DİŞ SÜRMESİNDE D VİTAMİNİNİN ROLÜ; DERLEME

Year 2022, Volume: 2 Issue: 2, 111 - 115, 25.08.2022

Meryem Şahin İsmet Rezani Toptancı

Abstract

Erüpsiyon, dişin gelişiminin başlangıcından fonksiyona katılmasına kadar devam eden dinamik bir süreçtir. Çeşitli mineral ve hormon eksiklikleri; sürme gecikmesine, hipomineralizasyona, alveolar kemik yapısında bozulmaya neden olabilmektedir. Dental gelişim şekli süt ve daimi dişlerin persiste kalmasına ve gecikmiş diş sürmesine neden olabilmektedir. Sürme gecikmesi, cinsiyet ve etnik köken dışında, bazı durumlardan dolayı zamanı gelmesine rağmen dişin ağız ortamında görülmemesidir. D vitamini, yağda çözünen bir vitamindir. D vitamini yaş ve cinsiyetten bağımsız olarak sürme gecikmesine neden olabilmektedir. Bu derlemenin amacı D Vitamini ile sürme gecikmesi arasındaki ilişkiyi tanımlamaktır. Pedodonti pratiğinde oldukça sık karşılaşılan sürme gecikmelerinde D vitamininin rolünün incelenmesi oldukça önemlidir.

Keywords

Sürme Gecikmesi, Vitamin D, Mineralizasyon

Supporting Institution

yok

Project Number

yok

Thanks

yok

THE ROLE OF VITAMIN D IN ERUPTION; REVIEW

Abstract

The eruption is a dynamic process that continues from the beginning of the development of the tooth to its participation in function. Various mineral and hormone deficiencies; It can cause delayed eruption, hypomineralization, and deterioration in alveolar bone structure. The dental development pattern may cause persistent primary and permanent teeth and delayed eruption. The delayed eruption is the absence of a tooth in the oral environment, although due to some circumstances, apart from gender and ethnicity. Vitamin D is a fat-soluble vitamin. Vitamin D may cause delayed eruption regardless of age and gender. This review aims to describe the relationship between Vitamin D and delayed eruption. It is very important to examine the role of vitamin D in delayed eruption, which is quite common in pediatric dentistry.

