A factor of periodontal disease and dietary patterns in Korean adults using data from Korea National Health and Nutrition Examination Survey V

Kyung Won Paek; Soojin Lee; Joung Hwan Back

doi:10.11149/jkaoh.2015.39.4.280

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Paek, Lee, and Back: A factor of periodontal disease and dietary patterns in Korean adults using data from Korea National Health and Nutrition Examination Survey V

Original Article

J Korean Acad Oral Health 2015;39(4):280-287.

Published online: 12 December 2015

DOI: https://doi.org/10.11149/jkaoh.2015.39.4.280

A factor of periodontal disease and dietary patterns in Korean adults using data from Korea National Health and Nutrition Examination Survey V

Kyung Won Paek¹, Soojin Lee², Joung Hwan Back³

¹Division of Social Welfare, Baekseok University, Cheonan, Korea

²Health Administration, Baekseok Arts University, Seoul, Korea

³Health Insurance Police Research Institute, National Health Insurance Service, Seoul, Korea

Corresponding Author: Joung Hwan Back Health Insurance Police Research Institute, National Health Insurance Service, 130, Mapo-daero, Mapo-gu, Seoul 04212, Korea Tel: +82-2-3270-9866 Fax: +82-2-3275-8063 E-mail: back200@nhis.or.kr

Received 1 October 2015 Revised 22 October 2015 Accepted 6 November 2015

This is an open-access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

Objectives

This study was aimed to identify the socioeconomic factors, health behavior factors and dietary patterns that have an influence on the periodontal disease in adults.

Methods

This study used data collected from the fifth Korea National Health and Nutrition Examination Survey (NHANES V-1). The final sample included 2,386 subjects who were 30-59 years old and who had completed the necessary health examinations, the health behaviors survey and nutrition survey.

Results

Eleven dietary patterns emerged from the factor analysis with different factor loading. After controlling for potential confounders, multiple logistic regression analysis of the dietary patterns showed that ‘legumes/mixed grains’ and ‘instant foods’ affected the periodontal disease. Lower consumption of ‘legumes/mixed grains’ and higher consumption of ‘instant foods’ were significantly associated only with an increased risk of periodontal disease.

Conclusions

In the light of the results of this study, it appears pretty likely that the risk of developing periodontal disease can be reduced by changing a person’s dietary patterns.

Keywords: Adults, Dietary pattern, Periodontal disease

References

1. Ministry of Health & Welfare and Korea Centers for Disease Control and Prevention. Korea Health Statistics 2012: Korea National Health and Nutrition Examination Survey (KNHANES V-3). 2013. 15.

2. Shim YS, An SY, Park SY. The associations between dietary behavior and subjective measurements of serious dental diseases in nursing home staff. J Korean Society of Dental Hygiene. 2013; 13:377–385.

3. Wakai K, Naito M, Naito T, Kojima M, Nakagaki H, Umemura O, et al. Tooth loss and intakes of nutrients and foods: a nationwide survey of Japanese dentists. Community Dent Oral Epidemiol. 2010; 38:43–49.

4. Staudte H, Sigusch BW, Glockmann E. Grapefruit consumption improves vitamin C status in periodontitis patients. Br Den J. 2005; 199:213–217.

5. Kim JH, Lee MH, Kim HY. A Study on oral health condition according to intake frequency by food groups. J Korea Academia-Industrial cooperation Society. 2014; 15:1010–1019.

6. Nicklas TA, Webber LS, Thompson B, Berenson GS. A multivariate model for assessing eating patterns and their relationship to cardiovascular risk factors: the Bogalusa Heart study. Am J Clin Nutr. 1989; 49:1320–1327.

7. Randall E, Marshall JR, Brasure J, Graham S. Dietary patterns and colon cancer in western New York. Nutr Cancer. 1992; 18:265–276.

8. Tanaka K, Sasaki S, Murakami K, Okubo H, Takahashi Y, Miyake Y. Relationship between soy and isoflavone intake and periodontal disease: the Freshmen in Dietetic Courses Study II. BMC Public Health. 2008; 8:39.

