Association between Handgrip Strength and Periodontitis in Korean Adults Aged ≥30 Years: Data from the Korea National Health and Nutrition Examination Survey (2014–2015)
Abstract
:1. Introduction
2. Materials and Methods
2.1. Participants
2.2. Measurements
2.3. Statistical Analysis
3. Results
3.1. Periodontitis According to Sociodemographic Characteristics and Oral Health Behaviors
3.2. Periodontitis According to Systemic Health Conditions and Handgrip Strength
3.3. Strength of Association between Periodontitis and Handgrip Strength
4. Discussion
5. Conclusions
Author Contributions
Funding
Institutional Review Board Statement
Informed Consent Statement
Data Availability Statement
Acknowledgments
Conflicts of Interest
References
- Papapanou, P.N.; Sanz, M.; Buduneli, N.; Dietrich, T.; Feres, M.; Fine, D.H.; Flemmig, T.F.; Garcia, R.; Giannobile, W.V.; Graziani, F.; et al. Periodontitis: Consensus report of workgroup 2 of the 2017 World Workshop on the Classification of Periodontal and Peri-Implant Diseases and Conditions. J. Periodontol. 2018, 89, S173–S182. [Google Scholar] [CrossRef]
- Eaton, K.; Ower, P. Practical Periodontics, 1st ed.; Elsevier: St. Louis, MO, USA, 2015; pp. 13–26, 67–79, 217–231. [Google Scholar]
- Ndjidda Bakari, W.; Thiam, D.; Mbow, N.L.; Samb, A.; Guirassy, M.L.; Diallo, A.M.; Diouf, A.; Diallo, A.S.; Benoist, H.M. New classification of periodontal diseases (NCPD): An application in a sub-Saharan country. BDJ. Open. 2021, 7, 16. [Google Scholar] [CrossRef] [PubMed]
- Pihlstrom, B.L.; Michalowicz, B.S.; Johnson, N.W. Periodontal diseases. Lancet 2005, 366, 1809–1820. [Google Scholar] [CrossRef]
- Preshaw, P.M.; Alba, A.L.; Herrera, D.; Jepsen, S.; Konstantinidis, A.; Makrilakis, K.; Taylor, R. Periodontitis and diabetes: A two-way relationship. Diabetologia 2012, 55, 21–31. [Google Scholar] [CrossRef]
- Lee, Y.T.; Lee, H.C.; Hu, C.J.; Huang, L.K.; Chao, S.P.; Lin, C.P.; Su, E.C.; Lee, Y.C.; Chen, C.C. Periodontitis as a modifiable risk factor for dementia: A nationwide population-based cohort study. J. Am. Geriatr. Soc. 2017, 65, 301–305. [Google Scholar] [CrossRef] [PubMed]
- Dewhirst, F.E.; Chen, T.; Izard, J.; Paster, B.J.; Tanner, A.C.; Yu, W.H.; Lakshmanan, A.; Wade, W.G. The human oral microbiome. J. Bacteriol. 2010, 192, 5002–5017. [Google Scholar] [CrossRef]
- Darby, M.L.; Walsh, M. Dental Hygiene: Theory and Practice, 4th ed.; Elsevier: St. Louis, MO, USA, 2015; pp. 397–405. [Google Scholar]
- Digel, I.; Kern, I.; Geenen, E.M.; Akimbekov, N. Dental plaque removal by ultrasonic toothbrushes. Dent. J. 2020, 8, 28. [Google Scholar] [CrossRef] [PubMed]
- Arweiler, N.B.; Auschill, T.M.; Sculean, A. Patient self-care of periodontal pocket infections. Periodontology 2000 2018, 76, 164–179. [Google Scholar] [CrossRef]
- Felder, R.; James, K.; Brown, C.; Lemon, S.; Reveal, M. Dexterity testing as a predictor of oral care ability. J. Am. Geriatr. Soc. 1994, 42, 1081–1086. [Google Scholar] [CrossRef]
- Poole, J.L.; Brewer, C.; Rossie, K.; Good, C.C.; Conte, C.; Steen, V. Factors related to oral hygiene in persons with scleroderma. Int. J. Dent. Hyg. 2005, 3, 13–17. [Google Scholar] [CrossRef]
- Padilha, D.M.; Hugo, F.N.; Hilgert, J.B.; Dal Moro, R.G. Hand function and oral hygiene in older institutionalized Brazilians. J. Am. Geriatr. Soc. 2007, 55, 1333–1338. [Google Scholar] [CrossRef] [PubMed]
