Rivas DRA, Barrios CL

Language: Spanish
References: 44
Page:
PDF size: 59.47 Kb.

ABSTRACT

In the period from September 2011 to July 2012 a review of printed, frequent and classical publications was conducted at the Faculty of Dentistry of the Medical University in Vila Clara using search engines specialized in scientific information to obtain updates on the abnormalities in the number, shape and size of the teeth. The search is the second part of an article previously published in the journal Acta Medica del Centro and was enriched through exchanges with researchers on that theme. The theoretical contents found were properly analyzed and criticized by the authors in order to select the information to be used, which was grouped for presentation in four sub-themes: I Environment, genetics and dental alterations; II Association with systemic disorders; III Genes and tooth development; IV Future prospects. The collection, discrimination and ordering of the reviewed content led to this paper. It represents a new product that is useful as a teaching material and provides updated information on this controversial topic.

REFERENCES

1. Alaluusua SLP, Torppa J, Tuomisto J, Vartiainen T. Developing teeth as a biomarker of dioxin exposure. Lancet. 1999; 353: 206.

2. Longtin R. Chew on This: Mutation May Be Responsible for Tooth Loss, Colon Cancer. J Natl Cancer Inst. 2004; 96(13): 987-9.

3. Ishida K, Murofushi M, Nakao K, Morita R, Ogawa M, Tsuji T. The regulation of tooth morphogenesis is associated with epithelial cell proliferation and the expression of Sonic hedgehog through epithelial-mesenchymal interactions. Biochem Biophys Res Commun. 2011 feb 18; 405(3): 455-61.

4. Arcuri C, Zito I, Santini F, Muzzi F, Panetta V, Squitti R. Understanding the implications of the PAX9 gene in tooth development. Eur J Paediatr Dent 2011 dec; 12(4): 245-8.

5. Alaluusua SLP, Torppa J, Tuomisto J, Vartiainen T. Developing teeth as a biomarker of dioxin exposure. Lancet. 1999; 353: 206.

6. Longtin R. Chew on This: Mutation May Be Responsible for Tooth Loss, Colon Cancer. J Natl Cancer Inst. 2004; 96(13): 987-9.

7. Ishida K, Murofushi M, Nakao K, Morita R, Ogawa M, Tsuji T. The regulation of tooth morphogenesis is associated with epithelial cell proliferation and the expression of Sonic hedgehog through epithelial-mesenchymal interactions. Biochem Biophys Res Commun. 2011 feb 18; 405(3): 455-61.

8. Arcuri C, Zito I, Santini F, Muzzi F, Panetta V, Squitti R. Understanding the implications of the PAX9 gene in tooth development. Eur J Paediatr Dent 2011 dec; 12(4): 245-8.

9. Kapadia H, Frazier-Bowers S, Ogawa T, D'Souza RN. Molecular characterization of a novel PAX9 missense mutation causing posterior tooth agenesis. Eur J Hum Genet. 2006; 14(4): 403-9.

10. Nakatomi M, Wang X, Key D, Lund J, Turbe-Doan A, Peters H, et al. Genetic interactions between Pax9 and Msx1 regulate lip development and several stages of tooth morphogenesis. Dev Biol. 2010, apr 15; 340(2): 438-49.

11. Buzalaf M, Levy S. Fluoride intake of children: considerations for dental caries and dental fluorosis. Monog Oral Sci. 2011; 221: 19-32..

12. Nelsen K, Tayles N, Domett K. Missing lateral incisors in Iron Age South-East Asians as possible indicators of dental agenesis. Arch Oral Biol. 2001; 46(10): 963- 71.

13. Alaluusua S, Calderara P, Gerthoux PM, Lukinmaa PL, Kovero O, Needham L, et al. Developmental Dental Aberrations After the Dioxin Accident in Seveso. Environ Health Perspect. 2004 sep; 112(13): 1313-18.

14. Taboada Lugo N, Lardoyet Ferrer R, Quintero Escobar K, Torres Sánchez Y. Teratogenicidad embrio-fetal inducida por medicamentos. Rev Cubana Obstet Ginecol. [revista en Internet]. 2004 [citado 07 Feb 2007]; 30(1): [aprox. 2 p.]. Disponible en: http://bvs.sld.cu/revistas/gin/vol30_1_04/gin07104.htm

15. Garcia BC. Anomalías de la dentición: Número, tamaño y forma. In: Odontopediatría. Barcelona: MASSON SA; 2001. p. 53-84.

16. Sinikka Pirinen AK, Pekka Nieminen, Teppo V, Irma Thesle V, Sirpa A. Recessively inherited lower incisor hypodontia. J Med Genet. 2001; 38: 551-6.

17. Letra A, Menezes R, Granjeiro J, Vieira A. AXIN2 and CDH1 polymorphisms, tooth agenesis, and oral clefts. Birth Defects Research. Part A. Clin Mol Teratol. 2009 feb; 85(2): 169-173.

18. Callahan N, Modesto A, Meira R, Seymen F, Patir A, Vieira A. Axis inhibition protein 2 (AXIN2) polymorphisms and tooth agenesis. Arch Oral Biol 2009 Jan]; 54(1): 45- 49.

