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Article

The Use of Interdental Care Products in Korean Adults Aged 30 Years and Older and Factors Affecting Their Use: 4th to 7th Korean National Health and Nutrition Examination Survey

by
Su-Jin Han
Department of Dental Hygiene, College of Health Science, Gachon University, 191 Hambakmoero, Yeonsu-gu, Incheon 21936, Korea
Int. J. Environ. Res. Public Health 2022, 19(14), 8639; https://doi.org/10.3390/ijerph19148639
Submission received: 6 June 2022 / Revised: 11 July 2022 / Accepted: 14 July 2022 / Published: 15 July 2022
Versions Notes

Abstract

:
This study aimed to review the use of interdental care products (ICPs) among adults in Korea, reconfirm their relevance to periodontal health, and identify factors affecting the use of ICPs. Data from 2007 to 2018 from the National Health Nutrition Survey (KNHANES) were used, and 43,069 adults (18,412 men, 24,657 women) aged 30 years or older were included. The frequency and percentage of ICP use according to the characteristics of the subjects are presented. In addition, multivariate logistic regression analysis identified the factors affecting ICP use. The ICP usage rate of participants in the KNHANES phase gradually increased to 22.8% in the 4th, 26.4% in the 5th, and 38.0% in the 6th phase and then decreased to 36.3% in the 7th phase. The adjusted OR values for periodontal health in ICP users were 0.721 for gingivitis and 0.642 for periodontitis, confirming that ICP was associated with a lower prevalence of these conditions. Sex, age, educational level, household income, toothbrushing, and dental check-ups were related to ICP use in all phases. ICP was associated with improved periodontal health, but its use rate was very low. Therefore, oral health professionals should educate adults on the use of ICP, particularly interdental brushing.

1. Introduction

According to the Global Burden of Disease 2015 study [1], oral health has not improved over the past 25 years, and as the cumulative burden of oral diseases has rapidly increased owing to demographic changes, including population growth and aging, oral disease is a major public health problem worldwide. Similarly, in South Korea, the total amount of health care insurance benefits due to gingivitis and periodontal disease ranked first in both 2019 and 2020 [2], and the massive economic burden caused by periodontal disease was confirmed.
Periodontal diseases are chronic inflammatory plaque biofilm-related conditions which affect tooth-support structures, leading to tooth loss, and may contribute to systemic inflammation [3,4,5]. Maintaining healthy oral hygiene by effectively removing bacterial plaque from the tooth surface is fundamentally important for the prevention of periodontal disease [4]. Since the effect of reducing the dental biofilm through toothbrushing is only 42% [6], many researchers recommend using an interdental care product (ICP) such as dental floss (DF) or interdental brush (IDB) to clean the proximal space once a day in addition to toothbrushing [7,8]. Direct evidence for an association between interdental cleaning and low periodontal disease in the adult population is still considered weak [9,10]. However, researchers [11] argue that weak evidence should not be construed as ineffective.
According to a meta-analysis on the relationship between the use of ICPs such as DF or IDB and oral health, the use of DF or IDB can contribute to the reduction in gingivitis and dental biofilm compared with brushing alone [12,13]. A recent study reported that toothbrushing and proximal cleaning increase oral health benefits by reducing the risk of periodontitis [14].
The Korea National Health Nutrition Survey (KNHANES), conducted every year in Korea, surveys the frequency of brushing and whether oral care products are used but does not report the results on the usage rate of each product. A previous study [15] reported the changes in oral care product use in 2000, 2003, and 2006 using this data. The use of oral care products by Korean adults confirms that the rate of ICP use is very low, unlike the general practice of brushing teeth more than twice a day. However, after that, only fragmentary data has been reported [16], and no reports had been published on the status of this issue until recently.
Therefore, in this study, the usage of ICPs among Korean adults in a period of 12 years, from 2007 to 2018, was investigated using data from the KNHANES. After confirming the relationship between the use of ICPs and periodontal health, we attempted to identify the factors affecting the use of each product. Through this study, we intend to provide the basic data necessary to recommend and disseminate the use of ICPs to maintain and promote periodontal health.

2. Materials and Methods

2.1. Study Design

This study used data collected from the 4th to 7th KNHANES (2007–2018) [17,18,19,20]. Administered by the Korea Centers for Disease Control and Prevention (KCDC), the KNHANES is a cross-sectional survey conducted, targeting civilians over the age of 1, and was conducted every three years from the 1st (1998) to 3rd (2005) period. Since then, it has been reorganised into a year-round survey system and has been conducted every year from the 4th period (2007–2009) to the present [21]. The KNHANES is composed of three component surveys: a health interview, health examination, and a nutrition survey. Health interviews and examinations were performed by trained medical staff and interviewers at the mobile examination centre [22]. The KNHANES sampling protocol was designed to include complex, stratified, multistage, and probability cluster surveys of representative samples of the non-institutionalised civilian population of Korea. The CDC Research Ethics Review Board approved the KNHANES protocol and all participants provided written informed consent for participation. For this study, 54,804 adults aged 30 years or older were initially selected from the KNHANES 2007–2018 participants (total of 81,324), excluding 2011 unpublished data (n = 8518) and data for participants under the age of 30 (n = 26,520). Among them, 43,069 people who had all the information on oral health, general health, and health behaviour were the final study subjects.

