Megan L Pate1, María-Paz Aguilar-Caballos2, Cristina M Beltrán-Aroca1, Carlos Pérez-Vicente3, Manuel Lozano-Molina4, Eloy Girela-López5. 1. Sección de Medicina Legal y Forense. Facultad de Medicina y Enfermería, Universidad de Córdoba, Avda Menéndez Pidal s/n., 14004, Córdoba, Spain. 2. Departamento de Química Analítica, Instituto Universitario de Química Fina y Nanoquímica, Campus Universitario de Rabanales, Universidad de Córdoba, 14014, Córdoba, Spain. 3. Laboratorio de Química Inorgánica, Instituto Universitario de Química Fina y Nanoquímica, Campus Universitario de Rabanales, Universidad de Córdoba, 14006, Córdoba, Spain. 4. Servicio de Odontología, Centro de Salud Santa Rosa, 14006, Córdoba, Spain. 5. Sección de Medicina Legal y Forense. Facultad de Medicina y Enfermería, Universidad de Córdoba, Avda Menéndez Pidal s/n., 14004, Córdoba, Spain. eloygirela@uco.es.
Abstract
In fire scenarios, the application and accuracy of traditional odontological methods are often limited. Crystalline studies and elemental profiling have been evaluated for their applicability in determining biological profiles (age and sex) from human dentition, particularly fire- and heat-affected dental remains. Thirty-seven teeth were paired according to tooth type and donor age/sex for the analysis of crown and root surfaces pre- and post-incineration using X-ray diffraction (XRD) and scanning electron microscopy (SEM/EDX). In unburned crowns, carbon (C) content showed a positive correlation with age, whereas phosphorus (P) and calcium (Ca) contents showed a negative correlation with age. In unburned roots, C, P and Ca contents also showed significant changes that were opposite of those observed in the crowns. In relation to sex, females exhibited a higher C ratio than males, whereas males showed significantly higher levels of oxygen (O), P and Ca in unburned roots. Incineration resulted in an increase in the crystallite size that correlated with increasing temperature. No differences in hydroxyapatite (HA) crystallite size were found between age groups; however, unburned teeth from females exhibited a larger crystallite size than did those from males. The challenges of using XRD with a 3D sample were overcome to allow analysis of whole teeth in a nondestructive manner. Further studies may be useful in helping predict the temperature of a fire.
In fire scenarios, the application and accuracy of traditional odontological methods are often limited. Crystalline studies and elemental profiling have been evaluated for their applicability in determining biological profiles (age and sex) from human dentition, particularly fire- and heat-affected dental remains. Thirty-seven teeth were paired according to pan class="Disease">tooth type and donor age/sex for the analysis of crown and root surfaces pre- and post-incineration using X-ray diffraction (XRD) and scanning electron microscopy (SEM/EDX). In unburned crowns, carbon (C) content showed a positive correlation with age, whereas phosphorus (P) and calcium (Ca) contents showed a negative correlation with age. In unburned roots, C, P and Ca contents also showed significant changes that were opposite of those observed in the crowns. In relation to sex, females exhibited a higher C ratio than males, whereas males showed significantly higher levels of oxygen (O), P and Ca in unburned roots. Incineration resulted in an increase in the crystallite size that correlated with increasing temperature. No differences in hydroxyapatite (HA) crystallite size were found between age groups; however, unburned teeth from females exhibited a larger crystallite size than did those from males. The challenges of using XRD with a 3D sample were overcome to allow analysis of whole teeth in a nondestructive manner. Further studies may be useful in helping predict the temperature of a fire.
Entities:
Keywords:
Biological profile; Heat; Scanning electron microscopy; Teeth; X-ray diffraction
Authors: M J Prieto-Castelló; J P Hernández del Rincón; C Pérez-Sirvent; P Alvarez-Jiménez; M D Pérez-Cárceles; E Osuna; A Luna Journal: Forensic Sci Int Date: 2007-02-16 Impact factor: 2.395
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