social Accident Insurance Data from 2002–2017. Int. J. Environ. Res. Public Health 2020, 17, 1564. [Google Scholar] [CrossRef] [Green Version]
  24. Haverall, S.; Rosell, A.; Phillipson, M.; Mangsbo, S.M.; Nilsson, P.; Hober, S.; Thalin, C. Symptoms and Functional Impairment Assessed 8 Months After Mild COVID-19 Among Health Care Workers. JAMA 2021, 325, 2015–2016. [Google Scholar] [CrossRef]
  25. Levin, A.T.; Hanage, W.P.; Owusu-Boaitey, N.; Cochran, K.B.; Walsh, S.P.; Meyerowitz-Katz, G. Assessing the age specificity of infection fatality rates for COVID-19: Systematic review, meta-analysis, and public policy implications. Eur. J. Epidemiol. 2020, 35, 1123–1138. [Google Scholar] [CrossRef] [PubMed]
  26. Romero Starke, K.; Petereit-Haack, G.; Schubert, M.; Kämpf, D.; Schliebner, A.; Hegewald, J.; Seidler, A. The Age-Related Risk of Severe Outcomes Due to COVID-19 Infection: A Rapid Review, Meta-Analysis, and Meta-Regression. Int. J. Environ. Res. Public Health 2020, 17, 5974. [Google Scholar] [CrossRef] [PubMed]
  27. Robert Koch Institut (RKI). Täglicher Lagebericht des RKI zur Corona-Virus-Krankheit 2019 (COVID-19). 10.08.2021—Aktualisierter Stand für Deutschland. [Daily Report of the RKI about COVID-19]. 2021. Available online: https://www.rki.de/DE/Content/InfAZ/N/Neuartiges_Coronavirus/Situationsberichte/Jan_2021/2021-01-13-de.pdf?__blob=publicationFile (accessed on 7 July 2021).
  28. RKI Robert Koch Institut (RKI). Aktuelle Daten und Informationen zu Infektionskrankheiten und Publik Health [Actual Data and Information on Infections and Public Health]. Epidemiol. Bull. 2021. Available online: https://www.rki.de/DE/Content/Infekt/EpidBull/Archiv/2021/Ausgaben/07_21.pdf?__blob=publicationFile (accessed on 7 July 2021).
  29. Dillner, J.; Elfström, K.M.; Blomqvist, J.; Engstrand, L.; Uhlén, M.; Eklund, C.; Boulund, F.; Lagheden, C.; Hamsten, M.; Nordqvist-Kleppe, S.; et al. High Amounts of SARS-CoV-2 Precede Sickness Among Asymptomatic Health Care Workers. J. Infect. Dis. 2021, 224, 14–20. [Google Scholar] [CrossRef]
  30. Chien, A.; Domeracki, S.; Guntur, S.; Taylor, K.; Lu, C.M.; Lampiris, H.; Blanc, P.D. Association between household exposure and cycle threshold in COVID-19 infected health care workers. J. Occup. Med. Toxicol. 2021, 16, 29. [Google Scholar] [CrossRef]
  31. Tuček, M. COVID-19 in the Czech Republic 2020: Probable transmission of the coronavirus SARS-CoV-2. Cent Eur. J. Public Health 2021, 29, 159–161. [Google Scholar] [CrossRef]
  32. Marinaccio, A.; Brusco, A.; Bucciarelli, A.; Silvia D’Amario, S.; Iavicoli, S. Temporal trend in the compensation claim applications for work-related COVID-19 in Italy. Med. Lav. 2021, 112, 219–228. [Google Scholar] [CrossRef]
  33. Marinaccio, A.; Boccuni, F.; Rondinone, B.M.; Brusco, A.; D’Amario, S.; Iavicoli, S. Occupational factors in the COVID-19 pandemic in Italy: Compensation claims applications support establishing an occupational surveillance system. Occup. Environ. Med. 2020, 77, 818–821. [Google Scholar] [CrossRef] [PubMed]
  34. Bernacki, E.J.; Hunt, D.L.; Yuspeh, L.; Lavin, R.A.; Kalia, N.; Leung, N.; Tsourmas, N.F.; Williams, L.; Tao, X.G. What Industrial Categories Are Workers at Excess Risk of Filing a COVID-19 Workers’ Compensation Claim? A Study Conducted in 11 Midwestern US States. J. Occup. Environ. Med. 2021, 63, 374–380. [Google Scholar] [CrossRef] [PubMed]
  35. Hyman, M.H.; Talmage, J.B.; Hegmann, K.T. Evaluating Covid-19 Injury Claims with a Focus on Workers’ Compensation. JOEM 2021, 62, 692–699. [Google Scholar] [CrossRef]
  36. Guthrie, R.; Aurbach, R.; Ciccarelli, M. Workers’ Compensation, Return to Work, Behavioural Health and COVID-19 in Australia. J. Law Med. 2021, 28, 546–566. [Google Scholar]
  37. RWI—Leibniz-Institut für Wirtschaftsforschung Technische Universität Berlin. Projektreport: Analysen zum Leistungsgeschehen der Krankenhäuser und zur Ausgleichspauschale in der Corona-Krise [Project Report: Analysis of the Performance of Hospitals and Compensation Payment during the Pandemic]; RWI: Essen, Germany, 2021; Available online: https://www.bundesgesundheitsministerium.de/fileadmin/Dateien/3_Downloads/C/Coronavirus/Analyse_Leistungen_Ausgleichszahlungen_2020_Corona-Krise.pdf (accessed on 7 July 2021).
  38. Baker, M.G.; Peckham, T.K.; Seixas, N.S. Estimating the burden of United States workers exposed to infection or disease: A key factor in containing risk of COVID-19 infection. PLoS ONE 2020, 15, e0232452. [Google Scholar] [CrossRef]
