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Effects of Micronutrients on Periodontal Health and Disease

Mengyi Shi, DMD; Andrea Pizzini, DDS, MS; and Maria L. Geisinger, DDS, MS

November 2021 Issue - Expires Saturday, November 30th, 2024

Inside Dentistry

Abstract

In addition to systemic and environmental risk factors, such as smoking, diabetes mellitus, and alcohol consumption, recent findings suggest that periodontitis is also influenced by local and serum/plasma micronutrient levels, which are dependent upon diet, lifestyle factors, and nutrigenetic characteristics. Although micronutrients are dietary compounds that are only required in minute quantities by living organisms, they are essential for health, growth, and metabolism. Examples of micronutrients include vitamins, minerals, trace elements, and amino acids. Research indicates that regular dietary and supplemental consumption of certain micronutrients may influence periodontal health and that deficiencies of such micronutrients may play a role in the onset or exacerbation of periodontal diseases. This influence may be mediated by the individual impact of micronutrients on dysbiotic oral biofilms and/or the immunoinflammatory host response. This article reviews the association between micronutrient levels and periodontitis as well as their underlying physiologic mechanisms and evaluates various micronutrients and their influence on periodontal etiology, disease progression, and response to therapy.

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Approximately 12% of the entire global population is affected by severe periodontitis,1 and data suggest that 46% of US adults over 30 years of age have some form of destructive periodontitis.2 In the United States, less than 10% of the population is thought to have nutritional deficiencies; however, when adjusted for age, gender, race, and ethnicity, deficiencies for some nutritional indicators can be as high as one third of certain population groups.3 The three most common deficiencies in the United States are for vitamin B, iron, and vitamin D. Less common deficiencies include those for vitamin A, vitamin E, and folate.3 Given the known impact of micronutrient deficiencies on overall health and oral health, it is imperative that oral healthcare providers understand the relationship between deficiencies in specific nutrients and their effects on periodontal health.

Periodontitis is an inflammatory disease affecting the supporting tissues of the teeth (eg, gingival tissues, cementum, periodontal ligament, alveolar bone) that is initiated by dysbiotic dental plaque biofilm in a susceptible host.4 Bacteria and bacterial byproducts within such biofilms initiate a host immunoinflammatory response, which results in soft- and hard-tissue destruction. The bidirectional interaction between periodontitis and many health conditions has been well-established through epidemiologic studies.5 A similar bidirectional influence between periodontitis and nutrient deficiencies has been suspected due to findings of decreased numbers of erythrocytes and hemoglobin levels among periodontitis patients.6 Recent data have linked serum/plasma micronutrient levels to periodontal disease status. These micronutrient levels are dependent upon diet, lifestyle factors, and/or nutrigenetic characteristics and impact the function of many systems throughout the body.7 Micronutrient deficiencies, particularly those involving vitamin C, vitamin D, or vitamin B12, may be related to the onset and progression of periodontal disease. Functional foods or probiotics may be helpful in the prevention of periodontal disease and during the active treatment of periodontitis; however, there is a limited understanding of the biologic mechanisms involved.5

Facilitating optimal nutrient intake may provide an adjunctive method to prevent the development of periodontal disease and improve outcomes during periodontal therapy. Dietary supplements, such as juice powder, calcium, and vitamin D, have demonstrated a positive impact on periodontal clinical parameters when used adjunctively to ongoing periodontal therapy.8 In addition, trace mineral micronutrients, such as iron, zinc, copper, and selenium, are essential for regulating the immunoinflammatory pathways, and their levels in the human body may be reflective of the state of the ongoing destructive process in patients with chronic periodontitis.5

Antioxidants

One commonality between periodontitis and other inflammatory conditions is the presence of reactive oxygen species (ROS) in excess. This leads to oxidative stress, which is an imbalance between free radicals and antioxidants in the body.9 Free radicals are unstable atoms split from oxygen molecules that can damage cells and are linked to various diseases. Conversely, antioxidants can prevent or reduce the damage done by ROS.9 Total antioxidant capacity is often evaluated during a disease state to determine the antioxidant response against ROS.9 The gingival crevicular fluid at sites with periodontitis demonstrates depleted total antioxidant capacity, which is likely due to the oxidative stress related to local inflammation. The performance of periodontal therapy, such as scaling and root planing, can restore a healthy total antioxidant capacity to the gingival crevicular fluid by reducing local inflammation.9 Limited evidence exists regarding the effect of specific antioxidants on periodontal health. This may be due to the combinatorial effects of antioxidants in vivo because they are able to recycle each other from their oxidized counterparts.9 Nonetheless, antioxidants such as vitamins A, C, and E and their relationship to periodontal disease are of interest to researchers, clinicians, and patients alike.

Vitamin A

Beta-carotene, a natural pigment responsible for the red, orange, and yellow colors in many fruits and vegetables, is a precursor to vitamin A, or retinol. It functions as an antioxidant, scavenging for free radicals, and also helps to maintain the integrity of epithelial cells. Considering beta-carotene's antioxidant potential, studies suggest that a significant inverse association exists between it and periodontitis.10 Beta-carotene deficiency has been associated with periodontitis prevalence and gingival bleeding, and its antioxidant properties may significantly contribute to the maintenance of periodontal health.11 For example, in nonsmokers with generalized periodontitis, a higher dietary intake of beta-carotene and other antioxidants has been associated with greater reductions in probing depths following nonsurgical periodontal therapy.11

Vitamin C

Vitamin C (ie, ascorbic acid) facilitates collagen synthesis and acts to protect against tissue damage by scavenging ROS.12 Historically, cases of scurvy, a disease caused by extreme vitamin C deficiency, were frequent among sailors who lacked access to vitamin C-containing foods during long voyages at sea. Due to scurvy's association with severe gingival bleeding and tooth mobility, it has been postulated that vitamin C deficiency plays a role in gingivitis. In one study, consumption of a 7-day diet that was adequate in all nutrients except for vitamin C resulted in no changes in plaque index or probing depths; however, increased bleeding on probing was noted.12 In another, an inverse relationship between the prevalence of inflammatory periodontitis and serum antioxidant vitamin C concentrations was found, and this relationship was stronger with more severe forms of periodontal disease and in those who had never been smokers.13Research has shown that dietary supplementation with grapefruit for 2 weeks increased plasma vitamin C levels and improved sulcular bleeding scores.14 Vitamin C may also weaken the cytotoxic effects of Porphyromonas gingivalis, a known periodontal pathogen, on human gingival fibroblasts.13,15 Given these findings, it is likely that adequate vitamin C intake may contribute to improved periodontal health and outcomes of periodontal therapy.

Vitamin E

Vitamin E consists of a group of lipid-soluble compounds with a characteristic phenolic-chromanol ring linked to an isoprenoid side chain.16 Vitamin E plays important antioxidant and anti-inflammatory roles, and it has been suggested that it improves periodontal treatment outcomes.16 Serum levels of alpha-tocopherol, a saturated form of vitamin E, have been inversely associated in a nonlinear trend with mean probing depths and periodontal disease severity.17 Furthermore, vitamin E supplementation has demonstrated a reduction in bleeding upon probing and periodontal inflammation.18 A higher intake of vitamins A, B, C, and E along with omega-3 fatty acids has been demonstrated to improve healing after nonsurgical periodontal therapy in nonsmokers but not in smokers.11 These preliminary findings suggest that vitamin E can play a role in improving periodontal outcomes and that its supplementation may present an advantage during initial healing after periodontal therapy.

Vitamin B Complex

Vitamin B complex refers to eight water-soluble vitamins that together perform functions essential to the body.16 The B complex vitamins include thiamine (B1), riboflavin (B2), niacin (B3) pantothenic acid (B5), pyridoxine (B6), biotin (B7), folate (B9), and cobalamin (B12). Although all of the vitamins in the vitamin B complex are required for cell growth, vitamins B1, B2, B3, and B7 are mainly involved in energy production. Vitamin B6 is necessary for amino acid metabolism, and B9 and B12 aid in cellular division.16 Vitamin deficiencies in the complex may also play a role in the progression and severity of periodontal disease. Vitamin B2, B3, B6, and B12 deficiencies have been linked to hemorrhagic gingivitis and periodontitis.19 These vitamins support healthy immune functions by strengthening epithelial barriers as well as cellular and humoral immune responses.19 Vitamin B complex supplementation has been associated with statistically significant higher mean clinical attachment gain in both shallow and deep sites.20 Although heterogeneity exists in clinical investigations, the direct effect of these micronutrients may be influenced by other factors, such as age and smoking status, which can obscure results.20 Additional research to assess the relationship between vitamin B complex and periodontal health is needed.

Vitamin D and Calcium

Vitamin D includes several forms of cholecalciferol, a hormone whose biologically active form is known as calcitriol.21 It is well-known that Vitamin D plays a role in the regulation of plasma calcium and phosphorus levels for bone metabolism, but it is also essential for cellular development, neuromuscular functions, and inflammatory system modulation.21 Vitamin D has also been found to inhibit pro-inflammatory cytokines and T-lymphocyte proliferation.21 Because it is present in very few naturally occurring food sources, exposure to sunlight is the most common source.21 Vitamin D and the vitamin D receptor complex interact with receptor activator of nuclear factor kappa-B ligand (RANKL) expression and downregulate osteoprotegerin, thereby increasing differentiation and activation of osteoclasts and consequently bone resorption. When vitamin D levels become low, parathyroid hormone indirectly stimulates bone resorption in order to increase them; therefore, increasing vitamin D intake may reduce bone resorption. Dietary studies suggest that individuals in the highest quintile of daily dairy product intake are 20% less likely to have periodontitis than those in the lowest quintile of intake.22 However, this finding may also be related to overall nutritional status and/or socioeconomic status. In addition, Vitamin D deficiency has been linked to adverse periodontal treatment outcomes and poor wound healing for up to one year postoperatively.23

Essential Trace Minerals

Balanced levels of trace minerals are essential for optimal host immune responses and have been found to play a role in preventing the progression of chronic conditions, including periodontitis.10 Iron (Fe++), the most abundant essential trace mineral, serves many functions in the human body and is found mainly in the blood.24 The recommended daily allowance of iron varies with age and gender, and the highest levels are recommended for women of reproductive age.24 Within the periodontal structures, iron plays an important role in maintaining alveolar bone homeostasis. In animal models, periodontal ligament cells have been shown to regulate iron uptake and control the cytodifferentiation of cells into osteoblasts and mineralization.24 In addition, iron has a number of functions in the innate and adaptive immune responses. Although evidence linking iron deficiencies to the development of periodontitis is sparse, inflammation from periodontitis may result in an increase of pro-inflammatory cytokines, which then suppress erythropoiesis in the bone marrow and lead to periodontal disease progression.6

Other essential trace minerals, including selenium, zinc, and copper, have antioxidant enzymes that can aid in neutralizing ROS and prevent tissue damage, and they also play important roles in regulating immune function and wound healing.25 Therefore, achieving ideal levels of these micronutrient minerals may be a critical component of periodontal care.25

Conclusion

To maintain optimal periodontal health and maximize the response to periodontal therapy, excellent nutrition is critical. Table 1 outlines the recommendations for the daily intake of micronutrients and the current evidence regarding their individual roles in improved periodontal health before, during, and after periodontal therapy.26 Possible mechanisms for the relationships between micronutrients and periodontitis development, progression, and wound healing have been proposed based on the underlying mechanisms of action of the individual micronutrients. Although available research regarding the supplementation of micronutrients indicates promising results, further investigation is necessary. Additional randomized, controlled, longitudinal human studies are still needed to develop a more robust understanding of the relationships between individual micronutrients and periodontal health. It should be noted, however, that because the medical literature supports nutrition's critical role in wound healing processes and the maintenance of overall health, following the recommendations for daily micronutrient intake is not only beneficial to oral health but also beneficial to systemic health. Host susceptibility remains a necessary element of the onset and progression of periodontal disease; therefore, the modulation and influence of such susceptibility by improving micronutrient levels may improve and maintain periodontal health. Because nutrient supplementation is associated with minimal or no adverse effects, demonstrating the abilities of micronutrients to enhance treatment outcomes could reveal them to be a valuable adjunctive tool in the management of periodontal diseases.