9. Huh KB. The present of nutrition related diseases and its countermeasures. Korean J Nutr. 1990; 23:197–207.

10. Choi JH, Lee SL. Relation between food pattern and self-recognition of major oral disease on the Korean adults. J Korean Acad Dental Hygiene Education. 2010; 10:335–344.

11. Yoon MS, Jung EJ, Youn HJ. A study on correlation between dietary intake status and dental caries in the Dept. of Dental Hygiene. J Dent Hyg Sci. 2012; 12:79–84.

12. Ministry of Health & Welfare and Korea Centers for Disease Control and Prevention. Korea Health Statistics 2010 : Korea National Health and Nutrition Examination Survey(KNHANES V-1). 2011. 3–605.

13. Paek KW, Chun KH, Lee SJ. A factor of fasting blood glucose and dietary patterns in korean adults using data from the 2007, 2008 and 2009 Korea National Health and Nutrition Examination Survey. J Prev Med Public Health. 2011; 44:93–100.

14. De Paola D.P.Executive summary. Proceedings of scientific consensus conference on methods for assessment of the cariogenic potential of foods. J. Dent. Res. 1986; 65:1540–1543.

15. Burt BA. Relative consumption of sucrose and other sugars: has it been a factor in reduced caries experience? Caries Res. 1993; 27(Suppl 1):S56–63.

16. Navia JM. Carbohydrates and dental health. Am J Clin Nutr. 1994; 59(Suppl 3):S519–572.

17. Burt BA, Pai S. Sugar consumption and caries risk: a systematic review. J Dent Educ. 2001; 65:1017–1023.

18. Messina MJ. Legumes and soybeans: overview of their nutritional profiles and health effects. Am J Clin Nutr. 1999; 70(Suppl 3):S439–450.

19. Lissin LW, Cooke JP. Phytoestrogens and cardiovascular health. J Am Coll Cardiol. 2000; 35:1403–1410.

20. Knoferl MW, Jarrar D, Angele MK, Ayala A, Schwacha MG, Bland KI, et al. 17 beta-Estradiol normalizes immune responses in ovariectomized females after trauma-hemorrhage. Am J Physiol Cell Physiol. 2001; 281:1131–1138.

21. Sarkar FH, Li Y. Soy isoflavones and cancer prevention. Cancer Invest. 2003; 21:744–757.

22. Jenkins DJ, Kendall CW, Connelly PW, Jackson CJ, Parker T, Faulkner D, et al. Effects of high- and low-isoflavone (phytoestrogen) soy foods on inflammatory biomarkers and proinflammatory cytokines in middle-aged men and women. Metabolism. 2002; 51:919–924.

23. Chol YJ, Baek DI. Preventive dentistry. Seoul: KMS;1996. p. 149.

24. Kim JH, Lee DS, Lim CW, Park HY, Park JH. Antibacterial activity of sea-mustard, laminaria japonica extracts on the cariogenic bacteria, streptococcus mutans. J Korean Fish Soc. 2002; 35:191–195.

Table 1.

Prevalence to periodontal disease by demographic and health behavior characteristics of subjects (30-59 years)

