Effects of high temperature on different restorations in forensic identification: Dental samples and mandible

Forensic dental evaluation methods for use in a systematic approach to the dental identification of charred human remains are described. A systematic, conservative approach prevents the loss of valuable dental information before a thorough picture of the individual's dental remains has been adequately documented. The presenting conditions of fire victims are explained and illustrated with photographs, and a series of illustrations and text describe the damage seen in the dentition of the fire victim. A systematic four-stage process for gaining access to the intraoral structures of charred human remains is outlined and illustrated. Utilizing methods of access to the oral structures that maintain the integrity of the dentition through each stage of the evaluation of charred remains will prevent the loss of potential dental information before a thorough dental charting, intra-oral photographs, and radiographs can be obtained.

In recent years, dentistry has benefited from a marked increase in the development of esthetic materials, including ceramic and plastic compounds. But the advent of these new materials has not eliminated the usefulness of more traditional restorative materials such as gold, base metal alloys and dental amalgam. This report outlines important features of direct and indirect restoratives, with an emphasis on the safety and efficacy of each material. This article was developed to help dentists explain to their patients the relative pros and cons of various materials used in dental restorations, which include fillings, crowns, bridges and inlays. The weight of the scientific evidence indicates that all of these materials are safe and effective for their intended use. Patients, in consultation with their dentists, are free to choose the most appropriate among them for their particular needs.

In a "mafia" crime case, a magistrate asked us whether it is possible to destroy a cadaver by immersing it in acids, and would it be possible to identify any residues. The aim of this study was to observe the behavior of teeth exposed to four kinds of acid solutions. The teeth were placed in plastic containers with 25 mL of acid and observed. The experiences showed that teeth are completely dissolved after 14 h of immersion in 37% solution of hydrochloric acid, while at 90h in 96% sulfuric acid, the destruction of the samples is still incomplete. In nitric acid the teeth undergo a complete dissolution in 12 h, and in 17 h in aqua regia (chloroazotic acid-hydrochloric/nitric acid 1:3). It was possible to recognize the characteristic morphological features of dental tissues and structures up until the advanced stages of degradation.