2.2. Assessment of Periodontal Status

The periodontal status of the participants was evaluated using the Community Periodontal Index (CPI), in accordance with the World Health Organization (WHO) guidelines [23]. The CPI codes were classified as follows: 0, normal periodontal tissue; 1, presence of gingival bleeding; 2, presence of calculus; 3, presence of a 4–5 mm pocket; and 4, presence of a ≥6 mm pocket. In this study, periodontal status was classified with a CPI score of 0 as healthy, 1–2 as gingivitis, and 3–4 as periodontitis. According to standardized protocols, oral examinations were performed by trained dentists [21].

2.3. Assessment of the Use of ICPs

The use of ICPs was assessed using the validated Korean version of the Oral Health Questionnaire. The main question was, “Please select all products that you use for your oral health except toothpaste and toothbrush.” The questionnaire did not include specific questions about the frequency or duration of ICP use, thus, this factor was classified only according to whether it was used or not. Individuals using one or more DF or IDB were classified as ICP use. In addition, to check the results according to the type of DF and IDB use, each product was divided into use and non-use categories.

2.4. Assessment of Confounding Factors

In this study, risk factors for periodontal disease reported in previous studies [24,25] were considered confounders. Sociodemographic factors included sex, age, education, household income, and residence. Age was classified into six groups: 30–39, 40–49, 50–59, 60–69, 70–79, and ≥80 years. Education level was divided into below high school and above college. Household income was classified into four groups: low, middle-low, middle-high, and high. The residential area was classified as rural and urban. The personal health behaviours included in the analysis were smoking status, toothbrushing frequency, and check-up within the last year. The daily frequency of toothbrushing was categorised as one or less, twice, and three or more times. The systematic medical factors included in the analysis were diabetes mellitus, hypercholesterolaemia, hypertension, and obesity. With respect to diabetes mellitus, participants were classified as normal (<100 mg/dL), impaired fasting glucose (100–125 mg/dL), and diabetic (≥126 mg/dL or taking medication or injecting insulin). Hypercholesterolaemia was defined as a total plasma cholesterol level of ≥240 mg/dL or use of medication. Hypertension was classified into three groups: normal (systolic blood pressure (SBP) < 120 mmHg and diastolic blood pressure (DBP) < 80 mmHg), pre-hypertension (120 ≤ SBP < 140 mmHg and 80 ≤ DBP < 90 mmHg), and hypertension (SBP ≥ 140 mmHg or DBP ≥ 90 mmHg or on antihypertensive medication). Obesity was classified into five groups based on the body mass index value according to the guidelines of the Korean Society for the Study of Obesity [26] and the WHO Asia-Pacific Guideline [27] criteria: <18.5 kg/m2, 18.5–22.9 kg/m2, 23.0–24.9 kg/m2, 25.0–29.9 kg/m2, and 30.0 kg/m2.

2.5. Statistical Analysis

Complex sample analysis was conducted using stratification variables, random, cluster, and weights for all analyses. The first multivariable logistic regression analysis was performed to analyse the association between periodontal status and ICP use and was performed by each KNHANES period. The regression model was adjusted for sociodemographic factors (age, sex, household income, education level, and residence area), personal health practice variables (smoking, toothbrushing, and dental check-up), and systematic medical factors (diabetes mellitus, hypercholesterolemia, hypertension, and obesity). Subsequently, multivariate logistic regression analyses were performed for each phase of the KNHANES to identify factors affecting the use of ICP. In addition, the factors affecting flossing and the use of IDB were identified using the 7th KNHANES data. The explanatory variables were socioeconomic and individual health behaviour variables adjusted for systematic medical factor variables. Data analysis was conducted using IBM SPSS ver. 26.0 (IBM Co., Armonk, NY, USA), and statistical significance was determined at α = 0.05.

3. Results

3.1. Characterisation of the Study Population According to KNHANES Phase

In total, 43,069 Korean adults (18,412 men and 24,657 women) were included in this study. Of these, 25.2% were healthy without periodontal disease, 34.2% had periodontitis (CPI 3–4), and 40.6% had gingivitis (CPI 1–2) (Table 1).

