During the course of our forensic investigations, we have encountered situations where it would have been useful to have evidence, other than direct contact between the two, for concluding that a carrion-fly maggot developed on a particular human victim. If a maggot collected during a death investigation did not develop on the victim, then its age is not relevant to estimating the postmortem interval. In this study we demonstrate that mitochondrial DNA (mtDNA) sequence data can be obtained from the dissected gut of a maggot that had fed on human tissue. These data can be used to identify both the human corpse upon which the maggot had been feeding and the species of the maggot itself.
The world has experienced a plethora of mass disasters in recent years: acts of terrorism, bombings, earthquakes, hurricanes, typhoons, air crashes and other transportation mishaps, not to mention armed conflicts and migrants drowned in the Mediterranean Sea. In reviewing mass disasters to date, the principal difficulties have not changed: (1) large numbers of humans fragmented, co-mingled, and burned remains; (2) difficulty in determining who was involved in the disaster; (3) acquisition of useful medical and dental records and radiographs; (4) legal, jurisdictional, organisational, and political issues; (5) internal and external documentation and communication problems; (6) application of universal human forensic identification codes. Forensic dentistry plays a major role in victim identification. DNA and dental identification of human remains depends on sufficient availability of ante mortem information, existence of sufficient post mortem material and a comparison or match between ante and post mortem details. Forensic odontology is a specialty with a specific training, and cannot simply be carried out by dentists without such training. Strategies for developing an international forensic odontology capacity and resources are needed for the management of dead bodies following a mass disaster, together with universal guidelines and codes. To this end, Interpol's forms have proved to be a good starting point to meet these requirements.
Two cases of positive identification of burnt bodies by radiographic comparison are reported. They emphasize that antemortem radiographs of the head are an important but sometimes overlooked source of information which can frequently provide useful objective data for comparison purposes. A positive identification can easily be achieved by medical examiners through visual comparison of the antemortem with the postmortem cranial and facial structures, even of bodies severely damaged by fire. In these bodies the radiographs of the skull can graphically depict structures which are often unique to the individual, such as the frontal sinus pattern and the morphology of dental restorations. However, the process of identification through radiographs is appropriate only in burnt bodies in which antemortem radiographs of the alleged deceased are available for comparison and unique craniofacial structures are still present on the body in a well-preserved state or at least not completely destroyed by fire, depending on the extent of the burn injury. Matching of corresponding features seems preferable to other methods of personal identification such as skull-photo superimposition, morphometric analysis, and/or other computer-aided methods since these techniques need trained personnel, as well as expensive equipment which is not invariably available in the medical examiner's office or department of anthropology.
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