Assessment of carboxyhemoglobin, hydrogen cyanide and methemoglobin in fire victims: a novel approach.

To establish the cause of death, carboxyhemoglobin (COHb), total hemoglobin (tHb), methemoglobin (MetHb), and hydrogen cyanide (HCN) were quantified in the blood of fire victims. We analyzed 32 out of 33 blood samples from forensic autopsy cases in a disastrous polyurethane mattress fire, which caused the deaths of 33 inmates at a prison in Argentina in 2006. The cadaveric blood samples were collected by femoral vein puncture. These samples were analyzed using the IL80 CO-oximeter system for tHb, MetHb, and COHb levels and by microdiffusion for HCN and COHb levels. Blood alcohol (ethanol) and drugs were examined by headspace gas chromatography-flame ionization detection (HS-GC-FID) and GC-mass spectrometry (MS), respectively. Polyurethane mattress samples were analyzed according to the California 117 protocol. The saturation of COHb ranged from 10% to 43%, tHb from 2% to 19.7%, MetHb from 0.10% to 35.7%, and HCN from 0.24 to 15mg/L. These HCN values are higher than the lethal levels reported in the literature. Other toxic components routinely measured (ethanol, methanol, aldehydes, and other volatile compounds) gave negative results in the 32 cases. Neither drugs of abuse nor psychotropic drugs were detected. The results indicate that death in the 32 fire victims was probably caused in part by HCN, generated during the extensive polyurethane decomposition stimulated by a rapid increase in temperature. We also considered the influence of oxygen depletion and the formation of other volatile compounds such as NOx in this disaster, as well as pathological evidence demonstrating that heat was not the cause of death in all victims. Furthermore, statistical analysis showed that the percentage values of COHb and MetHb in the blood were not independent variables, with χ(2)=11.12 (theoretical χ(2)=4.09, degrees of freedom=12, and α=0.05). However, no correlation was found between HCN and MetHb in the blood of the victims. This is the first report to assess the relationship between COHb and MetHb in forensic blood samples. We further discuss other factors that could lead to a lethal atmosphere generated by the fire and compare the data from this disaster with that of other published fire episodes.

Clinical parameters, postmortem analysis and estimation of lethal dose in victims of a massive intoxication with diethylene glycol.

This work analyzes a massive intoxication that occurred in 1992 in Argentina as a result of the use of propolis syrup as a popular upper respiratory infection medicinal agent. The intoxicating agent was diethylene glycol (DEG), which caused metabolic acidosis, anuria, renal failure and death in 15 out of the 29 studied victims. DEG poisoning cases were classified in three groups according to survival time: Group 1-patients that survived up to 3 days; Group 2-patients that survived between 4 and 5 days; Group 3-patients that survived between 6 and 21 days. Patients from Group 1 showed the highest values of anion gap, the lowest measures of base excess (BE) and more severe clinical manifestations. Correlation between pH and BE was r(2) = 0.68, 0.99 and 0.55 for Groups 1, 2 and 3, respectively. A methanolic extraction was performed on the fatal victims' viscera and blood, with subsequent concentration and purification. The semi-crystalline fraction obtained retained DEG by means of co-dissolution and adsorption as demonstrated by thin lay chromatography/flame ionisation detection (TLC/FID). In 3 out of the 15 fatal cases (from Group 1), DEG was isolated from viscera and blood (femoral venous), between 48 and 72 h post ingestion. The concentration relation (DEG)viscera/(DEG)blood ranged from 1.45 to 1.55 with a coefficient correlation r(2)=0.96 (n=3). In the other victims, DEG could not be detected. The reason for this could be the long survival period of the victims after their ingestion of the syrup. Additionally, putrefying mechanisms could have been operating. Samples of the propolis syrup of each victim were studied by means of nuclear magnetic resonance (NMR) and quantified by gas chromatography/flame ionisation detection (GC/FID). Results showed that syrup samples contained 65.0% (w/v) of diethylene glycol (DEG) and 32.0% (w/v) of propylene glycol (PG). A good correlation between the amount of DEG ingested and the anion gap (r(2)=0.63) for the 15 victims studied could be observed. The lethal dose for human beings estimated in this work ranged from 0.014 to 0.170 mg DEG/kg body weight. This is a lower lethal dose than reported in a separate incident in Haiti. These results may contribute to the understanding of DEG's metabolic pathway and provides data from lethal doses in humans.

