Abstract. Keshavarz D, Rassi Y, Oshaghi MA, Azizi K, Rafizadeh S, Shahriarinamadi M. 2020. Dipteran diversity and succession pattern on carcass of rabbits treated with opium: Implication in forensic medicine. Biodiversitas 21: 3135-3141. The present study aimed to investigate the effect of opium on the succession pattern and diversity of Diptera on rabbit carcasses. In the present experimental study, dipteran species were collected from rabbit carcasses during the decay process. During this study, two replicates were performed, and four rabbits were used in each. Rabbits divided equally into two groups. In the first group, animals were received 25 mg opium dross orally via a gastric tube and then gradually increased the dose to 100 mg/case/day, while the second group were used as controls and received distilled water. The most frequent species on both carcass types were Chrysomya albiceps (26.2%), Lucilia sericata (15.9%), and Musca domestica (13.9%). Diversity analysis indicates high species richness on untreated carcasses (Shannon: 2.1; Margalef: 1.7). However, a significant difference was not detected for the Shannon index between the treated and untreated carcasses (P: 0.56). The taxa similarity values for sampling intervals ranged from 0.20-0.46 for both untreated and treated carcasses. Permutation analysis showed that successional patterns of dipteran species were similar between opium dross-treated and untreated carcasses. Therefore, in the case of opioid (opium) abused cadaver, this substance could not have an effect on the PMI estimation based on the pattern of succession. But it seems that the PMI should be corrected when the estimate is based on larval growth rate.
Background: Lucilia sericata as a member of the family Caliphoridae has a complete metamorphosis. They feed on on necrotic and livingtissues as necrophage species. Sterile larvae of this species has been utilized to heal wounds for decades. The aim of this study were to establish the breeding and identifying of the L.sericata species based on morphological and molecular techniques. Freshly harvested grown under standard conditions in the maggotarium of Health School , Shiraz of. They were screened using conventional morphology, then Primarily, different parameters related to larvae were measured morphologically. Subsequently, DNA was extracted and molecular marker of cytochrome C oxidase (co1) was amplified using PCR assay and sequence data were used for molecular and phylogenetic analysis. Result: In this study, 50 samples which grown collected from maggotarium were identified as L. sericata using morphological and molecular methods. This species was placed in a separate clade of the phylogenetic tree based on COI nucleotide sequences of different species and has a phylogenetic similarity to Lucilia purpurascens species of flies. Conclusion: Larval therapy especially by Lucilia sericata is a promising strategy in wound healing. Due to the importance of larval species in this technique, having an accurate knowledge of aplicable species leads to a proper larval therapy. Increasing in resistance of wounds to antibiotics has led to the use of maggot therapy in the past. Larval therapy is a low-cost, non-surgical way to remove dead tissue (predecessors and necrosis) in chronic wounds and prevents excessive soft tissue damage and infection from reaching the underlying tissues and bones (osteomyelitis). Maggot therapy is a promising way to prevent amputation, especially in people with diabetes.
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