Forensic science in the context of equine studies involves the application of scientific methods and techniques to investigate and resolve legal issues related to horses. This field encompasses a range of disciplines, including genetics, toxicology, and pathology, to analyze evidence from equine-related incidents. Common applications include determining the cause of death, identifying substances involved in poisoning cases, and verifying the identity or lineage of horses through DNA analysis. Forensic science aids in addressing legal disputes, insurance claims, and regulatory compliance within the equine industry. This page aggregates peer-reviewed research studies and scholarly articles that explore the methodologies, applications, and advancements in equine forensic science.
Carracedo A, Concheiro L, Requena I.An isoelectric focusing method followed by silver staining has been developed for the study of keratins which is as effective as two-dimensional electrophoresis and fluorography for hair species identification. Hair from dogs, rabbits, horses, cows, guinea-pigs, donkeys, sheep and cats were successfully identified. Narrow pH ranges were used to observe heterogeneity in human hair. Although this heterogeneity may be affected by environmental conditions, it may be of use in criminalistics.
Laidler P, Cowan DA, Houghton E, Kicman AT, Marshall DE.Recognition by the legal authorities that growth hormones (GHs) may be abused to improve sporting performance and/or physique has led to the implementation of controls that make it an offence to produce, supply, possess or import and export GHs, with intent to supply, without the authority to do so. A method is described for the discriminatory analysis of human, equine, porcine and bovine GHs for forensic purposes. Peptide-mass mapping by matrix-assisted laser desorption/ionization (MALDI) time-of-flight (TOF) mass spectrometry following tryptic digestion gave sequence coverages of 97.4%, 93.7...
Kabil E, Ural MN, Göktaş EF.Synthetic cannabinoids (SCs) were originally synthesized to advance the understanding of the endocannabinoid system, facilitate disease research, and support the development of novel therapeutic agents. Compared with tetrahydrocannabinol, these compounds exhibit substantially higher psychoactive potency and enhanced receptor-binding affinity. The rapid and continuous evolution of SC derivatives presents significant challenges for analytical laboratories and increases the risk of misuse. Furthermore, SCs may be exploited to alter performance in both human and animal sports. The scarcity of comp...