Prevención de recidiva delictual en abusadores de sustancias / Prevention of delictive recurrence in substances abusers

El abuso de sustancias es un trastorno que tiene dimensiones llamtivas en la población que comete delitos y constituye un problema sanitario, criminológico y judicial. En el Departamento Judicial La Plata se implementó un programa piloto de evaluación psiquiátrica y de evaluación bioquímica de metabolitos de drogas en diversas matrices, con la meta de contribuir con las acciones destinadas a disminuir la recidiva de abuso de sustanciasy de las conductas delictivas asociadas, de aquellas personas que, habiendo sido institucionalizadas para el cumplimiento de condenas penales o medidas de seguridad, son liberadas bajo condiciones. Los resultados preliminares son promisorios pues permiten sostener que la efectivización de los análisis toxicológicos actua como factor de protección respecto al riesgo de recidiva delictiva...(AU)

Prevención de recidiva delictual en abusadores de sustancias / Prevention of delictive recurrence in substances abusers

El abuso de sustancias es un trastorno que tiene dimensiones llamtivas en la población que comete delitos y constituye un problema sanitario, criminológico y judicial. En el Departamento Judicial La Plata se implementó un programa piloto de evaluación psiquiátrica y de evaluación bioquímica de metabolitos de drogas en diversas matrices, con la meta de contribuir con las acciones destinadas a disminuir la recidiva de abuso de sustanciasy de las conductas delictivas asociadas, de aquellas personas que, habiendo sido institucionalizadas para el cumplimiento de condenas penales o medidas de seguridad, son liberadas bajo condiciones. Los resultados preliminares son promisorios pues permiten sostener que la efectivización de los análisis toxicológicos actua como factor de protección respecto al riesgo de recidiva delictiva...

Post-mortem analysis of formic acid disposition in acute methanol intoxication.

Fifteen cases of fatal massive methanol intoxication have been investigated. Victims received either no treatment or ethanol therapeutic treatment. Methanol poisoning cases were classified in three groups according to survival time: more than 3 days (group 1), up to 3 days (group 2) and few hours (group 3). Body distribution of methanol and formic acid, as the main metabolite, was analyzed in blood and in different organs (brain, kidney, lung and liver). Relationships between formic acid concentration in the different tissues, survival time and type of treatment applied to victims were studied. Formic acid in blood and tissues was analyzed by head space gas chromatography (head space-GC) with FID detector, previous transformation in methyl formate, essentially as described by Abolin. Formic acid concentration was between 0.03 and 1.10g/l in the samples under study. A good correlation between blood and brain, but poor between blood and the remaining tissues was found. Obtained data suggested that the use of blood and brain could help to improve the analysis of formic acid intoxication. The best correlation among organs was found between lung and kidney for all groups (r(2)=0.91, 0.84 and 0.87, corresponding to groups 1, 2 and 3, respectively). Lethality index was defined as LI = (concentration of formic acid in blood in (g/l)/0.5) x 100, taking into account that 0.5g/l is the concentration reported by Mahieu in severe methanol poisoning. LI parameter was used to estimate formic acid incidence on the lethality of methanol poisoning cases. LI showed a good correlation with total formic acid concentration of the different tissues analyzed (r(2)=0.80). Furthermore, LI allowed us to discriminate between individuals that received therapeutic treatment and survived different periods. LI>100 indicated a severe intoxication and short survival time if the victim was assisted with ethanol therapy and hemodialysis was not applied. With regard to victims who received no therapeutic treatment and died in few hours, LI was in the range 40-100. LI was below 40 for individuals that survived more than 3 days and hemodialysis was not performed. Results showed the importance of performing formic acid analysis to diagnose severe methanol intoxication in post-mortem cases.