  39. Kozak, A.; Nienhaus, A. COVID-19 Vaccination: Status and Willingness to Be Vaccinated among Employees in Health and Welfare Care in Germany. Int. J. Environ. Res. Public Health 2021, 18, 6688. [Google Scholar] [CrossRef] [PubMed]
Ijerph 18 09185 g001 550
Figure 1. Number of occupational diseases (OD) due to COVID-19 per 1000 full-time workers (FTW) by sector.
Figure 1. Number of occupational diseases (OD) due to COVID-19 per 1000 full-time workers (FTW) by sector.
Ijerph 18 09185 g001
Table
Table 1. COVID-19 cases reported to accident insurance provider BGW and confirmed occupational disease (OD) by sector.
Table 1. COVID-19 cases reported to accident insurance provider BGW and confirmed occupational disease (OD) by sector.
SectorClaimsAssessedConfirmed OD
n% an% bn% c
Clinics31,81837.626,46283.222,25684.1
Inpatient and outpatient care33,45839.525,54576.420,89181.8
Medical practices26703.2181768.1139876.9
Dental practices3500,416747.710562.9
Therapeutic practices10691.361857.844972.7
Veterinary practices80.01----
Care and counseling78929.3582673.8462279.3
Pharmacy1120.17264.34258.3
Hair salons, beauty490.061326.5753.9
Childcare37604.4244965.1182074.3
Schools, education3370.424071.216769.6
Occupational rehab and workplaces for people with disabilities23582.8187979.71.24666.3
Administration8271.058270.445578.2
Others250.31560.01386.7
Total84,728100.065,69377.553,47281.4
a Percentage of all reportable cases. b Percentage of all cases reported within the sector. c Percentage of all cases with a decision (assessment) within the sector.
Table
Table 2. Hospitalization or death of COVID-19 cases reported to accident insurance provider BGW by sector.
Table 2. Hospitalization or death of COVID-19 cases reported to accident insurance provider BGW by sector.
SectorHospitalizationsHospitalizations/
100,000 FTW *		DeathsDeaths/
100,000 FTW
n%n%
Clinics19652.325.42228.62.9
Inpatient and outpatient care10528.010.52228.62.2
Medical practices4211.28.7810.41.7
Dental practices10.30.4---
Therapeutic practices61.63.133.91.1
Care and counseling205.32.767.80.8
Pharmacy10.30.711.30.7
Hair salons, beauty10.30.511.30.5
Childcare10.30.211.30.2
Schools, education---11.31.3
Occupational rehab and workplaces for people with disabilities10.30.21215.62.9
Administration10.30.9---
Others------
Total375100.07.477100.01.5
* FTW = full time workers.
Table
Table 3. COVID-19 cases reported to accident insurance provider BGW broken down by profession.
Table 3. COVID-19 cases reported to accident insurance provider BGW broken down by profession.
ProfessionClaimsAssessedConfirmedHospitalizedDeaths
n% an% bn% cn% an% a
Physicians45475.4375182.5304481.2359.31215.6
Nurses, nurses’ aides58,29668.846,25979.438,70583.726871.53545.5
Medical assistant35484.2255171.9198777.9369.622.6
Physiotherapist13901.6100372.283283.082.111.3
Social worker32563.9241374.1179074.241.122.6
Kindergarten teacher42805.1280965.6206873.651.311.3
Housekeeping, Cleaning29773.5219873.8167176.051.356.5
Other64347.6470973.2337571.7143.71924.7
Total84,728100.065,69377.553,47281.4375100.077100.0
a Percentage of all reportable cases, all hospitalized or all deaths. b Percentage of all cases reported within the sector. c Percentage of all cases with a decision (assessment) within the sector.
Table
Table 4. Workers’ compensation claims concerning hospitalization and death with odds ratios (OR) and confidence interval (CI) broken down by nurses, physicians and other health workers (HW).
Table 4. Workers’ compensation claims concerning hospitalization and death with odds ratios (OR) and confidence interval (CI) broken down by nurses, physicians and other health workers (HW).
ProfessionHospitalizedDeaths
YesNoOR (95%CI)YesNoOR (95%CI)
Other HW7221,813-3021,783-
Physicians3545072.4 (1.6–3.5)1245351.9 (1.0–3.8)
Nurses26858,0281.4 (1.1–1.8)3558,2610.4 (0.3–0.7)
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Nienhaus, A. COVID-19 among Health Workers in Germany—An Update. Int. J. Environ. Res. Public Health 2021, 18, 9185. https://doi.org/10.3390/ijerph18179185

AMA Style

Nienhaus A. COVID-19 among Health Workers in Germany—An Update. International Journal of Environmental Research and Public Health. 2021; 18(17):9185. https://doi.org/10.3390/ijerph18179185

Chicago/Turabian Style

Nienhaus, Albert. 2021. "COVID-19 among Health Workers in Germany—An Update" International Journal of Environmental Research and Public Health 18, no. 17: 9185. https://doi.org/10.3390/ijerph18179185

APA Style

Nienhaus, A. (2021). COVID-19 among Health Workers in Germany—An Update. International Journal of Environmental Research and Public Health, 18(17), 9185. https://doi.org/10.3390/ijerph18179185

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop