Immunohistochemical PAP method was used to detect the fibronectin (FN) in the rat's skin incised wounds. The results demonstrated that FN manifest itself in the wall of the wounds after 15 min injury, within 1 to 8 hrs after injury, FN accumulated numerously, forming a gradient deposition. In contrast, no FN was found in wounds formed 5 min after death. The research had eatablished a new method for differentiation timing of early wound, and for differentiation of antemortom from postmortem wounds

Forensic entom otoxicology is a branch of forensic m edicine, w hich applies entom ology, toxicology and other related studies to solve the poisoning cases. It has an obvious advantage in the investigation on poisoning death. B ased on the expounding definition and research of entom otoxicology, this paper review s research progress and application value in som e aspects of forensic m edicine, such as the effects of drugs/toxins on the growth and developm ent of sarcosaphagous insects and the qualitative and quantitative analysis of the drugs/toxins in the poisoned body tissue.

Objective To determine the electrical conductivity of cerebrum, liver, lung and muscle of rats at different postmortem intervals for investigating the relationship between EC and PMI. Methods Healthy Sprague-Dawley rats were sacrificed and kept at constant temperature of 25°C. Cerebrum, lung, liver and muscle were extracted at different PMIs of immediate (0d), 1d, 2d, 3d, 4d, 5d, 6d and 7d, and their extraction liquids were prepared with ultrapure water at the ratio of 1g:10mL. EC were separately determined for different tissues and organs. The relationships between EC of different tissues and organs and PMI were analyzed and their regression functions were established. The characteristics of EC values for four tissues and organs were compared and their decomposition processes were discussed. Results EC of brain and muscle showed no significant changes within 1d, and increased rapidly during 2~7d; but EC of liver and lung started to increase within 1d and increased rapidly during 2~7d.The relationship between EC of different tissues and organs and PMI were well fitted with cubic equations and liver gained the highest coefficient (R2=0.96). Additional, the EC of four organs presented various increasing laws in different periods of PMI. Conclusion The EC of cerebrum, lung, liver and muscle of rats were well fitted with PMI and the determination of EC of cadaver tissues can be expected to become an effective method for PMI estimation in forensic practice.

Objective To identify the common Sarcophagidae species of necrophagous flies in Luoyang by DNA barcoding and 28S ribosomal RNA(28S rRNA) gene and evaluate its effectiveness for forensic practice. Methods Eighteen Sarcosaprophagous flies were collected and classified by entomologists with traditional morphological characteristics. The DNA of flies was extracted with Chelex-100 method. The fragments of mitochondrial cytochromec oxidase subunit I (COI) and 28S rRNA gene were amplified and sequenced. Twenty corresponding species (China and South Korea) were loaded from Barcode of Life Data System (BOLD) and added to the alignment. All the sequences were analyzed by MEGA 7.0 software package for nucleotide composition, genetic distance computation and phylogenetic tree construction. Results Eighteen Sarcosaprophagous flies were classified into 5 species of 3 genera. The result of amplification with 18 samples showed that length of the obtained COI and 28S rRNA gene sequences were 646bp and 721bp, respectively. And the result of alignment on BLAST online showed that index of similarity of the same species was above 99%. The thirty-eight COI sequences of Sarcosaprophagous flies were clustered into five groups by a neighbor-joining (NJ) tree on value of Bootstrap 1000. The intraspecific difference in COI was 0 to 0.022 while the interspecific difference ranged from 0.057 to 0.090 excluding Sarcophaga Africa and Sarcophaga haemorrhoidalis, which was 0~0.086. The NJ tree of 28S rRNA showed Sarcophaga peregrine and Sarcophaga portschinskyi sequences were obviously clustered into two groups and the others a group. Conclusion For the five sarcophagous flies in this study, the DNA barcoding based on COI gene were able to effectively identify the Sarcophaga peregrine, Sarcophaga dux and Sarcophaga portschinskyi, while 28S rRNA gene can only differentiate Sarcophaga peregrine from others. DNA barcoding based on COI gene and 28S rRNA gene can be used as supplemental molecular markers for identifying these species.