Keywords

Delayed Eruption, Vitamin D, Mineralization

Project Number

yok

References

• 1. Craddock HL, Youngson C. Eruptive Tooth Movement- The Current State of Knowledge. Br Dent J. 2004; 197(7): 385-91.
• 2. Schour I. The Development of the Human Dentition. J Am Dent Assoc. 1941; 28: 1153-60.
• 3. Koch G, Thesleff I. Developmental Disturbances in Number and Shape of Teeth andTheir Treatment. Pediatric Dentistry- A Clinical Approach. 1st ed. 2001. p 253-71.
• 4. Nanci A. Ten Cate’s Oral Histology-E-Book: Development, Structure, and Function. Elsevier Health Sciences; 2017. 352 p.
• 5. Järvinen E, Tummers M, Thesleff I. The Role of the Dental Lamina in Mammalian Tooth Replacement. J Exp Zool Part B Mol Dev Evol. 2009; 312(4): 281-91.
• 6. Thesleff I, Tummers M. Tooth Organogenesis and Regeneration. Stem Book. Stem Cell Community. 2009.
• 7. Buchtová M, Ŝtembírek J, Glocová K, Matalová E and Tucker AS. Early Regression of the Dental Lamina Underlies the Development of Diphyodont Dentitions. J Dent Res. 2012; 91(5): 491-8.
• 8. Pinkham J. Pediatric Dentistry Infancy Through Adolescence. 4th ed. Mosby; 2005. 768 p.
• 9. Gökçek M, Bodrumlu EH, Özkalaycı N. Diş Sürmesi. 7Tepe Klin Derg. 2016; 12(3): 35-44.
• 10. Juyol M. Mechanismos Y Teorias De La Erupción Dentaria. Estado Actual. Rev Eur Odontoestomatol. 2002; 14(6): 349-56.
• 11. Alligri A, Putrino A, Cassetta M, Silvestri A, Barbato E, Galluccio G. The Mandibular Permanent Second Molars and Their Risk of Impaction: A Retrospective Study. Eur J Paediatr Dent. 2015; 16(3): 246-50.
• 12. Moorrees C, Fanning E, Hunt E. Age Variation of Formation Stages for Ten Permanent Teeth. J Dent Res. 1963; 42(6): 1490-502.
• 13. Xavier T, Madalena I, da Silva R, da Silva L, Silva M, De Roosi A, et al. Vitamin D Deficiency is a Risk Factor for Delayed Tooth Eruption Associated with Persistent Primary Tooth. Acta Odontol Scand. 2021; 79(8): 600-5.
• 14. Manouvrier-Hanu S, Devisme L, Vaast P, Boute-Benejean O, Farriaux JP. Fryns Syndrome and Erupted Teeth in a24-Weeks- Old Fetus. Genet Couns. 1996; 7(2): 131-4.
• 15. Cunha RF, Boer FAC, Torriani DD, Frossard WTG. Natal and Neonatal Teeth: Review of the Literature. Pediatr Dent. 2001; 23(2): 158-62.
• 16. Moorrees CFA, Grøn AM, Lebret LML, Yen PKJ, Fröhlich FJ. Growth Studies of the Dentition: A Review. Am J Ortod. 1969; 55(6): 600-16.
• 17. Pulse CL, Moses MS, Greenman D, Rosenberg SN, Zegarelli DJ. Cherubism: Case Reports and Literature Review. Dent Today. 2001; 20(11): 100-3.
• 18. Shafer W. Cherubism. A Textbook of Oral Pathology. W.B. Saunders Company; 1983. p 699-702.
• 19. Psoter WJ, Reid BC, Katz RV. Malnutrition and Dental Caries. Caries Res. 2005; 39(6): 441-7.
• 20. Moynihan P. The Relationship Between Nutrition and Systematic and Oral Well-being in Older People. J Am Dent Assoc. 2007; 138(4): 493-7.
• 21. Uwitonze A, Rahman S, Ojeh N, Grant W, Kaur H, Haq A, et al. Oral Manifestations of Magnesium and Vitamin D Inadequacy. J Steroid Biochem Mol Biol. 2020; 200: 105636.
• 22. Wilson M. Food Constituents and Oral Health: Current Status and Future Prospects. Elsevier; 2009. 568 p.
• 23. Elamin F, Liversidge H. Malnutrition Has No Effect on the Timing of Human Tooth Formation. PLoS One. 2013; 8(8): e72274.
• 24. Wright N, Chen L, Niu J, Neogi T, Javiad K, Nevitt M, et al. Defining Physiologically ‘Normal’ Vitamin D in African Americans. Osteoporos Int. 2012; 23(9): 2283-91.
• 25. Slominski A, Kim TK, Zmijewski MA, Janjetovic Z, Li W, Chen J, et al. Novel Vitamin D Photoproducts and Their Precursos in the Skin. Dermatoendocrinol. 2013; 5(1): 7-19.
