Role of Vitamin D in Dental Health: A Review
Journal of Postgraduate Medicine, Education and Research (2019): 10.5005/jp-journals-10028-1319
Varun Suri1, Mohit Bansal2, Tarun Kalra3
Intervention AND Dental
- Chronic Periodontitis reduced by Vitamin D (60,000 IU weekly for 8 weeks) – RCT July 2023
- Periodontitis treated by 4,000 IU of Vitamin D (pilot study) - March 2019
- Severe tooth decay in children unless supplemented with Vitamin D drops – Oct 2013
- Gingivitis inflammation (retracted) -Jan 2013
- Dental health improved with more than 800 IU of vitamin D – June 2013
- UVB added in classroom reduced cavities, increased height, increased academics. etc
- Dental caries cut in half by vitamin D, review of 24 old clinical trials – Nov 2012
Pages listed in BOTH Dental and Infant or Child
- Early Childhood Caries 1.4 times more likely if 20-30 ng of Vitamin D – meta-analysis Jan 2024
- Caries in deciduous teeth about 2X more likely if low vitamin D – Review Nov 2023
- Severe infant caries 10X higher risk if low vitamin D (under 14 ng) - Dec 2021
- Virtually all infants in Poland got 400 IU of Vitamin D daily (not enough, non-daily is better) – April 2021
- More dental caries in children who have less than 30 ng of Vitamin D – Review Sept 2020
- Teeth from 19th century London indicate that most children were Vitamin D Deficient - Oct 2019
- Half as many tooth enamel defects in child if 2400 IU Vitamin D in late pregnancy – RCT Aug 2019
- Half as many teeth problems if higher cord blood level of vitamin D – March 2019
- No tooth decay in children with adequate Vitamin D (small study) – June 2018
- Early tooth decay 1.9 X more likely if a poor Vitamin D receptor – July 2017
- Severe childhood dental problems 2.4 X more likely if breastfed for more than two years (low vitamin D) – June 2017
- Dental Caries risk in children cut in half if more than 20 nanogram of Vitamin D – Nov 2015
- Teeth enamel problems (MIH) 11 percent less likely with just 4 ng more vitamin D – Dec 2014
- 3X fewer infant dental caries if good level of vitamin D while pregnant – April 2014
- Severe tooth decay in children unless supplemented with Vitamin D drops – Oct 2013
- UVB added in classroom reduced cavities, increased height, increased academics. etc
- Dental caries cut in half by vitamin D, review of 24 old clinical trials – Nov 2012
- Children with severe caries were 2X more likely to have inadequate vitamin D – July 2012
20 most recently added items in Dental Category
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Introduction: The role of vitamin D in the development of bones is well known and documented. It also helps In preserving the oral structures, consisting of mainly the teeth and supporting structures. This is the only vitamin which is available through natural sunlight. It is the only vitamin which is found naturally in cod liver oil and butterfat.
Material and methodology: The material presented in this review is a brief summary of the beneficial effects of vitamin D in various conditions, with major emphasis on dental caries, periodontal disease, the genetic basis of vitamin D and positive effect of vitamin D in the immune- compromised population.
Results: Vitamin D is also known as the antirachitic factor as it prevents the occurrence of rickets in adults and osteomalacia in children. However, vitamin D3 itself is biologically inert when converted to its active form, is found to be extremely beneficial in various conditions.
Conclusion: This review article focuses on various synergistic effects of vitamin D on oral health by searching a number of published articles from EBSCOhost database.
Introduction
Healthy body has a healthy soul. Nutrition has a very important effect on overall health. Proper functioning of the human body depends upon the form of nutrients taken. Vitamin D, a fat-soluble vitamin has multiple benefits on physical and oral health. The two common sources of vitamin D are diet and sunlight.
