@misc{10481/108063,
year = {2025},
month = {11},
url = {https://hdl.handle.net/10481/108063},
abstract = {Introduction: In forensic pathology, estimating the postmortem interval (PMI) is crucial for legal investigations,
particularly in homicide cases. Traditional methods for determining the time since death offer only estimations,
and formulas related to solute concentrations in vitreous humor vary, complicating the process.
To present a novel software solution that integrates body temperature data and solute concentrations in the
vitreous humor (potassium, albumin, hypoxanthine, and urea).
Methods: The software combines the Henssge method with current knowledge of solute concentration evolution
in the vitreous humor post-death. Formulas derived from the scientific literature were implemented in a Javabased program. The program features a intuitive interface and is compatible with Windows and MacOS. Functional and non-functional requirements were addressed, ensuring quick data input, low resource consumption,
and easy interpretation of results.
Results: The software provides more precise PMI estimations by unifying the Henssge method with regression
equations from existing literature. This integration enhances usability for practical applications and academic
research.
Conclusion: This study introduces a cohesive software solution that integrates traditional and modern methodologies for PMI estimation. The program’s comprehensive approach and intuitive design promise to improve
accuracy and facilitate broader application in forensic investigations.},
publisher = {Elsevier},
keywords = {Post-mortem interval},
keywords = {Digital systems},
keywords = {Software},
title = {Transitioning from conventional to digital methods for estimating time since death: a multi-parameter forensic software},
doi = {10.1016/j.jflm.2025.103009},
author = {Scendoni, Roberto and Tomassini, Luca and Bianchini, Giovanni and Baldelli, Laura and Fedeli, Piergiorgio and Cingolani, Mariano},
}