Advances in Forensic Entomotoxicology for Decomposed Corpses: A Review

Advances in Forensic Entomotoxicology for Decomposed Corpses: A Review

Forensic entomotoxicology is a subdiscipline that utilizes necrophagous insects as bioindicators for detecting drugs and toxicants in decomposed remains, particularly in cases where conventional biological matrices are no longer available. Toxic substances can profoundly alter insect development, ph...

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Bibliographic Details
Main Authors: Sen Hou, Zengjia Liu, Jiali Su, Zeyu Yang, Zhongjiang Wang, Xinyi Yao, Zhou Lyu, Yang Xia, Shuguang Zhang, Wen Cui, Yequan Wang, Lipin Ren
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Insects
Subjects:
forensic entomotoxicology
xenobiotic exposure
decomposed corpses
multi-omics
machine learning
Online Access:https://www.mdpi.com/2075-4450/16/7/744
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Summary:Forensic entomotoxicology is a subdiscipline that utilizes necrophagous insects as bioindicators for detecting drugs and toxicants in decomposed remains, particularly in cases where conventional biological matrices are no longer available. Toxic substances can profoundly alter insect development, physiology, and community succession, potentially impacting the accuracy of postmortem interval (PMI) estimation. This review systematically summarizes the effects of various xenobiotics, including pesticides, illicit drugs, sedatives, heavy metals, and antibiotics on larval growth, physiological traits, and gut microbial composition in forensically relevant flies. However, most studies to date have relied primarily on phenotypic observations, with limited insight into underlying molecular mechanisms. Significant interspecies and dose-dependent variability also exists in the absorption, metabolism, and physiological responses to xenobiotics. We highlight recent advances in multi-omics technologies that facilitate the identification of molecular biomarkers associated with xenobiotic exposure, particularly within the insect detoxification system. Key components such as <i>cytochrome P450 monooxygenases</i> (<i>P450s</i>), <i>glutathione S-transferases</i> (<i>GSTs</i>), and <i>ATP-binding cassette</i> (<i>ABC</i>) transporters play essential roles in xenobiotic metabolism and insecticide resistance. Additionally, the insect fat body serves as a central hub for detoxification, hormonal regulation, and energy metabolism. It integrates signals related to xenobiotic exposure and modulates larval development, making it a promising model for future mechanistic studies in insect toxicology. Altogether, this review offers a comprehensive and reliable framework for understanding the complex interactions between toxic substance exposure, insect ecology, and decomposition in forensic investigations.
ISSN:2075-4450

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