Vitamin D has been found to play a major role in the prevention of various types of cancer.1-3 Vitamin D is also important for periodontal health and bone metabolism. Fortification of foods with vitamin D, especially dairy products is very common in European countries.4 The current recommended daily intake for vitamin D and calcium are 400 lU/d (0-12 mo of age); 600 lU/d (1-70 years of age); and 800 lU/d for older adults (>70 years of age).5 Vitamin D and calcium supplements, in combination, result in the positive periodontal condition, shallower probing depth, minimal attachment loss, and reduced alveolar bone loss.6,7
Methodology
Data was searched from the published articles of EBSCO host database and original studies regarding the effects and implications of vitamin D on oral health directly, or in an indirect manner were selected from the literature. EBSCO host is an intuitive online research platform used by thousands of institutions and millions of users worldwide. With quality databases and search features, EBSCO host helps researchers of all kinds find the information they need fast. EBSCO host offers high-quality articles licensed from reputable publishers recognized by library professionals, chosen to meet the specific needs of researchers.
• History of vitamin D and its functions: The final active hormone derived from vitamin D was isolated and identified in 1971, and its structure was deduced as 1a,25-dihydroxyvitamin D3 [1,25(OH)2D3]
The basic function of vitamin D is to regulate normal blood levels of phosphorus and calcium. Vitamin D assists the body to absorb calcium, which regulates the structure of bones. It is used alone or together with calcium to improve bone health and
As per Flowchart 1, an overall, 25 original studies regarding the effect of vitamin D on various parameters were screened, out of which, five studies were based on genetic basis of vitamin D, two studies were based on the effect of vitamin D on dental caries,
12 studies were based on the effect of vitamin D on periodontal health and one study was based on the effect of vitamin D on the immune-compromised population.
Henceforth, the results and conclusions of some of the studies regarding this topic are:
© The Author(s). 2019 Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (https://creativecommons. org/licenses/by-nc/4.0/), which permits unrestricted use, distribution, and non-commercial reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/t0/) applies to the data made available in this article, unless otherwise stated.
decrease fractures. Vitamin D acts by modifying cellular activity, cell differentiation, and cell proliferation. Vitamin D receptors are found in the immune system, intestine, pancreas, and heart, suggesting its role in these tissues. Hence, it is associated with a variety of conditions such as type 1 and type 2 diabetes, multiple sclerosis, and some cancers. Vitamin D is required throughout life. Apart from its role in bone formation, it also plays an important role in several other physiologic systems. Its use may well prevent several degenerative diseases, and it may also play a role as an anticancer agent. It also has an immunomodulatory role and its deficiency affects the T cell-mediated immunity.8
• Studies regarding the genetic basis of vitamin D: Vitamin D receptor (VDR) helps in the metabolism of vitamin D and it also plays an important role in regulating the downstream genes responsible for vitamin D activity. Yoshihara et al. in 20019 conducted a study in a Japanese cohort of generalized early-onset periodontitis for analysis of vitamin D and Fcy polymorphisms. The hypothesis of his study was to investigate the association of genetic basis for both conditions, i.e, generalized early-onset periodontitis, and vitamin D polymorphisms. The study included 42 patients with generalized early-onset periodontitis (G-, EOP), 52 patients with adult periodontitis (AP) and 55 race-matched healthy controls (HC). All the patients were assessed by periodontists for the number of missing teeth, probing depth (PD) and clinical attachment level (CAL). PCR technique was used for the estimation of VDR and Fcy genotypes. G-EOP patients had significantly higher mean PD and CAL compared with AP and HC groups. Distribution of VDR genotypes was almost similar in all the groups. G-EOP patients had significant over-representation of the Fcy-RIIIb genotypes compared with the AP group and HC (p = 0.027 and p=0.006 respectively). The study concluded that genetic polymorphisms may influence G-EOP in a complex way, though no direct relation was found in G-EOP and VDR genotype.
To understand the mechanism of action of vitamin D in improving periodontal health Grenier et al.10 investigated the effect of 1,25(OH)2D3 on the growth as well as virulence factor gene expression of pathogenic bacteria, porphyromonas gingivalis. The effect of vitamin D levels on the activation of nuclear factor kappa B transcription factor in monocytes was also assessed. The results showed that 1,25(OH)2D3 inhibits the gene expression for virulence factors thus attenuating the action of P. gingivalis. Growth of the offending bacteria was also affected by vitamin D. Nuclear factor kappa B activation was also attenuated. Author conclusion was that this knowledge can help us in finding out new therapeutic strategies and preventive modalities.