3.2. Characteristics of Those Using Floss and/or Interdental Brushes According to the KNHANES Period

The ICP user rate of the subjects increased to 22.8% in the 4th period, 26.4% in the 5th period, and 38.0% in the 6th period and then decreased to 36.3% in the 7th period. The DF user rate was 12.9% in the 4th period, and it gradually increased thereafter; the use rate in the 7th period was 24.9%. The IDB user rate was 12.6% in the 4th period and 15.0% in the 5th period and increased to 21.2% in the 6th period but decreased to 18.7% in the 7th period (Table 2).

3.3. Association between the Use of ICPs and Periodontal Health Status

Table 3 shows the outcomes of the multivariable logistic regression analysis to confirm the relationship between the use of ICPs and periodontal health status. The adjusted OR values for the periodontal health status of the use of ICPs were found to be significantly lower for gingivitis 0.721 (95% CI: 0.676–0.770) and periodontitis 0.642 (95% CI: 0.597–0.690). As a result of subgroup analysis according to KNHANES stage, it was confirmed that the OR of gingivitis and periodontitis was significantly lower when ICP was used. These results were consistent across in all periods from the 4th to 7th phase.

3.4. Factors Associated with the Use of ICPs

Factors related to ICP were identified in each phase of the KNHANES. Table 4 shows the probabilities of using ICP, DF, and IDB among Korean adults in a multivariable logistic regression model using the subjects’ demographic characteristics and personal health practices as explanatory variables. The analysis revealed that all variables entered into the model were related to ICP use. Sex, age, educational background, income, brushing, and dental examination were related to ICP use at all phases from KNHANES 4th to 7th, and the association between residential area (5th, 6th) and smoking (4th, 6th) was partially confirmed. The factors affecting the use of DF and IDB were identified using data from the 7th period of the latest survey. The factors related to the probability of using DF were the same as those identified for ICP, and the factors related to the use of IDB were similar, except for the level of income.

4. Discussion

The results of this study support the hypothesis that the use of ICP is beneficial to periodontal health. However, ICP use among Korean adults is very infrequent. Oral health professionals must educate adults by constantly emphasising the necessity and importance of cleaning the interdental space in addition to toothbrushing. It is necessary to emphasise the use of IDB in this process.
Based on data from the KNHANES conducted from 2007 to 2018, we examined the status of ICP use among Korean adults over 30 years of age. Interdental cleaning is usually recommended once a day [4,28] or 2 to 4 times a week [29]. In this study, the ICP usage rate was evaluated only in terms of whether it was used or not, not the frequency of use. However, the rate was very low at 22.8%~38.0%, indicating that Korean adults’ ICP usage rate did not reach the recommended level. In particular, compared to the 68.1% of American adults who have been reported to use ICP [24], levels among Korean adults are only half.
According to the Cochrane Review [8], DF or ICP in addition to toothbrushing may reduce gingivitis, biofilm formation, or both more efficiently than toothbrushing alone. In a cohort study conducted in the United States [30], interdental cleaning was associated with a reduction in self-reported gingivitis, and several epidemiological studies [14,29] have also reported that interdental cleaning and the use of DF and IDB among various ICPs could reduce gingivitis and biofilm. In this study, it was also confirmed that when interdental cleaning was performed using one or more DF or IDB, the gingivitis OR decreased to 0.721 (95% CI: 0.676–0.770) and periodontitis OR decreased to 0.642 (95% CI: 0.597–0.690). These results were similar in all phases of the KNHANES. This result reconfirms the finding of previous studies that the use of ICPs is effective in improving the periodontal health of adults. Therefore, oral health experts should consider strategies to increase the use of ICPs.
The factors related to the use of ICP, including DF and IDB, were sex, age, education level, income, toothbrushing, and dental check-ups. The high probability of ICP use in women and high-income earners was similar to that reported in American adults [14], but the effect of smoking as a risk factor for periodontal health was only confirmed in some phases. In addition, the probability of daily interdental cleaning in American adults was found to be higher in the older age groups than in the group of subjects aged 30–44 years [14]. However, in this study, it was confirmed that the probability of using ICP significantly decreased as the age group increased compared to the age of 30–39 years. This trend was also similar to the results of each analysis of DF and IDB use. The use of ICP is essential for interdental cleaning, in particular for removing food residue that accumulates more when the interdental space is exposed because of gingival recession. Therefore, ageing increases the need for interdental cleaning for oral hygiene. However, the opposite trend was observed in Korean adults. Oral health professionals should recognise the responsibility of emphasising the importance of interdental care for middle-aged and older adults and actively guide them to select and use appropriate products.
Toothbrushing at least twice a day is generally recommended for good oral health [4]. However, the probability of using ICP was 1.394 times higher in subjects who brush three or more times than in those who brush only twice. Lee et al. [11] reported that the interaction effect for the prevention of gingivitis and periodontitis was large in subjects who brush three or more times combining toothbrushing with proximal cleaning. When planning an oral health education program, it is necessary to consider and reflect on these points.
It is not clear which product is more effective, DF or IDB, with respect to the effect of using ICPs; however, interdental brushing is effective in reducing interdental bleeding [31], and the effect of interdental brushing has been reported to be superior to that of DF [12]. In addition, previous reports have indicated that the use of IDB can contribute to alleviating periodontal health inequality [32,33]. In fact, it would be more beneficial for periodontal health to promote IDB rather than DF.
In general, flossing is recommended for narrow interdental areas, and interdental brushing is generally recommended for wide interdental areas. Therefore, an IDB may be more useful for adults aged 30 years or older. Therefore, the fact that less than 20% of adults over the age of 30 use IDB is a matter of serious concern.
This study had several limitations. First, since the KNHANES data used in this study are cross-sectional, it is difficult to prove a temporal causal relationship between the use of ICP and the relationship between periodontal health status and the factors influencing the use of ICP. Second, the KNHANES did not include information on periodic use, as only the experience of using each oral care product was inquired. Third, periodontal status was assessed using CPI. The CPI can overestimate or underestimate the prevalence of periodontitis because of the use of the 10 index teeth and the possibility of pseudo pockets [34]. Nevertheless, using a nationally representative sample, we confirmed the changes in the use of ICPs by Korean adults over the past 12 years, verified the need for increased use of ICP based on their relevance to periodontal health, and reviewed related factors.