- Shin, N.R.; Choi, J.S. Manual dexterity and dental biofilm accumulation in independent older adults without hand disabilities: A cross-sectional study. Photodiagn. Photodyn. Ther. 2019, 25, 74–83. [Google Scholar] [CrossRef] [PubMed]
- Frencken, J.E.; Sharma, P.; Stenhouse, L.; Green, D.; Laverty, D.; Dietrich, T. Global epidemiology of dental caries and severe periodontitis—A comprehensive review. J. Clin. Periodontol. 2017, 44, S94–S105. [Google Scholar] [CrossRef]
- Ministry of Health & Welfare. 2015 Korea Health Statistics: Korea National Health and Nutrition Examination Survey (KNHANES VI-3); Ministry of Health & Welfare: Sejong, Korea, 2016; pp. 3–5, 54–55, 296–297.
- Health Insurance Review and Assessment Service and National Health Insurance Service. 2018 National Health Insurance Statistical Yearbook; Health Insurance Review and Assessment Service and National Health Insurance Service: Wonju, Korea, 2019; pp. 620–622. [Google Scholar]
- Dayanidhi, S.; Valero-Cuevas, F.J. Dexterous manipulation is poorer at older ages and is dissociated from decline of hand strength. J. Gerontol. A. Biol. Sci. Med. Sci. 2014, 69, 1139–1145. [Google Scholar] [CrossRef]
- Massy-Westropp, N.M.; Gill, T.K.; Taylor, A.W.; Bohannon, R.W.; Hill, C.L. Hand grip strength: Age and gender stratified normative data in a population-based study. BMC. Res. Notes 2011, 4, 127. [Google Scholar] [CrossRef]
- Kim, C.R.; Jeon, Y.J.; Kim, M.C.; Jeong, T.; Koo, W.R. Reference values for hand grip strength in the South Korean population. PLoS ONE 2018, 13, e0195485. [Google Scholar] [CrossRef]
- Lee, Y.L.; Lee, B.H.; Lee, S.Y. Handgrip strength in the Korean population: Normative data and cutoff values. Ann. Geriatr. Med. Res. 2019, 23, 183–189. [Google Scholar] [CrossRef]
- McGrath, R.; Hackney, K.J.; Ratamess, N.A.; Vincent, B.M.; Clark, B.C.; Kraemer, W.J. Absolute and Body Mass Index normalized handgrip strength percentiles by gender, ethnicity, and hand dominance in Americans. Adv. Geriatr. Med. Res. 2020, 2, e200005. [Google Scholar] [CrossRef]
- Faul, F.; Erdfelder, E.; Buchner, A.; Lang, A.G. Statistical power analyses using G* Power 3.1: Tests for correlation and regression analyses. Behav. Res. Methods. 2009, 41, 1149–1160. [Google Scholar] [CrossRef]
- Okuyemi, K.S.; Ahluwalia, J.S.; Richter, K.P.; Mayo, M.S.; Resnicow, K. Differences among African American light, moderate, and heavy smokers. Nicotine Tob. Res. 2001, 3, 45–50. [Google Scholar] [CrossRef] [PubMed]
- Wang, J.; Lv, J.; Wang, W.; Jiang, X. Alcohol consumption and risk of periodontitis: A meta-analysis. J. Clin. Periodontol. 2016, 43, 572–583. [Google Scholar] [CrossRef] [PubMed]
- International Expert Committee. International Expert Committee report on the role of the A1C assay in the diagnosis of diabetes. Diabetes Care 2009, 32, 1327–1334. [Google Scholar] [CrossRef] [PubMed]
- Committee for the Korean Guidelines for the Management of Dyslipidemia. 2015 Korean guidelines for the management of dyslipidemia. Korean Circ. J. 2016, 46, 275–306. [Google Scholar] [CrossRef] [PubMed]
- Muehldorfer-Fodor, M.; Ziegler, S.; Harms, C.; Neumann, J.; Kundt, G.; Mittlmeier, T.; Prommersberger, K.J. Load distribution of the hand during cylinder grip analyzed by Manugraphy. J. Hand Ther. 2017, 30, 529–537. [Google Scholar] [CrossRef] [PubMed]
- World Health Organization. Oral Health Surveys: Basic Methods, 5th ed.; World Health Organization: Geneva, Switzerland, 2013.
