Quantifying human post-mortem movement resultant from decomposition processes

Alyson Wilson; Paul Neilsen; Rachel Berry; Dilan Seckiner; Xanthé Mallett

doi:10.1016/j.fsisyn.2020.07.003

Quantifying human post-mortem movement resultant from decomposition processes

Forensic Sci Int Synerg. 2020 Aug 18:2:248-261. doi: 10.1016/j.fsisyn.2020.07.003. eCollection 2020.

Authors

Alyson Wilson¹, Paul Neilsen¹, Rachel Berry², Dilan Seckiner³, Xanthé Mallett^{4

5}

Affiliations

¹ School of Health, Medical and Applied Sciences, Central Queensland University, Rockhampton, Queensland, 4700, Australia.
² School of Medical Sciences, University of New South Wales, Sydney, New South Wales, 2052, Australia.
³ Centre for Forensic Science, University of Technology Sydney, Ultimo, New South Wales, 2007, Australia.
⁴ School of Humanities and Social Science, University of Newcastle, Callaghan, New South Wales, 2308, Australia.
⁵ Honorary Associate in Centre for Forensic Science, University of Technology, Sydney, Australia.

Abstract

Background: Post-mortem movement is highly significant in unexplained death investigations, as body position or the position of remains helps to determine cause and manner of death, as well as potentially the circumstances surrounding death. Therefore, understanding post-mortem movement is of forensic relevance in death scene assessments.

Purpose: The aim of this study was to quantify post-mortem movement in anatomical structures of a human donor during decomposition in an Australian environment, an evaluation that has not previously been undertaken.

Methods: The aim was achieved using time-lapse images of a human donor decomposing in order to capture the post-mortem movement over a 16-month period. Megyesi et al.'s [1] total body score system was used to quantify the decomposition of the donor in each image to determine the decomposition stage. ImageJ software was used to determine the distance from static landmarks to anatomical structures of interest in each image to allow for quantification.

Results: Early decomposition progressed rapidly, and advanced decomposition plateaued at 41 post-mortem interval days with a total body score of 24. The results support the conclusion that post-mortem movement does occur in all limbs of the donor. The anatomical structure that produced the most movement was the right styloid process of the radius, moving a total distance of 51.65 cm. A surprising finding of the study was that most post-mortem movement occurs in the advanced decomposition stage, with the lower limbs being the most active.

Conclusion: This study supports that post-mortem movement can be quantified using time-lapse imagery, with results supporting movement in all limbs, a process that was active for the entire study period. An interesting finding was that the decomposition plateaued in the advanced stage with the donor remaining in mummification, and not reaching skeletonization after 16 months in situ. These findings are of significant importance to police in death scene assessments and forensic investigations.

Keywords: Australian Facility for Taphonomic Experimental Research; Forensic anthropology; Post-mortem movement; Taphonomy; Time-death interval.