Vitamin D is responsible for bone formation and calcium homeostasis. Taking this as hypothesis Ulrike et al.11 in 2016 conducted a randomized double-blind placebo-controlled trial to see whether oral supplementation with vitamin D with calcium has any influence on bone formation after maxillary sinus augmentation. The second group received only calcium. It was seen that there was a significant improvement in vitamin D levels in the vitamin D group but there was no significant difference in bone formation or graft resorption between both the groups.
Sahli et al. in 201412 conducted a study in postmenopausal women to see the association between 25(OH)D levels and concentration of oral pathogenic bacteria. Presence of Porphyromonas gingivalis, Tannerella forsythia, Fusobacterium nucleatum, Prevotellaintermedia, and Campylobacter species were assessed in the subgingival plaque by immunofluorescence method. No association was found between 25(OH)D levels and pathogenic oral bacteria.
Nociti et al.13 in their study to investigate the mechanism of action of vitamin D observed that 1,25D regulates DMP-1 expression through a VDR-dependent mechanism, which contributes to local changes in tooth mineral homeostasis.
Vitamin D and Dental Caries
Karin et al. in 201614 conducted a study to see the effect of vitamin D on dental caries in children. It was a retrospective study, and authors used data from the National Health and Nutrition Examination Survey. The data of 5-12-year-old children were analyzed. On applying multivariate logistic regression it was observed that there was no significant association between vitamin D levels and caries in children aged 5-12 years.
Antonenko et al. in 201515 conducted a study in young women to see the association between oral health and calcium and Vitamin D nutritional status. The methodology consisted of recording dietary history for the intake of calcium and protein, and the serum levels of 25(OH)D were assessed. DMFT index, loesillness plaque index, and sugar intake were used to assess the dental status and caries risk. Women with high caries risk had higher DMFT index and there was a significant correlation with low calcium and low 25(OH)D levels.
Vitamin D and Periodontal Health
Zhou et al. in 201216 conducted a case-control study to evaluate the association of 25 (OH) vitamin D levels with periodontal health and chronic obstructive pulmonary disease (COPD). This study was conducted in 193 COPD patients and 181 controls. The periodontal evaluation consisted of periodontal probing, plaque index (PLI), number of remaining teeth and X-ray examination of alveolar bone. Dental caries and oral mucosa were also evaluated. The COPD group had more vitamin D deficient subjects than controls (21.2% versus 20.4% in severe deficiency and 73.1% versus 65.7% in mild deficiency). In a linear regression analysis number of remaining teeth were significantly associated with vitamin D levels in the control group (p = 0.002 among COPD group, and p <0.001 among control group). On multivariate analysis, it was found that there was a significant correlation between lower vitamin D levels and poor indices only in COPD patients who were former smokers. Though retrospective, this study shows a positive association between vitamin D status and periodontal health.
Alshouibi et al. in 201317 conducted a study to see the association between vitamin D and periodontal health in older men. Study participants were selected from adult males who were examined under the Department of Veterans Affairs Dental Longitudinal study (VADLS). Five hundred and sixty- two members with a mean age of 62.9 years were examined 1-4 times between 1986 and 1998, over a period of 12 years. The periodontal examination consisted of calibrated examiner measured probing pocket depth (PPD) and attachment Loss (AL) on each tooth. Radiographs were used for determining alveolar bone loss (ABL). Severe clinical periodontal disease was defined as at least 1 site with PPD >5 mm and 2 or more sites with AL >6 mm, not on the same tooth. Moderate to severe ABL was defined as at least 3 proximal sites (i.e., >2 teeth) with 40% or more bone loss. A standard questionnaire was used to calculate total nutrient intake. Three cut off points for a dose of vitamin D were used. These were daily intakes of less than 400 IU, equal to or more than 400 IU but less than 800 IU, and 800 IU or more. These cut-off points were based on the dietary recommendations from the International Osteoporosis Foundation (IOF) and the Institute of Medicine (IOM). Results showed that total vitamin D intake was inversely associated with odds of severe periodontitis and moderate to severe ABL after adjusting for demographic and other confounding parameters. The odds of severe periodontitis among men consuming > 800 lU/day were 0.67 (95% CI, 0.55-0.81) relative to those of men consuming <400 lU/day.On further analysis, it was observed that Each 100 IU increment in daily total vitamin D intake was independently associated with reduced odds of severe periodontal disease (OR = 0.97, 95% Cl = 0.96-0.98) and moderate-to-severe ABL (OR = 0.95, 95% Cl = 0.91-0.99). The authors concluded that the maintenance of vitamin D intake near or above the recommendations could be a safe and effective method of reducing periodontal disease prevalence. This can be done either by improving the nutrition or giving supplementary doses of vitamin D.