• 26. Jacquillet G, Unwin R. Physiological Regulation of Phosphate by Vitamin D, Parathyroid Hormone (PTH) and Phosphate (Pi). Pflügers Arch Eur J Physiol. 2019; 471(1): 83-98.
• 27. Rodwell V, Bender D, Botham K, Kennelly P. Harper’s Illustrated Biochemistry. 2018. 777 p.
• 28. McKenna M, McCarthy R, Kilbane M, Molloy E. Vitamin D Nutrient Intake for All Life Stages. Ir Med J. 2011; 104(4): 102.
• 29. Holick MF, Binkley NC, Bischoff-Ferrari HA, Gordon CM, Hanley DA, Heaney RP, et al. Evaluation, Treatment, and Prevention of Vitamin D Deficiency: an Endocrine Society Clinical Practice Guideline. J Clin Endocrinol Metab. 2011; 96(7): 1911-30.
• 30. Simon A, Ahrens K. Adherence to Vitamin D Intake Guidelines in the United States. Pediatrics. 2020; 145(6): e20193574.
• 31. Antonenko O, Bryk G, Brito G, Pellegrini G, Zeni SN. Oral Health in Young Women Having a Low Calcium and Vitamin D Nutritional Status. Clin Oral Investigations. 2015; 19(6): 1199-206.
• 32. Dixon D, Hildebolt C, Miley D, Garcia M, Pilgram T, Couture R, et al. Calcium and Vitamin D Use Among Adults in Periodontal Disease Maintenance Programmes. Br Dent J. 2009; 206(12): 627-31.
• 33. Stein SH, Livada R, Tipton DA. Re-Evaluating the Role of Vitamin D in the Periodontium. J Periodontal Res. 2014; 49(5): 545-53.
• 34. Ali N, Rahim A, Ali S, Iqbal MH. Impact of Vitamin D on Development of Early Childhood Caries. Pak Armed Forces Med J. 2017; 67(3): 429-33.
• 35. Mckee M, Hoac B, Addison W, Barros N, Millan J, Chaussain C. Extracellular Matrix Mineralization in Periodontal Tissues: Noncollagenous Matrix Proteins, Enzymes, and Relationship to Hypophosphatasia and X-Linked Hypophosphatemia. Periodontol 2000. 2013; 63(1): 102-22.
• 36. Kamarthi N, Venkatraman S, Patil P. Dental Findings in the Diagnosis of Idiopathic Hypoparathyroidism. Ann Saudi Med. 2013; 33(4): 411.
• 37. Feldman D, Pike JW, Adams JS. Vitamin D-Two Volume Set. Academic Press; 2011. 2144 p.
• 38. Andersen MG, Beck-Nielsen SS, Haubek D, Hintze H, Gjorub H, Poulsen S. Periapical and Endodontic Status of Permanent Teeth in Patients with Hypophosphatemic Rickets. J Oral Rehabil. 2012; 39(2): 144-50.
• 39. Meikle M. The Tissue, Cellular, and Molecular Regulation of Orthodontic Tooth Movement: 100 Years After Carl Sandstedt. Eur J Orthod. 2006; 28(3): 221-40.
• 40. Nimeri G, Kau CH, Abou-Kheir NS and Corona R. Acceleration of Tooth Movement During Orthodontic Treatment-A Frontier in Orthodontics. J Pharm Sci Res. 2017; 9(5): 741-4.
• 41. Dhamo B, Miliku K, Voortman T, Tiemeier H, Jaddoe V, Wolvius E, et al. The Associations of Maternal and Neonatal Vitamin D With Dental Development in Childhood. Curr Dev Nutr. 2019; 3(4): 1-10.
• 42. Jairam LS, Konde S, Raj NS, Kumar NC. Vitamin D Deficiency as an Etiological Factor in Delayed Eruption of Primary Teeth: A Cross-Sectional Study. J Indian Soc Pedod Prev Dent. 2020; 38(3): 211.
• 43. Crincoli V, Cazzolla AP, di Comite M, lo Muzio L, Ciavarella D, Dioguardi M, et al. Evaluation of Vitamin D (25OHD), Bone Alkaline Phosphatase (balp), Serum Calcium, Serum Phosphorus, Ionized Calcium in Patients with Mandibular Third Molar Impaction. An Observational Study. Nutrients. 2021; 13(6): 1-15.
• 44. Van Der Taas J, Elfrink MEC, Heijboer AC, Rivadeneira F, Jaddoe VWV, Tiemeier H, et al. Foetal, Neonatal and Child Vitamin D Status and Enamel Hypomineralization. Community Dent Oral Epidemiol. 2018; 46(4): 343-51.