- Kaur, G.; Grover, V.; Bhaskar, N.; Kaur, R.K.; Jain, A. Periodontal infectogenomics. Inflamm. Regen. 2018, 38, 8. [Google Scholar] [CrossRef] [PubMed]
- Liu, C.J.; Marie, D.; Fredrick, A.; Bertram, J.; Utley, K.; Fess, E.E. Predicting hand function in older adults: Evaluations of grip strength, arm curl strength, and manual dexterity. Aging Clin. Exp. Res. 2017, 29, 753–760. [Google Scholar] [CrossRef]
- Shin, N.R.; Yi, Y.J.; Choi, J.S. Hand motor functions on the presence of red fluorescent dental biofilm in older community-dwelling Koreans. Photodiagn. Photodyn. Ther. 2019, 28, 120–124. [Google Scholar] [CrossRef]
- Tyler, H.; Adams, J.; Ellis, B. What can handgrip strength tell the therapist about hand function? Hand Ther. 2005, 10, 4–9. [Google Scholar] [CrossRef]
- Sayer, A.A.; Syddall, H.E.; Martin, H.J.; Dennison, E.M.; Roberts, H.C.; Cooper, C. Is grip strength associated with health-related quality of life? Findings from the Hertfordshire cohort study. Age Ageing 2006, 35, 409–415. [Google Scholar] [CrossRef]
- Celis-Morales, C.A.; Welsh, P.; Lyall, D.M.; Steell, L.; Petermann, F.; Anderson, J.; Iliodromiti, S.; Sillars, A.; Graham, N.; Mackay, D.F.; et al. Associations of grip strength with cardiovascular, respiratory, and cancer outcomes and all cause mortality: Prospective cohort study of half a million UK Biobank participants. BMJ 2018, 361, k1651. [Google Scholar] [CrossRef]
- Bohannon, R.W. Grip strength: An indispensable biomarker for older adults. Clin. Interv. Aging 2019, 14, 1681–1691. [Google Scholar] [CrossRef] [PubMed]
- Hashimoto, M.; Yamanaka, K.; Shimosato, T.; Ozawa, A.; Takigawa, T.; Hidaka, S.; Sakai, T.; Noguchi, T. Oral condition and health status of elderly 8020 achievers in Aichi Prefecture. Bull. Tokyo Dent. Coll. 2006, 47, 37–43. [Google Scholar] [CrossRef] [PubMed]
- Lee, J.H.; Lee, S.Y.; Han, K.; Han, J.S. Relationship between oral health behaviour and handgrip strength: A cross-sectional study with 7589 Korean adults. Acta. Odontol. Scand. 2020, 78, 438–444. [Google Scholar] [CrossRef] [PubMed]
- Kim, J.E.; Kim, N.Y.; Choi, C.H.; Chung, K.H. Association between oral health status and relative handgrip strength in 11,337 Korean. J. Clin. Med. 2021, 10, 5425. [Google Scholar] [CrossRef]
- Blue, C.M. Darby’s Comprehensive Review of Dental Hygiene, 8th ed.; Elsevier: St. Louis, MO, USA, 2016; pp. 494–495. [Google Scholar]
- Scribante, A.; Butera, A.; Alovisi, M. Customized minimally invasive protocols for the clinical and microbiological management of the oral microbiota. Microorganisms 2022, 10, 675. [Google Scholar] [CrossRef]
- Butera, A.; Gallo, S.; Pascadopoli, M.; Maiorani, C.; Milone, A.; Alovisi, M.; Scribante, A. Paraprobiotics in non-surgical periodontal therapy: Clinical and microbiological aspects in a 6-month follow-up domiciliary protocol for oral hygiene. Microorganisms 2022, 10, 337. [Google Scholar] [CrossRef]