5. Conclusions

In adults over 30 years of age, ICP use was associated with improved periodontal health, but their use rate was very low. Therefore, oral health professionals should actively recommend and educate adults on the use of ICP, and particularly interdental brushing.

Funding

This research received no external funding.

Institutional Review Board Statement

The CDC Research Ethics Review Board approved the KNHANES protocol (2007-02CON-04-P, 2008-04EXP-01-C, 2009-01CON-03-2C, 2010-02CON-21-C, 2012-01EXP-01-2C, 2013-07CON-03-4C, 2013-12EXP-03-5C, 2018-01-03-P-A). The KNHANES from 2015 to 2017 was carried out without deliberation by the Research Ethics Review Commit-tee, as it corresponds to the research conducted by the State for public welfare based on the Bio-ethics and Safety Act. From 2018, the research ethics review was restarted in consideration of the collection of human-derived materials and provision of raw data to a third party.

Informed Consent Statement

All participants provided written informed consent for participation.

Data Availability Statement

Publicly available datasets were analyzed in this study. These data can be found here: https://knhanes.kdca.go.kr/knhanes/sub03/sub03_02_05.do (accessed on 5 November 2021).

Acknowledgments

We acknowledge the Korea Disease Control and Prevention Agency (KDCA) for providing the data from the Korea National Health and Nutrition Examination Survey from 2007 to 2018 to be used in this study.

Conflicts of Interest

The author declares no conflict of interest.