Variable		Periodontal disease		Total	χ²	P-value
Variable		without	with	Total	χ²	P-value
Gender	Male Female	472 (65.6) 1,359 (81.6)	248 (34.4) 307 (18.4)	720 (30.2) 1,666 (69.8)	72.25	<.0001
Age (years)	30-39 40-49 50-59	733 (88.7) 577 (74.5) 521 (66.4)	93 (11.3) 198 (25.6) 264 (33.6)	826 (34.6) 775 (32.5) 785 (32.9)	116.22	<.0001
Education	Middle school or lower High school College or higher	342 (66.4) 650 (74.8) 839 (83.7)	173 (33.6) 219 (25.2) 163 (16.3)	515 (21.6) 869 (36.4) 1,002 (42.0)	60.08	<.0001
Household income (10,000 Won)	Low Middle-low Middle-high High	452 (75.0) 593 (75.2) 472 (78.4) 461 (78.4)	151 (25.0) 147 (24.8) 130 (21.6) 127 (21.6)	603 (25.3) 593 (24.9) 602 (25.2) 588 (24.6)	3.69	0.2965
Smoking	Never Current	1,483 (80.7) 348 (63.4)	354 (19.3) 201 (36.6)	1,837 (77.0) 549 (23.0)	71.21	<.0001
Exercise	No Yes	1,093 (77.4) 738 (75.9)	320 (22.7) 235 (24.2)	1,413 (59.2) 973 (40.8)	0.73	0.3924
BMI (kg/m²)	<25 ≥25	1,336 (78.7) 495 (71.8)	361 (21.3) 194 (28.2)	1,697 (71.1) 689 (28.9)	13.01	0.0003
Brushing frequency	≤1 2 3≤	108 (64.7) 865 (74.7) 858 (80.9)	59 (35.3) 293 (25.3) 203 (19.1)	167 (7.0) 1,158 (48.5) 1,061 (44.5)	26.46	<.0001
Diabetes	No Yes	1,757 (78.1) 74 (54.4)	493 (21.9) 62 (45.6)	2,250 (94.3) 136 (5.7)	40.28	<.0001
CVD	No Yes	1,808 (77.0) 23 (62.3)	541 (23.0) 14 (37.8)	2,349 (98.5) 37 (1.6)	4.47	0.0344

Values are Number (%).

BMI: body mass index; CVD: cardiovascular disease.

The data were analysesed by complex samples.

Table 2.

Food intake by periodontal disease

Food	Periodontal disease		Total (n=2,386)	t	P-value
Food	without (n=1,831)	with (n=155)	Total (n=2,386)	t	P-value
Rice	17.4±4.36	17.8±4.18	17.5±4.32	―1.80	0.0718
Barley	11.2±7.72	10.6±7.72	11.0±7.72	1.50	0.1343
Noodle Instant	0.8±0.92	0.8±0.90	0.8±0.91	0.57	0.5699
Noodle	0.7±0.81	0.7±0.85	0.7±0.82	0.03	0.9738
Bread	1.2±1.50	1.0±1.50	1.2±1.50	2.80	0.0052
Rice cake	0.7±0.85	0.6±0.88	0.7±0.86	3.88	0.0001
Crack	1.0±1.41	0.8±1.18	1.0±1.37	3.97	<.0001
Bean	6.2±7.37	5.6±6.98	6.1±7.29	1.82	0.0682
Potato	1.1±1.15	1.0±1.06	1.0±1.13	1.05	0.2951
Sweet potato	0.7±0.94	0.5±0.61	0.6±0.87	4.62	<.0001
Beef	0.9±0.98	0.8±0.89	0.9±0.96	3.68	0.0002
Chick	0.8±0.78	0.7±0.71	0.8±0.76	0.98	0.3250
Pork	1.3±1.10	1.3±1.20	1.3±1.12	―0.90	0.3698
Chub mackerel	0.8±0.85	0.8±0.79	0.8±0.84	1.17	0.2404
Yellow croaker	0.6±0.79	0.6±0.79	0.6±0.79	―0.02	0.9843
Alaska pollack	0.5±0.59	0.5±0.60	0.5±0.59	―2.05	0.0405
Korean cabbage	14.8±6.11	14.8±6.00	14.8±6.09	―0.23	0.8216
Radish	4.6±4.97	4.9±4.77	4.7±4.92	―1.08	0.2783
Radish leaves	1.6±2.17	1.8±2.26	1.6±2.19	―1.91	0.0567
Carrot	0.6±1.13	0.5±1.34	0.6±1.18	1.01	0.3119
Pumpkin	1.0±1.20	0.9±1.05	1.0±1.17	2.37	0.0181
Cabbage	0.7±1.22	0.7±1.00	0.7±1.17	0.93	0.3517
Persimmon	0.6±0.71	0.5±0.66	0.6±0.70	0.43	0.6698
Watermelon	0.7±0.69	0.6±0.60	0.7±0.67	2.41	0.0163
Muskmelon	0.5±0.48	0.4±0.44	0.5±0.47	2.69	0.0073
Strawberry	0.6±0.59	0.5±0.61	0.5±0.59	2.71	0.0067
Grape	0.7±0.79	0.6±0.73	0.7±0.77	1.34	0.1799
Ice cream	0.5±0.77	0.5±0.88	0.5±0.80	―0.40	0.6867
Soda	0.6±1.16	0.6±1.10	0.6±1.15	―0.03	0.9722
Tea	2.0±3.92	2.4±4.62	2.1±4.09	―1.68	0.0940
Beer	0.6±1.08	0.8±1.40	0.7±1.16	―2.56	0.0107
Soju	0.6±1.30	1.0±1.60	0.7±1.39	―5.45	<.0001
Rice wine	0.2±0.62	0.3±0.80	0.2±0.67	―2.16	0.0314
Hamburger	0.1±0.20	0.1±0.21	0.1±0.21	2.22	0.0264
Pizza	0.2±0.20	0.2±0.31	0.2±0.23	1.15	0.2506

