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Forensic odontostomatology

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DOI: 10.4236/fmar.2013.14019    3,299 Downloads   6,806 Views  

ABSTRACT

Teeth are the most durable and enduring structures of human anatomy, surviving fragmentation, partial incineration and severe decomposition. The role of teeth in identification is manifested as significant specifiers of deceased or living individuals. The characteristics of dentalmorphology are genetically-inherited and ascribable to racial or familial ancestry. Dental age identification is attributable to young individuals. The chemical composition of teeth identifies diets during life, as attritional wear patterns do. Bite marks transiently relate to the perpetrator of attacks. Dental restorations and prostheses are evidence of economic, cultural and social status of deceased individuals. Palatal rugae patterns are unique to individuals. The DNA identification of postmortem dental pulp tissue relating to a deceased individual or a living relative is the ultimate criterion of positive association of forensic recognition, as other means of identification become less effective, forensic dental identification increases in importance.

Cite this paper

H. Sperber, G. (2013) Forensic odontostomatology. Forensic Medicine and Anatomy Research, 1, 87-89. doi: 10.4236/fmar.2013.14019.

References

[1] Hinchcliffe, J. (2011) Forensic odontology: Dental identification. British Dental Journal, 210, 219-224.
[2] Scott, G.R. and Turner II, C.G. (1997) The anthropology of modern human teeth. Cambridge University Press, Cambridge.
[3] Kamble, V.B., Desai, R.G., Arabbi, K.C., et al. (2013) Denture marking: A valuable aid inforensic identification. Indian Journal of Forensic Medicine & Toxicology, 2, 187-192.
[4] Nanci, A. (2013) Ten Cate’s oral histology: development, structure and function. 8th Edition, Elsevier, St. Louis.
[5] Blyth, L. (2001) Oxygen isotope analysis and tooth enamel phosphate and its application to archeology. Totem. The University of Western Ontario Journal of Anthropology, 1, Article 2.
[6] Zavala-Alonso, V., Loyola-Rodriguez, J.P., Terrones, H., et al. (2012) Analysis of molecular structure of human enamel with fluorosis using micro-Raman spectroscopy. Journal of Oral Science, 54, 93-98. http://jos.dent.nihonu.ac.jp/journal/54/1/93.pdf
[7] Da Silva, R.D., da Siva, M.A.D., de Oliveira, O.B., et al. (2013) Dental fluorescence: Potential forensic use. Forensic Science Inter-national, 231, 167-171. http://dx.doi.org/10.1016/j.forsciint.2013.05.001
[8] Pretty, I.A. and Sweet, D. (2000) Anatomical location of bite marks and associated findings in 101 cases from the United States. Journal of Forensic Science, 45, 812-814.
[9] Sweet, D. et al. (1997) PCR-based DNA typing of saliva stains recovered from human skins. Journal of Forensic Science, 42, 447-451.
[10] English, W.R., Robison, S.F., Summit, J.B., et al. (1988) Individuality of human palatal rugae. Journal of Forensic Science, 33, 718-726.
[11] Caldas, I.M., Magalhaes, T. and Afonsa, A. (2007) Establishing identity using cheiloscopy and palatoscopy. Forensic Science International, 165, 1-9. http://dx.doi.org/10.1016/j.forsciint.2006.04.010
[12] Thomas, C.J. and Kotze, T.J. (1983) The palatal rugaepattern: A new classification. Journal of the Dental Association of South Africa, 38, 153-157.
[13] Hauser, G., Daponte, A. and Roberts, M.J. (1989) Palatal rugae. Journal of Anatomy, 165, 237-249. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1256673/
[14] Rai, B. and Amand, S.C. (2007) Palatal rugae: In forensic examination. Indian International Journal of Forensic Medicine and Toxicology, 5, 23-25.
[15] Sweet, D. and Hildebrand, D. (1998) Recovery of DNA from human teeth by cryogenic grinding. Journal of Forensic Science, 43, 1199-1202.
[16] da Silva, R.H.A., Sales-Peres, A., de Oliveira, R.N., et al. (2007) Use of DNA technology in forensic dentistry. Journal of Applied Oral Science, 15, 156-161. http://dx.doi.org/10.1590/S1678-77572007000300002
[17] Combined DNA Index System (CODIS) (2011) Federal bureau of investigations. http://www.justice.gov/oig/reports /FBI/00126/final.pdf
[18] London, A.J., Parker, L.S. and Aronson, J.D. (2013) DNA identification after conflict or disaster. Science, 341, 1178- 1179. http://dx.doi.org/10.1126/science.1238085

  
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