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. 2021 Mar;66(2):677-686.
doi: 10.1111/1556-4029.14636. Epub 2020 Nov 23.

Drugs in bone: Detectability of substances of toxicological interest in different states of preservation

Lorenzo Franceschetti  1 Domenico Di Candia  1 Gaia Giordano  1 Irene Carabelli  1 Giulia Vignali  1 Cristina Cattaneo  1
Affiliations

Drugs in bone: Detectability of substances of toxicological interest in different states of preservation

Lorenzo Franceschetti et al. J Forensic Sci. 2021 Mar.

Abstract

In forensic contexts of advanced decomposition, when conventional matrices are no longer available for toxicological analyses, finding alternative matrices is necessary. The skeleton, which is fundamental for anthropologists and geneticists, could be useful also for toxicological purposes. The present study aims to examine what kind of information toxicological analysis performed on bones (the cranium and the ribs) in different states of preservation could provide to the forensic practitioner. Thirty cadavers with known pharmacological history, subjected to forensic autopsy at the Institute of Legal Medicine of Milan, were selected. Rib and cranium samples were collected from each body and separated into two parts in order to create two different states of preservation: One was cleaned from soft tissues and analyzed as a well-preserved bone sample; the other was submitted to a long maceration process, simulating complete skeletonization. All specimens were then processed with accelerated solvent extraction and the eluates analyzed using Q-Exactive™ Orbitrap™ Mass Spectrometer. The analysis of blood and skeletal matrices showed positive results for the tested substances in 63% of cases, mainly benzodiazepines, antidepressants, and drug abuse. Significant Pearson correlations were observed between non-macerated vs. macerated bone samples: r = 0.79 for rib samples, r = 0.61 for cranium samples, and r = 0.69 for all bone samples. As a consequence, the positive results confirm the potential of the bone tissue as an alternative matrix in forensic toxicology, even in cases of extremely decomposed bodies. This study also highlighted important elements for reconstructing the biological profile in cases of forensic anthropological concern.

Keywords: advanced decomposition; alternative matrices; bone; drugs; forensic toxicology; post-mortem investigation.

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