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Table
Table 1. Characteristics of the study population according to KNHANES phase.
Table 1. Characteristics of the study population according to KNHANES phase.
Characteristic DivisionTotal4th (2007–2009)5th (2010–2012)6th (2013–2015)7th (2016–2018)
(N = 43,069)(N = 13,041)(N = 9122)(N = 10,720)(N = 10,186)
Periodontal statusHealthy (CPI 0)10,095 (25.2)2147 (17.3)2197 (24.4)2812 (26.6)2939 (30.4)
Gingivitis (CPI 1–2)17,739 (40.6)5694 (43.4)4240 (47.8)4108 (39.2)3697 (35.3)
Periodontitis (CPI 3–4)15,235 (34.2)5200 (39.3)2685 (27.8)3800 (34.2)3550 (34.2)
SexMale18,412 (46.7)5582 (49.8)3944 (49.8)4499 (48.2)4387 (41.2)
Female24,657 (53.3)7459 (50.2)5178 (50.2)6221 (51.8)5799 (58.8)
Age (years)30–399356 (24.4)3230 (29.2)2038 (26.8)2139 (25.3)1949 (18.7)
40–499725 (25.9)3160 (29.3)1969 (28.0)2340 (26.6)2256 (21.6)
50–599528 (23.3)2634 (21.1)2061 (23.4)2531 (24.7)2302 (23.8)
60–698284 (15.2)2369 (12.5)1748 (12.8)2180 (14.3)1987 (19.5)
70–795307 (9.3)1420 (6.7)1166 (7.8)1372 (8.1)1349 (13.2)
≥80869 (1.8)228 (1.2)140 (1.1)158 (1.0)343 (3.3)
Education≤High school29,704 (65.5)9794 (70.9)6403 (68.2)7223 (62.7)6284 (61.9)
≥College13,365 (34.5)3247 (29.1)2719 (31.8)3497 (37.3)3902 (38.1)
Household incomeLow8149 (16.0)2669 (15.4)1687 (15.6)1921 (14.3)1872 (17.9)
Middle low10,825 (24.8)3251 (24.5)2364 (27.1)2718 (24.3)2492 (24.2)
Middle high11,906 (29.1)3545 (29.4)2495 (28.7)2988 (30.2)2878 (28.2)
High12,189 (30.1)3576 (30.7)2576 (28.6)3093 (31.2)2944 (29.7)
Residence areaRural9391 (18.4)3538 (19.5)1951 (21.3)2081 (18.2)1821 (16.0)
Urban33,678 (81.6)9503 (80.5)7171 (78.7)8639 (81.8)8365 (84.0)
Current smokingYes8257 (21.9)2737 (25.5)1816 (25.8)1933 (22.3)1771 (16.7)
No34,812 (78.1)10,304 (74.5)7306 (74.2)8787 (77.7)8415 (83.3)
Toothbrushing frequency≤1/day5131 (10.9)1781 (12.3)1171 (12.6)1180 (10.4)999 (9.3)
2/day17,777 (40.5)5691 (43.4)4061 (44.8)4119 (37.6)3906 (38.0)
≥3/day20,161 (48.6)5569 (44.4)3890 (42.6)5421 (52.0)5281 (52.6)
Dental check-upYes13,019 (31.9)3718 (31.0)2185 (24.1)3322 (31.5)3794 (37.6)
No30,049 (68.1)9323 (69.0)6937 (75.9)7397 (68.5)6392 (62.4)
DiabetesNormal28,116 (65.6)9036 (70.2)6216 (69.5)6759 (64.5)6105 (60.7)
IFG10,106 (23.8)2751 (21.0)1966 (21.4)2689 (25.3)2700 (26.3)
Diabetes4847 (10.6)1254 (8.8)940 (9.1)1272 (10.2)1381 (13.1)
HypercholesterolemiaNormal35,568 (82.6)11,475 (88.9)7683 (85.5)8722 (83.5)7688 (75.3)
Hypercholesterolemia7501 (17.4)1566 (11.1)1439 (14.5)1998 (16.5)2498 (24.7)
HypertensionNormal20,951 (51.3)6686 (54.8)4133 (49.0)5324 (54.3)4808 (47.7)
Pre-hypertension7713 (17.7)2221 (16.1)1722 (18.8)1923 (17.5)1847 (18.2)
Hypertension14,405 (31.1)4134 (29.1)3267 (32.2)3473 (28.3)3531 (34.1)
Obesity, body mass index<18.51355 (3.1)436 (3.2)287 (3.1)320 (3.0)312 (3.1)
18.5–22.916,242 (37.7)4913 (37.2)3515 (37.5)4060 (38.0)3754 (37.8)
23–24.910,685 (24.7)3291 (25.3)2278 (24.5)2650 (24.6)2466 (24.5)
25–29.912,941 (30.0)3911 (30.4)2700 (30.6)3204 (29.7)3126 (29.7)
≥301846 (4.5)490 (3.9)342 (4.3)486 (4.8)528 (4.9)
Periodontal statusHealthy10,095 (25.2)2147 (17.3)2197 (24.4)2812 (26.6)2939 (30.4)
Gingivitis17,739 (40.6)5694 (43.4)4240 (47.8)4108 (39.2)3697 (35.3)
Periodontitis15,235 (34.2)5200 (39.3)2685 (27.8)3800 (34.2)3550 (34.2)
Data are presented as unweighted number (weighted %). IFG: Impaired fasting glucose.
Table
Table 2. Characteristics of dental floss and/or interdental brush users.
Table 2. Characteristics of dental floss and/or interdental brush users.
CharacteristicsDivisionInterdental Care Products Users
Dental Floss or Interdental BrushDental FlossInterdental Brush