- Yen, A.M.F.; Lai, H.; Fann, J.C.Y.; Chiu, S.Y.H.; Chen, S.L.S. Relationship between community periodontal index and fecal hemoglobin concentration, an indicator for colorectal neoplasm. J. Dent. Res. 2014, 93, 760–766. [Google Scholar] [CrossRef]
- Petker-Jung, W.; Weik, U.; Margraf-Stiksrud, J.; Deinzer, R. What characterizes effective tooth brushing of daily users of powered versus manual toothbrushes? BMC Oral Health 2022, 22, 10. [Google Scholar] [CrossRef]
Characteristics | Division | N | Periodontal Status | χ2 (p) | |
---|---|---|---|---|---|
Non- Periodontitis | Periodontitis | ||||
Socio-demographic characteristics | |||||
Sex | Male | 2766 | 1550 (59.2) | 1216 (40.8) | 107.770 (<0.001) |
Female | 3160 | 2228 (72.1) | 932 (27.9) | ||
Age (years) | 30–39 | 1271 | 1070 (84.4) | 201 (15.6) | 488.095 (<0.001) |
40–49 | 1345 | 956 (69.2) | 389 (30.8) | ||
50–59 | 1404 | 752 (52.1) | 652 (47.9) | ||
60–69 | 1095 | 560 (50.0) | 535 (50.0) | ||
≥70 | 811 | 440 (53.2) | 371 (46.8) | ||
Personal income | Lowest (<25%) | 1325 | 787 (60.2) | 538 (39.8) | 37.989 (<0.001) |
Middle low (25–50%) | 1464 | 891 (63.0) | 573 (37.0) | ||
Middle high (50–75%) | 1554 | 1039 (68.1) | 515 (31.9) | ||
Highest (>75%) | 1560 | 1049 (69.8) | 511 (30.2) | ||
Education | Primary school | 1114 | 563 (49.1) | 551 (50.9) | 258.044 (<0.001) |
Middle school | 689 | 363 (51.6) | 326 (48.4) | ||
High school | 1922 | 1215 (63.8) | 707 (36.2) | ||
≥College | 2165 | 1615 (75.5) | 550 (24.5) | ||
Oral health behaviors | |||||
Daily cigarette | Non-smoker | 4728 | 3158 (69.0) | 1570 (31.0) | 111.428 (<0.001) |
Consumption † | Light smoker | 229 | 133 (60.4) | 96 (39.6) | |
Heavy smoker | 905 | 450 (52.4) | 455 (47.6) | ||
Daily alcohol | Non-drinker | 1608 | 995 (63.7) | 613 (36.3) | 3.672 |
Consumption †† | Light drinker | 2609 | 1687 (66.6) | 922 (33.4) | (0.247) |
Moderate/heavy drinker | 1648 | 1061 (65.1) | 587 (34.9) | ||
Frequency of daily tooth brushing | ≤2 | 2737 | 1619 (60.8) | 1118 (39.2) | 50.251 |
≥3 | 3060 | 2091 (69.7) | 969 (30.3) | (<0.001) | |
Dental check-ups in the past year | Yes | 1897 | 1278 (68.7) | 619 (31.3) | 13.200 |
No | 3962 | 2463 (63.9) | 1499 (36.1) | (0.002) | |
Use of interproximal cleaning devices | Yes | 2125 | 1567 (75.1) | 558 (24.9) | 149.812 |
No | 3736 | 2175 (59.5) | 1561 (40.5) | (<0.001) |
Characteristics | Division | N | Periodontal Status | χ2 (p) | |
---|---|---|---|---|---|
Non- Periodontitis | Periodontitis | ||||
BMI | Underweight (<18.5 kg/m2) | 194 | 145 (78.9) | 49 (21.1) | 75.008 (<0.001) |
Normal (18.5–24.9 kg/m2) | 3782 | 2513 (68.2) | 1269 (31.8) | ||