Values are Mean±Standard deviation.

Values are the number of food intake per week by food.

Table 3.

Factor loading of food intake according to factor analysis (30-59 years)

Factor
	1	2	3	4	5	6	7	8	9	10	11
Muskmelon	0.789	―0.004	0.034	0.063	0.020	0.006	0.005	―0.019	0.054	―0.023	―0.003
Watermelon	0.747	―0.039	0.022	0.082	0.031	―0.003	0.001	―0.002	0.074	0.034	―0.059
Grape	0.697	―0.019	―0.002	0.000	0.002	0.012	0.083	0.072	0.063	0.029	0.061
Strawberry	0.672	―0.002	―0.017	0.111	0.019	0.024	―0.007	0.071	―0.005	―0.004	0.163
Persimmon	0.523	―0.098	0.001	―0.194	0.139	0.069	0.205	0.038	0.011	0.091	―0.150
Soju	―0.056	0.707	―0.017	0.074	―0.085	―0.184	0.105	0.094	―0.083	―0.024	―0.083
Rice wine	―0.009	0.644	―0.088	0.040	0.043	―0.038	0.005	―0.059	―0.034	0.029	0.020
Beer	―0.001	0.643	0.073	0.160	―0.125	―0.027	0.014	0.031	―0.165	0.163	0.033
Noodle	―0.064	0.461	0.131	―0.064	―0.014	0.322	0.072	―0.010	0.276	―0.114	0.117
Noodle Instant	―0.121	0.455	0.364	0.059	―0.094	0.122	―0.138	0.097	0.166	―0.181	―0.051
Hamburger	―0.032	―0.046	0.717	0.115	―0.026	0.086	0.048	―0.100	0.018	―0.019	0.144
Pizza	0.063	―0.097	0.661	0.219	0.047	0.072	―0.002	―0.120	―0.019	0.031	0.234
Soda	0.022	0.208	0.609	0.002	―0.186	―0.012	―0.055	0.088	0.110	―0.004	―0.194
Ice cream	0.070	0.032	0.470	―0.071	―0.089	0.338	0.118	0.111	―0.079	0.129	―0.301
Chick	0.014	0.119	0.132	0.699	―0.068	0.018	0.095	0.009	0.153	0.099	0.058
Pork	0.029	0.136	0.068	0.672	―0.034	0.088	0.132	0.040	―0.024	0.091	―0.106
Beef	0.112	0.006	0.073	0.651	―0.033	0.173	0.142	―0.015	0.150	0.032	0.107
Barley	0.086	―0.107	―0.066	―0.050	0.801	―0.026	0.063	―0.002	0.039	0.074	0.061
Bean	0.059	―0.015	―0.068	―0.172	0.761	0.015	0.059	―0.059	0.051	0.093	0.059
Rice	0.010	―0.100	―0.083	0.198	0.515	―0.190	―0.005	0.385	―0.112	―0.130	―0.285
Bread	0.000	―0.029	0.070	0.135	―0.063	0.746	0.013	―0.089	0.088	0.039	0.054
Crack	0.023	―0.078	0.185	0.126	―0.075	0.697	―0.002	0.033	―0.129	0.037	―0.186
Rice cake	0.114	―0.053	―0.048	0.048	0.100	0.518	0.040	―0.006	0.273	―0.026	0.322
Yellow croaker	0.087	―0.058	0.031	0.116	0.058	―0.010	0.743	0.042	0.037	0.014	0.038
Alaska pollack	0.069	0.176	0.009	0.049	0.010	0.033	0.660	0.201	―0.009	0.163	―0.027
Chub mackerel	0.034	0.016	―0.018	0.183	0.045	0.037	0.645	0.006	0.184	―0.041	0.007
Radish	0.077	0.035	―0.001	0.030	―0.015	0.042	0.053	0.701	0.095	0.101	0.109
Radish leaves	0.045	0.048	―0.046	―0.088	―0.051	―0.034	0.167	0.590	0.040	0.070	0.174
Korean cabbage	0.025	―0.022	―0.036	0.160	0.398	―0.122	―0.008	0.506	―0.032	―0.111	―0.245
Potato	0.040	―0.018	0.062	0.194	―0.011	0.049	0.025	0.133	0.724	0.041	―0.126
Sweet potato	0.155	―0.101	0.023	―0.001	0.077	0.022	0.194	―0.126	0.552	0.146	0.171
Pumpkin	0.088	―0.058	―0.003	0.133	―0.010	0.053	0.081	0.163	0.526	0.366	―0.175
Carrot	0.018	0.040	0.001	0.151	0.057	0.049	―0.001	0.061	0.091	0.755	0.016
Cabbage	0.040	0.014	0.016	0.024	0.040	―0.002	0.086	0.030	0.119	0.739	0.020
Tea	0.061	0.014	0.105	0.049	0.001	0.009	0.027	0.287	―0.115	0.021	0.635