Hiremath et al.18 conducted a dose-response randomized control trial in 2013 to assess the effect of vitamin D on gingival health. The basis of this study was to see the anti-inflammatory effect of various doses of vitamin D in patients with gingivitis. The study was conducted in Belgaum India. Males and females aged 18-64 years diagnosed with different stages of gingivitis were recruited for the study. The other inclusion criterion was the serum levels of 25 hydroxyvitamin D to range between 20-65 ng/ ml at the baseline. Ninety-six recruited subjects were randomized in four groups. Group A subjects received vitamin D in a dose of 2000 IU per day, group B subjects received 1000 IU of vitamin D per day, group C subjects were given 500 IU of vitamin D daily and the fourth group D were given placebo. The follow-up visits were at 30, 60 and 90 days. It was observed that there was a significant change in the gingival score in all the interventional groups except placebo group and the response was directly proportional to the dose of vitamin D. Significant anti-inflammatory effect was seen in group A at one month, group B at 2 months and 3 months in group C (p <0.0001). This study has a lot of limitations. The details of treatment given to the patients and the effect of age on the response have not been mentioned.
Schroth et al. in 201619 conducted a study to assess the relationship between vitamin D status and dental caries in school children participating in the Canadian Health Measures Survey (CHMS). It was a cross-sectional survey of children 6-11 years of age. The methodology included a questionnaire and dental examination. Twelve calibrated dental physicians completed the dental examinations. Presence or absence of caries and DMFT index were the two outcome variables. Vitamin D status was determined by measuring serum concentrations of 25 (OH) vitamin D. Levels of >75 nmol/L were taken as optimal. More than 1000 students participated in the study. Fifty-six percent of them had evidence of caries. The DMFT score was 2.47. 87.5% of children had vitamin D concentration >50 nmol/L and 49.7% had optimal concentrations. Children with optimal concentrations of vitamin D had significantly lower odds for caries (OR = 0.57, 95% CI 0.39 to 0.82). On applying the logistic analysis it was observed that 25(OH)D levels >50 nmol/L were significantly and independently associated with lower adjusted odds for caries (OR = 0.46, 95% CI 0.26 to 0.83).
Chantarangsu et al. in 201620 conducted a cross-sectional study in Thai population to see the relationship between chronic periodontitis (CP) and vitamin D polymorphism. 1460 patients aged 39-66 years were recruited. Vitamin D polymorphism was estimated by real-time PCR technique. Patients were divided into three groups: mild, moderate and severe chronic periodontitis. Severe CP was associated with Fokl polymorphism with an odds ratio of 1.9. The combination of being a smoker and having polymorphism increased the risk of CP (OR 9.6). Smoking and vitamin D polymorphism had a synergistic effect.
In another study by Orlando et al.21 in 2016, the association between vitamin D levels and chronic periodontitis was evaluated in Puerto Rican adults. It was a case-control study where 24 adults with moderate and severe periodontitis were compared with an equal number of healthy controls. They were matched for age, sex, and BMI. A complete periodontal examination was carried out and serum levels of 25(OH) D levels were estimated. Results showed significantly lower mean serum levels of vitamin D in cases (18.5 + 4.6 ng/mL) than in controls (24.2 + 7.1 ng/mL) with p value of 0.006. Odds of having periodontal disease per unit of vitamin D level were lower (OR 0.885;95% CI 0.785, 0.997; p <0.05).
Sonja et al. in 201622 conducted a study to see the association between tooth loss and serum concentrations of 25 hydroxyvitamin D levels in a cohort of postmenopausal women. At baseline number of missing teeth was noted and 5-year tooth loss was recorded at follow up. After applying logistic regression it was observed that there was no association between history of tooth loss and vitamin D status.