KNHANES PhaseKNHANES PhaseKNHANES Phase
4th (2007–2009)5th (2010–2012)6th (2013–2015)7th (2016–2018)4th (2007–2009)5th (2010–2012)6th (2013–2015)7th (2016–2018)4th (2007–2009)5th (2010–2012)6th (2013–2015)7th (2016–2018)
All 276524343880366915491419230124891547142321881910
(22.8)(26.4)(38.0)(36.3)(12.9)(15.8)(22.9)(24.9)(12.6)(15.0)(21.2)(18.7)
SexMale103684113171313495436683825642527784731
(20.3)(22.0)(31.8)(30.1)(9.9)(12.0)(17.1)(18.9)(12.4)(13.3)(18.9)(16.7)
Female172915932563235610549831618166490589614041179
(25.3)(30.9)(43.8)(40.7)(15.8)(19.5)(28.3)(29.1)(12.9)(16.6)(23.4)(20.2)
Age, year30–39102669011041124712524770819464274548580
(30.2)(31.5)(49.7)(58.1)(20.8)(23.3)(34.5)(42.7)(13.9)(13.1)(24.8)(29.6)
40–4985466710651035454422676728498362582553
(26.0)(31.2)(44.5)(46.4)(13.9)(18.9)(27.9)(33.3)(14.9)(17.8)(24.5)(24.6)
50–59541566886795239256463546358398540382
(21.0)(25.8)(34.1)(35.2)(9.2)(11.9)(17.4)(24.5)(13.9)(17.7)(21.0)(16.7)
60–69262350583459113154296276171269347235
(12.0)(17.5)(26.5)(23.5)(5.0)(8.0)(13.1)(14.2)(7.9)(12.7)(16.0)(12.0)
70–797715122322228589010854113158136
(5.8)(11.6)(15.4)(15.8)(1.9)(4.5)(6.7)(7.7)(4.3)(8.7)(10.7)(9.7)
≥80510193435612271324
(2.4)(5.0)(14.3)(11.8)(1.3)(2.6)(4.2)(3.2)(1.1)(3.3)(10.1)(9.3)
Education level≤High school159313602143165680070311419939468721273926
(17.6)(22.0)(31.3)(26.6)(8.9)(12.0)(17.0)(16.3)(10.3)(13.5)(18.2)(14.6)
≥College117210741737201374971611601496601551915984
(35.5)(35.9)(49.3)(52.1)(22.4)(23.9)(32.8)(39.0)(18.3)(18.2)(26.2)(25.5)
Household incomeLow2152003773499895184182124137244208
(9.7)(13.2)(20.7)(19.4)(4.4)(6.7)(10.4)(10.2)(5.6)(8.7)(13.4)(11.5)
Middle low549529903828293290505547310308520439
(17.7)(23.2)(35.1)(33.8)(9.5)(12.6)(20.1)(22.2)(9.9)(13.4)(19.8)(18.3)
Middle high87478812241147501469734821492452684568
(25.1)(30.6)(41.8)(39.8)(14.2)(18.9)(25.5)(29.1)(14.3)(16.8)(23.5)(19.2)
High112791713761345657565878939621526740695
(31.3)(32.5)(44.4)(45.3)(18.5)(20.5)(28.4)(32.0)(16.8)(18.1)(23.7)(23.0)
Residence areaRural491287587527242152295307295181370297
(17.5)(16.8)(29.3)(30.0)(8.5)(9.1)(14.6)(17.9)(10.6)(9.9)(18.7)(16.6)
Urban227421473293314213071267200621821252124218181613
(24.1)(29.0)(39.9)(37.5)(13.9)(17.5)(24.8)(26.2)(13.1)(16.4)(21.8)(19.1)
Current smokingYes473362579556253211299325272202364337
(18.4)(21.6)(31.8)(32.3)(9.9)(12.6)(16.8)(19.5)(10.6)(12.0)(19.8)(19.3)
No229220723301311312961208200221641275122118241573
(24.3)(28.1)(39.8)(37.1)(13.9)(16.8)(24.7)(26.0)(13.3)(16.0)(21.6)(18.6)
Toothbrushing≤1/day20513727815911068129871148816392
(14.5)(12.1)(25.3)(16.3)(7.7)(6.9)(12.1)(9.5)(8.2)(7.0)(14.5)(8.8)
2/day92990312521173508533737779515504690599
(17.9)(22.3)(31.9)(30.2)(10.2)(13.3)(19.0)(20.2)(9.6)(12.1)(17.4)(15.4)
≥3/day16311394235023379318181435162391883113351219
(29.8)(35.0)(44.9)(44.3)(16.9)(20.9)(27.9)(31.0)(16.8)(20.4)(25.3)(22.9)
Dental check-upYes1103881157017046295139511236633548894875
(30.4)(39.2)(48.2)(45.2)(17.5)(23.0)(29.6)(33.0)(17.2)(24.0)(27.2)(23.1)
No16621553231019659209061350125391487512941035
(19.4)(22.4)(33.3)(31.0)(10.8)(13.4)(19.8)(20.0)(10.6)(12.1)(18.5)(16.1)
DiabetesNormal210818032676249112201096167417941158101614681232
(24.7)(28.2)(41.1)(41.0)(14.2)(17.4)(26.1)(29.8)(13.6)(15.4)(22.3)(20.1)
Impaired fasting glucose497470890845261248475527288295521463
(19.7)(24.6)(35.0)(31.2)(10.9)(13.8)(19.1)(19.6)(10.9)(14.7)(20.6)(16.9)
Diabetes1601613143336875152168101112199215
(14.6)(17.6)(25.6)(25.1)(6.4)(7.7)(12.5)(12.9)(9.2)(12.2)(15.7)(16.1)
HypercholesterolemiaNormal245320863211286713921263193619921360117817821465
(22.9)(27.0)(38.5)(37.7)(13.0)(16.5)(23.6)(26.5)(12.6)(14.9)(21.2)(19.1)