Queries regarding this course may be submitted to authorqueries@aegiscomm.com

About the Authors

Mengyi Shi, DMD
Periodontics Resident
University of Alabama at Birmingham
School of Dentistry
Birmingham, Alabama

Andrea Pizzini, DDS, MS
Clinical Assistant Professor
Department of Periodontics
West Virginia University
School of Dentistry
Morgantown, West Virginia

Maria L. Geisinger, DDS, MS
Diplomate
American Board of Periodontology
Professor and Director
Advanced Education Program in
Periodontology
University of Alabama at Birmingham
School of Dentistry
Birmingham, Alabama

References

1. FDI World Dental Federation. Global periodontal health: challenges, priorities and perspectives. World Oral Health Forum 2017 Proceedings. https://www.fdiworlddental.org/sites/default/files/2020-11/2017-wohf_on_gphp-proceedings.pdf. Published August 31, 2017. Accessed September 16, 2021.

2. Eke PI, Dye BA, Wei L, et al. Update on prevalence of periodontitis in adults in the United States: NHANES 2009 - 2012. J Periodontol. 2015;86(5):611-622.

3. US Centers for Disease Control and Prevention. Second national report on biochemical indicators of diet and nutrition in the U.S. population 2012. CDC website. https://www.cdc.gov/nutritionreport/pdf/Nutrition_Book_complete508_final.pdf. Published April 2012. Accessed September 16, 2021.

4. Kilian M, Chapple ILC, Hanning M, et al. The oral microbiome-an update for oral healthcare providers. Br Dent J. 2016;221(10):657-666.

5. Chapple IL, Bouchard P, Cagetti MG, et al. Interaction of lifestyle, behaviour or systemic diseases with dental caries and periodontal diseases: consensus report of group 2 of the joint EFP/ORCA workshop on the boundaries between caries and periodontal diseases. J Clin Periodontol. 2017;44(Suppl 18):S39-S51.

6. Gokhale SR, Sumanth S, Padhye AM. Evaluation of blood parameters in patients with chronic periodontitis for signs of anemia. J Periodontol. 2010;81(8):1202-1206.

7. Hujoel PP, Lingström P. Nutrition, dental caries and periodontal disease: a narrative review. J Clin Periodontol. 2017;44(Suppl 18):S79-84.

8. Garcia MN, Hildebolt CF, Miley DD, et al. One-year effects of vitamin D and calcium supplementation on chronic periodontitis. J Periodontol. 2011;82(1):25-32.

9. Chapple ILC, Matthews JB. The role of reactive oxygen and antioxidant species in periodontal tissue destruction. Periodontol 2000. 2007;43:160-232.

10. Gaur S, Agnihotri R. Trace mineral micronutrients and chronic periodontitis-a review. Biol Trace Elem Res. 2017;176(2):225-238.

11. Dodington DW, Fritz PC, Sullivan PJ, Ward WE. Higher intakes of fruits and vegetables, β-carotene, vitamin C, α-tocopherol, EPA, and DHA are positively associated with periodontal healing after nonsurgical periodontal therapy in nonsmokers but not in smokers. J Nutr. 2015;145(11):2512-2519.

12. Leggott PJ, Robertson PB, Rothman DL, Murray PA, Jacob RA. The effect of controlled ascorbic acid depletion and supplementation on periodontal health. J Periodontol. 1986;57(8):480-485.

13. Socransky SS, Haffajee AD, Cugini MA, et al. Microbial complexes in subgingival plaque. J Clin Periodontol. 1998;25(2):134-144.

