Thesis Abstract

Forensic biochemistry is a branch of forensic science that applies biochemical techniques to investigate and solve criminal cases. This field involves the analysis of biological samples such as blood, urine, hair, and tissues to identify substances present in the body, determine the cause of death, and establish a link between a suspect and a crime scene. One of the key areas in forensic biochemistry is toxicology, which involves the detection and quantification of drugs, alcohol, and other toxic substances in biological samples. Toxicological analysis plays a crucial role in determining the influence of these substances on an individual's behavior and health, especially in cases of drug-facilitated crimes and driving under the influence. Another important aspect of forensic biochemistry is the analysis of biological fluids for the presence of biomarkers that can provide valuable information in criminal investigations. Biomarkers such as DNA, proteins, and metabolites can help identify suspects, establish relationships between individuals, and link a suspect to a crime scene. Forensic biochemistry also plays a significant role in the field of forensic pathology, where biochemical techniques are used to determine the cause of death and establish the presence of drugs or poisons in the body. By analyzing post-mortem samples, forensic biochemists can provide crucial evidence in cases of suspicious deaths, homicides, and accidental overdoses. Advances in technology have greatly enhanced the capabilities of forensic biochemistry, allowing for more sensitive and specific analyses of biological samples. Techniques such as mass spectrometry, chromatography, and immunoassays have revolutionized the field, enabling forensic scientists to detect trace amounts of substances with high precision and accuracy. Moreover, the use of bioinformatics and computational tools has facilitated the interpretation of complex data generated from forensic biochemistry analyses. By integrating biological data with computational algorithms, forensic scientists can extract meaningful information from large datasets, aiding in the identification of suspects and the reconstruction of crime scenarios. In conclusion, forensic biochemistry is a vital component of modern forensic science, providing crucial evidence in criminal investigations and legal proceedings. By harnessing the power of biochemical techniques and cutting-edge technologies, forensic biochemists play a crucial role in uncovering the truth behind crimes, ensuring justice is served.

Thesis Overview