Raza et al.23 conducted a randomized controlled trial to see the effect of vitamin D supplementation during pregnancy on the periodontal health of the mother and birth weight of the baby. This study was carried out in 85 Pakistani women during early pregnancy. Periodontal examination was carried out and periodontal probing depth (PD), bleeding on probing (BOP) and attachment loss (AL) were assessed. Serum vitamin D levels were measured. Birth weights of the neonates were recorded. On analysis, it was seen that there was no difference in birth weight and periodontal status when compared between both groups.
Lee et al. in 201524 conducted a cross-sectional study to see the association between vitamin D status and periodontitis. More than 6000 subjects participating in the Korea National Health and Nutrition Examination Survey were examined. Serum vitamin D levels were assessed and deficiency was defined as levels <20 ng/ mL. Community periodontal index (CPI) was used as a parameter to define periodontal health. On analysis, it was found that there was no association between vitamin D levels and periodontitis. Some association was seen only in current smokers.
Antonoglou et al. in 201525 conducted a study to see the protective effect of vitamin D on periodontal health by measuring pocketing and gingival bleeding. Subjects were selected from the Finnish Health 2000 survey. Serum levels were assessed for 25(OH) D and periodontal examination consisted of measuring periodontal pockets and looking for bleeding sextants. There was no association between vitamin D levels and teeth with deep periodontal pockets and the number of bleeding sextants thus negating the role of vitamin D in periodontal health.
In Buffalo, Osteo Perio study by Millen et al.26 association between 25(OH)D levels and 5 years follow-up status of periodontal health in postmenopausal women was investigated. The parameters for oral health used included, alveolar crest height, clinical attachment level, probing depth and percentage of gingival sites that bled on assessment. There was no association between vitamin D status and subsequent 5-year change in periodontal disease measures.
Millen et al. in 201327 conducted a cross-sectional study in 900 postmenopausal women to assess the association between 25(OH) D concentration and periodontal disease. Indicators of chronic disease were alveolar crestal height (ACH), tooth loss, clinical attachment level and probing depth (CDC and AAP criteria). Acute inflammation was assessed by gingival bleeding sites. Vitamin D levels were defined as adequate 25(OH)D >50 ng/mL) and inadequate 25(OH)D <50 ng/mL). There was no association between vitamin D levels and periodontal disease defined by ACH and tooth loss. On the other hand women with adequate vitamin D levels had 33% lower odds of having chronic periodontal disease as per CDC/AAP criteria when compared to inadequate vitamin D status. Women with adequate vitamin D had 42% lower odds of having >50% of bleeding gingival sites thus proving the role of vitamin D as anti-inflammatory or immune-modulator.
Vitamin D in Immunecompromised Population
In a group of immunecompromised person effect of vitamin D on oral health may be different. In such a study by Sroussi et al.28 in 2012, the relationship between oral candidiasis and vitamin D levels in HIV positive women was studied. A subset of women participating in women's interagency HIV study (WIHS) was further examined for evidence of oral candidiasis. Serum 25(OH) vitamin D levels were measured in 84 Chicago HIV positive women. Fourteen (16,7%) were diagnosed with oral candidiasis. Fifteen women were vitamin D sufficient, 23 were vitamin D insufficient and 34 women were deficient in vitamin D. The prevalence rate of oral candidiasis was maximum (26.1%) in women with vitamin D deficiency which was significantly high as compared to other two groups (p < 0.05). On multivariate analysis of other associated factors for oral candidiasis, vitamin D deficiency emerged as a significant predictor of oral candidiasis with an adjusted odds ratio of 5.66 [95% confidence interval (CI) 1.01-31.71] (p <0.05). This study only found an association between vitamin D levels and OC, whether it is the cause can only be clarified by further prospective interventional studies.
Hence, the studies based on the relationship of periodontal health and vitamin D depict an overall positive impact of vitamin D in maintaining healthy periodontium.
Conclusion
Vitamin D plays a vital role in the overall maintenance of oral health. Literature is replete with studies of vitamin D and its association with oral health, but there is a paucity of randomized controlled trials regarding the effect of vitamin D in the unhealthy states.
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