Rotation sums of squared loadings (%): 53.4%.

Table 4.

Factors of food intake affecting on periodontal disease by models (30-59 years)

Effect	Model I			Model II			Model III
Effect	OR	95% CI	P-value	OR	95% CI	P-value	OR	95% CI	P-value
Factor1	0.83	0.725-0.940	0.0042	0.90	0.789-1.020	0.0960	0.91	0.804-1.039	0.1692
Factor2	1.20	1.081-1.338	0.0008	1.01	0.891-1.140	0.8984	1.00	0.880-1.131	0.9665
Factor3	0.96	0.845-1.087	0.5025	1.12	1.005-1.250	0.0406	1.12	1.006-1.249	0.0379
Factor4	0.97	0.856-1.104	0.6600	1.07	0.941-1.207	0.3160	1.07	0.946-1.218	0.2719
Factor5	0.90	0.794-1.014	0.0813	0.86	0.752-0.977	0.0209	0.87	0.765-0.998	0.0466
Factor6	0.83	0.735-0.945	0.0046	0.98	0.869-1.108	0.7629	0.99	0.876-1.116	0.8541
Factor7	1.01	0.902-1.138	0.8251	0.97	0.872-1.086	0.6262	0.99	0.884-1.104	0.8283
Factor8	1.11	0.988-1.256	0.0785	1.04	0.921-1.179	0.5104	1.04	0.918-1.182	0.5260
Factor9	0.85	0.755-0.967	0.0129	0.92	0.824-1.027	0.1368	0.91	0.815-1.024	0.1203
Factor10	0.97	0.865-1.085	0.5805	1.01	0.891-1.135	0.9226	1.01	0.893-1.132	0.9314
Factor11	0.96	0.861-1.068	0.4416	1.04	0.935-1.157	0.4711	1.05	0.944-1.158	0.3917

The data were analysesed by complex samples.

Dependent variable is periodontal disease.

OR: Odds ratio; CI: Confidence Interval.

Model I is not adjusted.

Model II is adjusted by gender, age, education, and household income.

Model III is adjusted by gender, age, education, household income, smoking, exercise, body mass index, brushing frequency, diabetes, and cardiovascular disease.

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