Obese (≥25 kg/m2) | 1913 | 1086 (58.0) | 827 (42.0) | ||
Glycated | Normal (<6.5%) | 5018 | 3305 (67.5) | 1713 (32.5) | 103.632 (<0.001) |
hemoglobin | Diabetes (≥6.5%) | 559 | 261 (44.5) | 298 (55.5) | |
TC | Optimal/normal (<200 mg/dL) | 3466 | 2239 (66.9) | 1227 (33.1) | 10.408 (0.015) |
Borderline high (200–239 mg/dL) | 1635 | 1041 (64.3) | 594 (35.7) | ||
Abnormal/high (≥240 mg/dL) | 499 | 297 (60.2) | 202 (39.8) | ||
TG | Optimal/normal (<150 mg/dL) | 3849 | 2596 (69.7) | 1253 (30.3) | 93.061 (<0.001) |
Borderline high (150–199 mg/dL) | 780 | 453 (59.3) | 327 (40.7) | ||
Abnormal/high (≥200 mg/dL) | 971 | 528 (55.0) | 443 (45.0) | ||
HDL-C | Reasonably good (≥60 mg/dL) | 1210 | 888 (75.5) | 322 (24.5) | 108.906 (<0.001) |
Normal (40–59 mg/dL) | 3166 | 2025 (65.5) | 1141 (34.5) | ||
Abnormal/low (<40 mg/dL) | 1224 | 664 (55.5) | 560 (44.5) | ||
LDL-C | Normal (<130 mg/dL) | 2268 | 1419 (65.1) | 849 (34.9) | 3.291 (0.292) |
Borderline high (130–159 mg/dL) | 738 | 462 (63.7) | 276 (36.3) | ||
Abnormal high (≥160 mg/dL) | 300 | 179 (59.9) | 121 (40.1) | ||
Handgrip | Normal | 3998 | 2616 (66.9) | 1382 (33.1) | 15.083 |
strength | Reduced/poor | 1928 | 1162 (61.7) | 766 (38.3) | (0.001) |
Characteristics | Crude | Adjusted † | ||
---|---|---|---|---|
OR (95% CI) | p | OR (95% CI) | p | |
Handgrip strength (continuous) | 0.990 (0.984–0.997) | 0.002 | 0.986 (0.974–0.999) | 0.030 |
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An, H.-R.; Choi, J.-S. Association between Handgrip Strength and Periodontitis in Korean Adults Aged ≥30 Years: Data from the Korea National Health and Nutrition Examination Survey (2014–2015). Int. J. Environ. Res. Public Health 2022, 19, 10598. https://doi.org/10.3390/ijerph191710598
An H-R, Choi J-S. Association between Handgrip Strength and Periodontitis in Korean Adults Aged ≥30 Years: Data from the Korea National Health and Nutrition Examination Survey (2014–2015). International Journal of Environmental Research and Public Health. 2022; 19(17):10598. https://doi.org/10.3390/ijerph191710598
Chicago/Turabian StyleAn, Hye-Ryeong, and Jun-Seon Choi. 2022. "Association between Handgrip Strength and Periodontitis in Korean Adults Aged ≥30 Years: Data from the Korea National Health and Nutrition Examination Survey (2014–2015)" International Journal of Environmental Research and Public Health 19, no. 17: 10598. https://doi.org/10.3390/ijerph191710598
APA StyleAn, H. -R., & Choi, J. -S. (2022). Association between Handgrip Strength and Periodontitis in Korean Adults Aged ≥30 Years: Data from the Korea National Health and Nutrition Examination Survey (2014–2015). International Journal of Environmental Research and Public Health, 19(17), 10598. https://doi.org/10.3390/ijerph191710598