19. Parkin N, Elcock C, Smith R, Griffin R, Brook A. The aetiology of hypodontia: The prevalence, severity and location of hypodontia within families. Arch Oral Biol 2009 dec 2; 54: S52-S56.

20. Aretz DS, Uhlhaas S, Pagenstecher C, Mangold E, Caspari R, Propping P. Large submicroscopic genomic APC deletions are a common cause of typical familial adenomatous polyposis. J Med Genet. 2005; 42: 185-92.

21. Thakker N, Davies R, Horner K, Armstrong J, Clancy T, Guy S, et al. The dentalphenotype in familial adenomatous polyposis: diagnostic application of a weighted scoring system for changes on dental panoramic radiographs. J Med Genet. 1995; 32(6): 458-64.

22. Bastidas MA. Rodríguez AM. Agenesia dental en pacientes jóvenes. Rev Estomatol. 2004; 12(2): 34-43.

23. Robinson WM. Genética para Odontología. Porto Alegre: Editora Artemed; 2006.

24. Nele Mattheeuws L, Da GM. Has hypodontia increased in Caucasians during the 20th century? A meta-analysis. Eur J Orthodont. 2004; 26: 99-103.

25. Wei Y, Lihua C, Wenli L, Li J, Miao S, Xue Z, et al. Novel point mutations in GDF5 associated with two distinct limb malformations in Chinese: brachydactyly type C and proximal symphalangism. J Human Genet 2008; 53(4): 368-74.

26. Cobourne MT, Sharpe PT. Tooth and jaw: molecular mechanisms of patterning in the first branchial. Arch Oral Biol. 2003; 48(1): 1-14.

27. Kettunen P, Spencer-Dene B, Furmanek T, Kvinnsland I, Dickson C, Luukko K, et al. Fgfr2b mediated epithelial-mesenchymal interactions coordinate tooth morphogenesis and dental trigeminal axon patterning. Mech Dev. 2007 nov; 124(11-12): 868-83.

28. Yang W, Cao L, Liu W, Jiang L, Sun M, Zhang X, et al. Novel point mutations in GDF5 associated with two distinct limb malformations in Chinese: brachydactyly type C and proximal symphalangism. J Human Genet. 2008; 53(4): 368-74.

29. Jernvall JTI. Reiterative signaling and patterning during mamalian tooth morphognesis. Mech Dev. 2000; 92: 19-29.

30. Kawada S, Koyasu K, Zholnerovskaya EI, Oda S. Analysis of dental anomalies in the Siberian mole, Talpa altaica (Insectivora, Talpidae). Arch Oral Biol. 2006; 51(11): 1029-39.

31. Trevor JPPDPIP. Hypodontia: genetics and future perspectives. Br J Oral Sci. 2005;4(13): 1677-82.

32. Kolenc Fuse FJ. Agenesias dentarias: en busca de las alteraciones genéticas responsables de la falta de desarrollo. Med Oral Patol Oral Cir Bucal. 2004; 9: 385- 95.

33. Chun S, Lee H, Choi Y, Kim K, Baek S, Park E, et al. Analysis of the soluble human tooth proteome and its ability to induce dentin/tooth regeneration. Tissue Engineering. 2011 jan; 17(1-2): 181-91.

34. Oshima M, Mizuno M, Imamura A, Ogawa M, Yasukawa M, Tsuji T, et al. Functional tooth regeneration using a bioengineered tooth unit as a mature organ replacement regenerative therapy. Plos One. 2011; 6(7): e215-31.

35. Caton J, Bostanci N, Remboutsika E, De Bari C, Mitsiadis T. Future dentistry: cell therapy meets tooth and periodontal repair and regeneration. J Cell Mol Med. 2011 may; 15(5): 1054-65.

36. Jussila M, Thesleff I. Signaling networks regulating tooth organogenesis and regeneration, and the specification of dental mesenchymal and epithelial cell lineages. Cold Spring Harb Perspect Biol. 2012 apr 1; 4(4): 54-8

37. Laurikkala J. Molecular mechanisms of ectodermal dysplasia syndromes [tesis]. Finland: Universidad de Helsinki; 2004

38. Heymann R, About I, Lendahl U, Franquin J-C, Obrink B, Mitsiadis TA. E- and NCadherin Distribution in Developing and Functional Human Teeth under Normal and Pathological Conditions. Am J Pathol. 2002; 160(6): 2123-33.

39. Harold CS. What is in a tooth ?. JADA. 1997; 128: 366-9.

40. Arte S. Phenotypic and genotypic features of familial hypodontia [dissertation]. Helsinki: University of Helsinki; 2001.

41. Mustonen T. Ectodermal organ development [tesis]. Helsinki: Institute of Dentistry; 2004.

42. Yang Chai HCS. Prospects for tooth regeneration in the 21st century: A perspective. Microsc Res Tech. 2003 apr 1; 60(5): 469-79.

43. National Institute of Dental and Craniofacial Research, Genetics Workgroup. Bethesda, Maryland (EUA): Final Report of Genetics Workgroup Meeting; 1999.

44. NIH/National Institute of Dental and Craniofacial Research. Maryland National Institutes of Health (NIH); 2012.