ABSTRACT
Objective To study the postmortem distribution of Bromadiolone and its metabolite-Benzylideneacetone in dogs and provide an experimental evidence for the sampling of Bromadiolone poisoning cases. Methods The dogs were given 2LD50 and 4LD50 Bromadiolone by intragastric administration. Anatomy was conducted immediately after death and samples of body fluids and viscera (heart blood; peripheral blood, bile, urine, heart, liver, spleen, lung, kidney, brain, urinary bladder, left leg muscle, stomach, stomach contents, pancreas) were collected and detected after the dogs poisoning death. The Bromadiolon and its metabolite-Benzylideneacetone contents in samples were analyzed by GC/MS. Results Hemorrhagic symptoms came out at 3d after Bromadiolone delivery and deaths occurred at (178.40±20.94)h after intoxication. The postmortem distribution of Bromadiolon and its metabolite-Benzylideneacetone in dogs was as following: 2LD50 Bromadiolon: bile>urine, liver, heart, kidney>heart blood, peripheral blood, spleen, lung and so on. Benzylideneacetone: the content in bile, urine, heart blood, peripheral blood, lung, stomach contents are higher. 4LD50 Bromadiolon: bile, urine>liver, peripheral blood>heart blood, stomach contents and others. Benzylideneacetone:contents in bile, urine and lung are higher. Conclusion The postmortem distribution of Bromadiolon and its metabolite-Benzylideneacetone in dogs is uneven, contents in bile, urine, liver, heart blood and peripheral blood are higher, whichare suggested for forensic toxicological analysis in Bromadiolon poisonig case.
ABSTRACT
Objective To develop a method of support liquid-liquid extraction (SLE) and simultaneous determination of 4 components in somedon and its 8 metabolites by GC–MS/MS. Methods Somedon and its metabolites were extracted by SLE and determined by GC-MS/MS in MRM mode. The qualitative analysis was based on retention time and ratio of ions. The quantitative analysis was based on internal standard method and calibration curve. Results After SLE and determination of 4 components in somedon and its 8 metabolites, the extraction rate were 37.57%~95.87%, the linear range were 0.12μg/mL~16.00μg/mL, the correlation coefficient(r)were 0.989 6~0.999 7, LOD were 0.08ng/mL~14.48ng/mL, the accuracy were 79.63%~122.90%, the interday and intraday precision were 0.99%~7.43% and 2.19%~10.60% respectively. Conclusion Simultaneous determination of somedon and its metabolites by GC–MS/MS in biological samples, which was rapid, simple, accurate and was high precision and recovery, can be used for qualitative and quantitative analysis in forensic cases.
ABSTRACT
Objective Study on the stability of carbofuran and its metabolite carbofuran phenol in blood preserved at different conditions,in order to provide a scientific evidence for forensic identification of carbofuran poisoning death. Methods The dogs were given intragastric administration with 4LD50(13.5mg/kg) of carbofuran, the blood were collected and divided into five equally groups preserved at 20℃(NC2.5mg/mL), 20℃(1%NaF), 20℃, 4℃ and -20℃, respectively. The concentrations of carbofuran and carbofuran phenol in above samples were detected by GC-MS/MS with MRM at 0d、5d、7d、15d、40d、83d and 150d. Results The concentration of carbofuran in preserved blood were found to be significant decrease at 7d(P < 0.05), then a steady decline. In each condition, the concentration of carbofuran phenol in preserved blood showed an increasing trend firstly, then a declined tendency. The concentration of carbofuran and carbofuran phenol descending fast in blood at 20 ℃ (NC) and 20 ℃ (1%NaF).Conclusion Carbofuran and carbofuran phenol in preserved specimens are found to be decomposed. The decomposition is quick at 20℃ and slow at -20℃. Citrate sodium and sodium fluoride are not suit for anticoagulation and antiputrefactiva. Biological specimens used for forensic identification of the carbofuran poisoning should be stored at refriferated or freezed, and be analyzed as soon as possible.