Biochemical correction factors to estimation of post-mortem interval in vitreous humor

The aim of forensic autopsy is to accurately reconstitute, as much as possible, the circumstances of death (the cause of death and the mechanism of death, the post-mortem interval, the related pathology and its role, the survival interval). Post-mortem biochemical analyses can help to various extents in establishing these issues. In order to elucidate the issue of post-mortem biochemical investigations, we conducted an analysis of forensic casuistry within a delimited territory, for a period of 3 years in order to identify the elements necessary for the diagnosis of hypertonic dehydration. By grouping the cases depending on the immediate cause of death, the diagnosis criteria for hypertonic dehydration showed the possibility of performing the differential diagnosis by biochemical analyses performed in vitreous humor (sodium, chlorine, urea, creatinine), the criteria being not met in any of the other groups.

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Individualised and non-contact post-mortem interval determination of human bodies using visible and thermal 3D imaging

Nature Communications ◽

10.1038/s41467-021-26318-4 ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Leah S. Wilk ◽

Gerda J. Edelman ◽

Martin Roos ◽

Mara Clerkx ◽

Inge Dijkman ◽

...

Keyword(s):

Estimation Method ◽

Contact Method ◽

Post Mortem ◽

Correction Factors ◽

Current Standard ◽

Post Mortem Interval ◽

Forensic Practice ◽

Potential Applicability ◽

Pmi Estimation

AbstractDetermining the time since death, i.e., post-mortem interval (PMI), often plays a key role in forensic investigations. The current standard PMI-estimation method empirically correlates rectal temperatures and PMIs, frequently necessitating subjective correction factors. To overcome this, we previously developed a thermodynamic finite-difference (TFD) algorithm, providing a rigorous method to simulate post-mortem temperatures of bodies assuming a straight posture. However, in forensic practice, bodies are often found in non-straight postures, potentially limiting applicability of this algorithm in these cases. Here, we develop an individualised approach, enabling PMI reconstruction for bodies in arbitrary postures, by combining photogrammetry and TFD modelling. Utilising thermal photogrammetry, this approach also represents the first non-contact method for PMI reconstruction. The performed lab and crime scene validations reveal PMI reconstruction accuracies of 0.26 h ± 1.38 h for true PMIs between 2 h and 35 h and total procedural durations of ~15 min. Together, these findings broaden the potential applicability of TFD-based PMI reconstruction.

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Evaluating the utility of time-lapse imaging in the estimation of post-mortem interval: An Australian case study

Forensic Science International Synergy ◽

10.1016/j.fsisyn.2019.08.003 ◽

2019 ◽

Vol 1 ◽

pp. 204-210 ◽

Cited By ~ 1

Author(s):

Alyson Wilson ◽

Stanley Serafin ◽

Dilan Seckiner ◽

Rachel Berry ◽

Xanthé Mallett

Keyword(s):

Time Lapse ◽

Post Mortem ◽

Post Mortem Interval ◽

Australian Case ◽

Time Lapse Imaging

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Impact of Comingled Heterospecific Assemblages on Developmentally Based Estimates of the Post-Mortem Interval—A Study with Lucilia sericata (Meigen), Phormia regina (Meigen) and Calliphora vicina Robineau-Desvoidy (Diptera: Calliphoridae)

Insects ◽

10.3390/insects12040280 ◽

2021 ◽

Vol 12 (4) ◽

pp. 280

Author(s):

Krystal R. Hans ◽

Sherah L. Vanlaerhoven

Keyword(s):

Growth Rate ◽

Development Time ◽

Lucilia Sericata ◽

Phormia Regina ◽

Calliphora Vicina ◽

Immature Stages ◽

Post Mortem ◽

Blow Fly ◽

Blow Flies ◽

Post Mortem Interval

Estimates of the minimum post-mortem interval (mPMI) using the development rate of blow flies (Diptera: Calliphoridae) are common in modern forensic entomology casework. These estimates are based on single species developing in the absence of heterospecific interactions. Yet, in real-world situations, it is not uncommon to have 2 or more blow fly species developing on a body. Species interactions have the potential to change the acceptance of resources as suitable for oviposition, the timing of oviposition, growth rate, size and development time of immature stages, as well as impacting the survival of immature stages to reach adult. This study measured larval development and growth rate of the blow flies Lucilia sericata (Meigen, 1826), Phormia regina (Meigen, 1826) and Calliphora vicina Robineau-Desvoidy (Diptera: Calliphoridae) over five constant temperatures (15, 20, 25, 30, 35 °C), in the presence of conspecifics or two-species heterospecific assemblages. Temperature and species treatment interacted such that L. sericata larvae gained mass more rapidly when in the presence of P. regina at 20 and 30 °C, however only developed faster at first instar. At later stages, the presence of P. regina slowed development of L. sericata immatures. Development time of C. vicina immatures was not affected by the presence of P. regina, however larvae gained mass more slowly. Development time of P. regina immatures was faster in the presence of either L. sericata or C. vicina until third instar, at which point, the presence of L. sericata was neutral whereas C. vicina negatively impacted development time. Phormia regina larvae gained mass more rapidly in the presence of L. sericata at 20 °C but were negatively impacted at 25 °C by the presence of either L. sericata or C. vicina. The results of this study indicate that metrics such as development time or larval mass used for estimating mPMI with blow flies are impacted by the presence of comingled heterospecific blow fly assemblages. As the effects of heterospecific assemblages are not uniformly positive or negative between stages, temperatures or species combinations, more research into these effects is vital. Until then, caution should be used when estimating mPMI in cases with multiple blow fly species interacting on a body.

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