New computer technologies to determine postmortem interval by the Henssge method
- Authors: Nedugov G.V.1
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Affiliations:
- Samara State Medical University
- Issue: Vol 7, No 3 (2021)
- Pages: 152-158
- Section: ORIGINAL STUDY ARTICLES
- URL: https://journals.rcsi.science/2411-8729/article/view/122423
- DOI: https://doi.org/10.17816/fm406
- ID: 122423
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Abstract
Background: The Henssge method is still the main thermometric method to determine postmortem interval. However, its existing software implementations are characterized by several disadvantages associated with copying simplified nomographic variants of the original mathematical models without any optimization attempts, as well as procedural imperfection in finding the roots of implicit functions. In this paper, methods are proposed for optimizing solutions to the Henssge mathematical models and determine their errors, as well as software application implementation. Aim: Optimization of the Henssge algorithm and development of a series of applications based on the obtained data, designed to determine postmortem interval. Material and methods: Methods for solving double exponential Henssge models and determining their errors based on computational mathematics and regression modeling using the least-squares method with subsequent implementation in the format of computer programs in C# language optimized. Results: The discrete nature of residual variance changes of the double exponential Henssge models intended to determine the postmortem interval according to rectal and cranioencephalic thermometry data under constant external temperature conditions is eliminated. The interval estimate determination of postmortem interval at any confidence probability is possible. The application program Warm Bodies HR was developed, which implements applied optimization methods. The application program Warm Bodies AHBG, designed to determine postmortem interval by the Henssge method in a single discrete decrease or increase conditions in the constant temperature of the external environment, including a change in the cooling conditions of the corpse, was developed. The search for the roots of implicit functions in programs is carried out using the Newton tangent method, which ensures continuous source data nature and eliminates errors associated with the need to round directly measured physical quantities. Conclusions: The developed programs are recommended for forensic medical expert practice to determine postmortem interval.
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##article.viewOnOriginalSite##About the authors
German V. Nedugov
Samara State Medical University
Author for correspondence.
Email: nedugovh@mail.ru
ORCID iD: 0000-0002-7380-3766
SPIN-code: 3828-8091
Scopus Author ID: 25947646500
ResearcherId: ABH-5590-2020
MD, Cand. Sci. (Med.), Assistant Professor
Russian Federation, 89 Chapaevskaya st., Samara, 443099References
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