14. Staudte H, Sigusch BW, Glockmann E. Grapefruit consumption improves vitamin C status in periodontitis patients. Br Dent J. 2005;199(4):213-217.

15. Staudte H, Güntsch A, Völpel A, Sigusch BW. Vitamin C attenuates the cytotoxic effects of Porphyromonas gingivalis on human gingival fibroblasts. Arch Oral Biol. 2010;55(1):40-45.

16. Varela-López A, Navarro-Hortal MD, Giampieri F, Bullón P, Battino M, Quiles JL. Nutraceuticals in periodontal health: a systematic review on the role of vitamins in periodontal health maintenance. Molecules. 2018;23(5):1226.

17. Zong G, Scott AE, Griffiths HR, et al. Serum α-tocopherol has a nonlinear inverse association with periodontitis among US adults. J Nutr. 2015;145(5):893-899.

18. Willershausen B, Ross A, Försch M, et al. The influence of micronutrients on oral and general health. Eur J Med Res. 2011;16(11):514-518.

19. Maggini S, Wintergerst ES, Beveridge S, Hornig DH. Selected vitamins and trace elements support immune function by strengthening epithelial barriers and cellular and humoral immune responses. Br J Nutr. 2007;98(Suppl 1):S29-S35.

20. Neiva RF, Al-Shammari K, Nociti Jr FH, Soehren S, Wang HL. Effects of vitamin-B complex supplementation on periodontal wound healing. J Periodontol. 2005;76(7):1084-1091.

21. Hennig BJ, Parkhill JM, Chapple IL, et al. Association of a vitamin D receptor gene polymorphism with localized early-onset periodontal diseases. J Periodontol. 1999;70(9):1032-1038.

22. Al-Zahrani MS. Increased intake of dairy products is related to lower periodontitis prevalence. J Periodontol. 2006;77(2):289-294.

23. Bashutski JD, Eber RM, Kinney JS, et al. The impact of vitamin D status on periodontal surgery outcomes. J Dent Res. 2011;90(8):1007-1012.

24. Hou J, Yamada S, Kajikawa T, et al. Iron plays a key role in the cytodifferentiation of human periodontal ligament cells. J Periodontal Res. 2014;49(2):260-267.

25. Apon A, Kamble P. Role of trace minerals in periodontal health: a review. Clin Trials Degener Dis. 2019;4(2):30-36.

26. US Department of Health and Human Services and US Department of Agriculture. Dietary guidelines for Americans 2015-2020 eighth edition. HHS website. https://health.gov/sites/default/files/2019-09/2015-2020_Dietary_Guidelines.pdf. Published December 2015. Accessed September 16, 2021.

Table 1

Table 1

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PROVIDER: AEGIS Publications, LLC
SOURCE: Inside Dentistry | November 2021

Learning Objectives:

  • Discuss the prevalence of both periodontal disease and nutritional deficiencies and explain the known mechanisms behind their relationship. Describe how deficiencies in antioxidants, including vitamins A, C, and E, have been associated with periodontal disease as well as how sufficient intake has been associated with benefits during and after periodontal therapy.
  • Describe how deficiencies in vitamin B complex, vitamin D, and calcium have been associated with periodontal disease and poor healing as well as how sufficient intake has been associated with improved healing and osseointegration after surgery.
  • Explain the role that essential trace minerals play in regulating immune function, neutralizing ROS, and preventing tissue damage.

Author Qualifications:

Mengyi Shi, DMD: Periodontics Resident University of Alabama at Birmingham School of Dentistry Birmingham, Alabama; Andrea Pizzini, DDS, MS: Clinical assistant Professor Department of Periodontics West Virginia University School of Dentistry Morgantown, West Virginia; Maria L. Geisinger, DDS, MS Diplomate, American Board of Periodontology, Professor and Director Advanced Education Program in Periodontology University of Alabama at Birmingham School of Dentistry Birmingham, Alabama

Disclosures:

The author reports no conflicts of interest associated with this work.

Queries for the author may be directed to justin.romano@broadcastmed.com.