Hypercholesterolemia312348669802157156365497187245406445
(22.2)(23.1)(35.4)(32.2)(11.4)(11.3)(19.3)(20.1)(12.9)(15.6)(21.5)(17.8)
HypertensionNormal175313402360216710638621510157792471612691063
(26.2)(30.4)(44.7)(45.5)(15.9)(19.7)(28.9)(33.4)(13.8)(15.9)(23.9)(22.0)
Pre-hypertension405453624613208249344396238273361335
(20.4)(27.0)(35.1)(33.5)(10.5)(14.8)(19.4)(21.8)(11.7)(16.3)(20.2)(18.4)
Hypertension607641896889278308447516385434558512
(17.7)(20.1)(26.8)(25.0)(8.6)(10.3)(13.6)(14.7)(10.9)(12.8)(16.7)(14.3)
Obesity, body mass index<18.51049113015760669412158396368
(25.3)(33.1)(40.8)(53.8)(14.6)(24.9)(27.7)(42.0)(14.4)(13.6)(22.0)(22.0)
18.5–22.9115010461654148169265010591092613576886710
(24.7)(29.7)(42.9)(39.7)(14.9)(18.0)(27.8)(29.5)(13.1)(16.2)(22.8)(19.1)
23–24.9708602919810360317541538424383510399
(23.5)(24.9)(36.5)(32.8)(12.0)(13.8)(21.8)(22.0)(13.9)(15.6)(20.0)(15.7)
25–29.970762210181024386340525626393384630597
(19.7)(23.5)(33.6)(33.1)(11.0)(13.6)(17.9)(20.2)(10.9)(13.7)(20.3)(19.3)
≥309673159197514682112594199136
(21.4)(22.9)(32.5)(36.8)(12.0)(16.2)(17.5)(21.8)(13.0)(10.9)(19.6)(25.3)
Periodontal statusHealthy67984312921321434545859995359474671625
(33.3)(36.8)(48.3)(45.2)(21.6)(23.7)(32.5)(34.1)(17.4)(20.1)(24.8)(21.2)
Gingivitis1246111215501433752658953972638625843760
(23.0)(25.7)(39.0)(39.3)(14.2)(15.5)(24.5)(26.7)(11.4)(13.9)(21.0)(21.2)
Periodontitis8404791038915363216489522550324674525
(17.9)(18.7)(28.8)(25.3)(7.6)(9.2)(13.6)(14.9)(11.9)(12.3)(18.7)(14.0)
Data are presented as unweighted number (weighted %).
Table
Table 3. Adjusted associations with the interdental care products use and periodontal status according to KNHANES phase.
Table 3. Adjusted associations with the interdental care products use and periodontal status according to KNHANES phase.
Explanatory VariablePeriodontal StatusTotalKNHANES Phase
4th (2007–2009)5th (2010–2012)6th (2013–2015)7th (2016–2018)
OR (95% CI)OR (95% CI)OR (95% CI)OR (95% CI)OR (95% CI)
Interdental care products use (ref. no)Gingivitis (CPI 1–2)0.721 ***0.701 ***0.729 ***0.738 ***0.806 ***
0.676–0.7700.612–0.8020.627–0.8480.656–0.8310.715–0.910
Periodontitis (CPI 3–4)0.642 ***0.674 ***0.644 ***0.661 ***0.684 ***
0.597–0.6900.581–0.7830.538–0.7700.577–0.7560.601–0.780
*** p < 0.001. Response variable: Periodontal status (ref. healthy). The multivariable logistic regression was adjusted for sociodemographic factor variables (sex, age, level of education, household income, and residence area), personal health practice variables (smoking, toothbrushing, and dental check-up), and clinical variables (diabetes, hypercholesterolemia, hypertension, and obesity). OR: odds ratio; CI: confidence interval.
Table
Table 4. Odds ratios and 95% confidence intervals of interdental care products use by demographic characteristics and health behaviours among adults aged 30 years or older according to KNHANES phase (2007–2018) and each product in the 7th period.
Table 4. Odds ratios and 95% confidence intervals of interdental care products use by demographic characteristics and health behaviours among adults aged 30 years or older according to KNHANES phase (2007–2018) and each product in the 7th period.
4th (2007–2009)5th (2010–2012)6th (2013–2015)7th (2016–2018)7th (2016–2018)
Use of Interdental Care ProductsUse of flossUse of IDB
OR (95% CI)OR (95% CI)OR (95% CI)OR (95% CI)OR (95% CI)OR (95% CI)
Sex (ref. male)
Female 1.429 ***1.615 ***1.687 ***1.659 ***1.699 ***1.342 ***
1.276–1.6001.396–1.8701.488–1.9121.466–1.8761.479–1.9511.170–1.540
Age group (ref. 30–39)
40–490.8891.1030.868 *0.644 ***0.717 ***0.770 **
