Abstract
Estimating the postmortem interval (PMI) is one of the major tasks and a continuous challenge in forensic pathology. It is often an exclusion process of available methods, which ultimately can lead to an unsatisfactory outcome due to poor reliability. This problem is most acute in the late PMI, when decomposition proceeds and some methods (such as rigor, livor, and algor mortis) are no longer applicable. Several methods, such as forensic entomology, skeletal muscle protein degradation, and the study of body decomposition by application of a morphological scoring, are expected to provide further information; however, all have certain limitations and weaknesses. Availability of a tool-box of methods allows a case-specific selection of the most appropriate one(s), or eventually provides improvements in the overall accuracy and precision of the PMI estimation by merging and combining methods. To investigate practical (field) application, eventual interferences, and/or synergetic effects, as well as the robustness of these methods towards specific influencing factors, a field study was conducted, using eight pig cadavers of different body weights and physical coverage, left to decompose under natural conditions for 16 days. Morphological changes during decomposition were assessed using the total body score (TBS), muscle samples were collected to analyze protein degradation, and insect colonization was evaluated. The results reveal strengths and current limitations of all tested methods, as well as promising synergistic effects, and thus, provide a baseline for targeted future research.
Highlights
To estimate the time since death, or postmortem interval (PMI), as precisely as possible is a central, yet very complexInt J Legal Med (2020) 134:1361–1373 unsatisfactory outcome due to poor reliability and/or accuracy
The present results show the potential of this protein for future application in PMI estimations
At the same time, differences to previous results show the importance to further investigate the effect of factors such as temperature and humidity in detail. This pilot field study partly met the objectives to compare the applicability of methods for PMI estimation in advanced decomposition stages
Summary
Int J Legal Med (2020) 134:1361–1373 unsatisfactory outcome due to poor reliability and/or accuracy. This problem is most acute in the late PMI, when decomposition advances and most of the abovementioned methods are no longer useful. Human decomposition is a very complex process due to the interaction of different biological and chemical components [15]. Extrinsic factors include environmental conditions (e.g., temperature, moisture, clothing, concealment, weather, and insect activity), while intrinsic factors are mostly related to the cause and manner of death and the characteristics of the human body (body mass, age, gender, injuries, or medical treatments) [15,16,17,18,19]. Temperature and humidity are considered among the most significant variables affecting the rate of decomposition [20]
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