The impact of anatomy variation on temperature based time of death estimation

Ullrich, Julia; Weiser, Martin; Subramaniam, Jayant Shanmugam; Schenkl, Sebastian; Muggenthaler, Holger; Hubig, Michael; Mall, Gita

doi:10.1007/s00414-023-03026-w

Int J Legal Med

2023

DOI: 10.1007/s00414-023-03026-w

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The impact of anatomy variation on temperature based time of death estimation

Julia Ullrich

Martin Weiser

Jayant Shanmugam Subramaniam

et al.

Abstract: Temperature-based time of death estimation using simulation methods such as the finite element method promise higher accuracy and broader applicability in nonstandard cooling scenarios than established phenomenological methods. Their accuracy depends crucially on the simulation model to capture the actual situation, which in turn hinges on the representation of the corpse’s anatomy in form of computational meshes as well as on the thermodynamic parameters. While inaccuracies in anatomy representation due to co… Show more

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2024

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Cited by 2 publications

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Online tool for finite element analysis of postmortem convective heat transfer of the head

Nedugov,

Nedugiv

2024

Russian Journal of Forensic Medicine

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BACKGROUND: One of the most promising modern trends in the field of thermometric diagnosis of the prescription of death is the method of finite element analysis of postmortem heat transfer, which allows overcoming the limitations inherent in the phenomenological equations of corpse cooling. However, the software packages that provide this method are characterized by high cost, and also assume that the user has the skills to independently set the conditions of the tasks to be solved. This article proposes an open online tool for finite element analysis of postmortem convective heat transfer of the human head with a simple interface designed to determine the prescription of death by cranioencephalic thermometry of the corpse. AIM: development of an online tool for finite element analysis of postmortem convective heat transfer of the head. MATERIAL AND METHODS: A scalable finite element model of the head is constructed, approximated by a multilayer ball, consisting of 1311 nodes and 9277 finite elements. A computational algorithm for finding the initial and postmortem temperature fields of the head, implemented in the Python 3 programming language, has been developed. RESULTS: An online application "Simple Finite Element Model of Postmortem Convective Heat Transfer of the Head" has been developed, taking into account the characteristics of the initial temperature field, the size and thermophysical properties of the main anatomical layers of the head, the intensity of convective heat transfer, the coordinates of the diagnostic point and changes in external temperature during the cooling of the corpse. The result of the online application is the visualization of cooling curves at the diagnostic point and on the surface of the head on the first day of the postmortem period with the generation of appropriate numerical values. CONCLUSIONS: The developed online application is recommended for use in forensic medical practice when determining the prescription of death by cranioencephalic thermometry of a corpse.

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Online tool for finite element analysis of postmortem convective heat transfer of the head

Nedugov,

Nedugiv

2024

Russian Journal of Forensic Medicine

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Estimation of the Postmortem Interval by Cranioencephalic Thermometry With a Single Discrete Decrease in Ambient Temperature

Nedugov

2024

Science and Innovations in Medicine

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Aim– development of a method implemented in the format of a computer program for determining the postmortem interval (PMI) by cranioencephalic temperature (CT) of a corpse under conditions of cooling with a single discrete decrease in ambient temperature. Material and methods. Analytical and finite element modeling of CT dynamics with a single discrete decrease in ambient temperature is performed. Results. A mathematical model has been developed for determining the PMI and the uncertainty of its estimates with a single discrete decrease in the ambient temperature. The values of the constants of the model equation and their variances are determined on the basis of finite element modeling of CT dynamics under the specified cooling conditions. The computational algorithm of the specified method for determining PMI and contraindications to its use are implemented in the C# language in the form of the Warm Bodies DSC program. Conclusion. The developed method and the application implementing it are recommended for use in forensic medical practice to determine the PMI with a single discrete decrease in ambient temperature.

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The impact of anatomy variation on temperature based time of death estimation

Cited by 2 publications

References 23 publications

Online tool for finite element analysis of postmortem convective heat transfer of the head

Online tool for finite element analysis of postmortem convective heat transfer of the head

Estimation of the Postmortem Interval by Cranioencephalic Thermometry With a Single Discrete Decrease in Ambient Temperature

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