0.776–1.0170.930–1.3080.758–0.9950.556–0.7460.607–0.8480.658–0.902
50–590.781 **1.0220.627 **0.474 ***0.576 ***0.507 ***
0.664–0.9190.835–1.2510.539–0.7280.399–0.5630.478–0.6940.419–0.614
60–690.492 ***0.727 *0.509 ***0.326 ***0.373 ***0.378 ***
0.407–0.5960.570–0.9270.426–0.6080.269–0.3940.299–0.4650.305–0.469
70–790.246 ***0.576 **0.321 ***0.246 ***0.244 ***0.347 ***
0.182–0.3310.422–0.7860.256–0.4020.198–0.3060.181–0.3270.264–0.456
≥800.099 ***0.242 **0.313 ***0.202 ***0.111 ***0.380 **
0.039–0.2530.108–0.5450.175–0.5610.116–0.3520.057–0.2170.201–0.718
Education levels (ref. ≤high school)
≥University or college1.792 ***1.432 ***1.459 ***1.773 ***1.321 ***1.310 **
1.582–2.0301.203–1.7051.299–1.6391.564–2.0091.133–1.5401.123–1.529
Household income (ref. low)
Middle low1.427 **1.389 **1.451 ***1.257 *1.379 **1.189
1.150–1.7711.113–1.7351.222–1.7221.036–1.5261.089–1.7460.950–1.489
Middle high1.779 ***1.765 ***1.609 ***1.247 *1.508 **1.042
1.450–2.1831.388–2.2461.355–1.9121.033–1.5041.192–1.9080.830–1.307
High2.063 ***1.721 ***1.561 ***1.373 **1.451 **1.233
1.675–2.5411.347–2.1991.298–1.8781.121–1.6811.135–1.8560.983–1.547
Residence area (ref. rural)
Urban1.0961.480 *1.307 **1.0071.1630.962
0.936–1.2821.184–1.8501.143–1.4960.865–1.1730.931–1.4530.792–1.168
Current smoking (ref. yes)
No 1.269 **1.1321.177 *1.0511.1890.874
1.089–1.4790.946–1.3551.010–1.3730.900–1.2280.968–1.4610.736–1.038
Toothbrushing frequency (ref. 2/day)
≤1/day1.0580.677 **0.9770.668 ***0.694 **0.668 **
0.869–1.2880.529–0.8680.812–1.1750.539–0.8290.528–0.9110.512–0.873
≥3/day1.538 ***1.535 ***1.343 ***1.400 ***1.273 ***1.404 ***
1.374–1.7211.353–1.7411.218–1.4811.260–1.5551.123–1.4421.238–1.593
Dental check-up (ref. no)
Yes1.528 ***1.895 ***1.659 ***1.513 ***1.585 ***1.372 ***
1.366–1.7101.647–2.1811.503–1.8301.359–1.6851.401–1.7921.221–1.542
* p < 0.05, ** p < 0.01, *** p < 0.001. Response variable was each flossing (ref. no), interdental brush use (ref. no), and use of interdental care products (ref. no). The multivariable logistic regression model was adjusted to clinical variables (diabetes mellitus, hypercholesterolemia, hypertension, and obesity). KNHANES: Korean National Health and Nutrition Examination Survey; OR: odds ratio; CI: confidence interval.
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Han, S.-J. The Use of Interdental Care Products in Korean Adults Aged 30 Years and Older and Factors Affecting Their Use: 4th to 7th Korean National Health and Nutrition Examination Survey. Int. J. Environ. Res. Public Health 2022, 19, 8639. https://doi.org/10.3390/ijerph19148639

AMA Style

Han S-J. The Use of Interdental Care Products in Korean Adults Aged 30 Years and Older and Factors Affecting Their Use: 4th to 7th Korean National Health and Nutrition Examination Survey. International Journal of Environmental Research and Public Health. 2022; 19(14):8639. https://doi.org/10.3390/ijerph19148639

Chicago/Turabian Style

Han, Su-Jin. 2022. "The Use of Interdental Care Products in Korean Adults Aged 30 Years and Older and Factors Affecting Their Use: 4th to 7th Korean National Health and Nutrition Examination Survey" International Journal of Environmental Research and Public Health 19, no. 14: 8639. https://doi.org/10.3390/ijerph19148639

APA Style

Han, S. -J. (2022). The Use of Interdental Care Products in Korean Adults Aged 30 Years and Older and Factors Affecting Their Use: 4th to 7th Korean National Health and Nutrition Examination Survey. International Journal of Environmental Research and Public Health, 19(14), 8639. https://doi.org/10.3390/ijerph19148639

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