AI Article Synopsis
- Carbon monoxide (CO) and hydrogen cyanide (HCN) are both toxic gases associated with fire atmospheres, with a focus on the underrecognized role of HCN in fatalities.
- The 1990 fire incident at a prison in Argentina resulted in 35 deaths, prompting an investigation into the toxicological levels of COHb and HCN in the victims' blood.
- Findings revealed that HCN concentrations exceeded lethal levels, and statistical analysis indicated a relationship between COHb and HCN, suggesting HCN was likely the primary cause of death due to its release from burning polyurethane materials.
Article Abstract
Carbon monoxide is a well-known toxic component in fire atmospheres. However, the importance of hydrogen cyanide as a toxic agent in fire causalities is under discussion. A tragic polyurethane mattress fire provoked death of 35 convicts in a prison (Unit I, Olmos, Penitenciary Service of Buenos Aires Province, Argentina), in 1990. There is no report of any investigation carried out with such a large amount of victims in Argentina. Carboxihemoglobin (COHb) and hydrogen cyanide (HCN) were quantified in victims blood to elucidate the cause of the death. Saturation of COHb ranged between 4 and 18%, and HCN 2.0-7.2mg/l. These latter values were higher than the lethal levels reported in literature. Other toxic components routinely measured (ethanol, methanol, aldehydes and other volatile compounds) gave negative results on the 35 cases. Neither drugs of abuse nor psychotropics were detected. Statistical chi(2) analysis was applied to find differences between HCN and COHb concentrations. Saturation of COHb and HCN in blood were not independent variables (chi(2)=8.25). Moreover, the ratio COHb/HCN was constant (0.47+/-0.04). In order to evaluate the contribution of each toxic to the diagnosis, a lethal index was defined for each toxic (LI(CO) and LI(HCN)). The most probable cause of death could be inferred by a suitable plot of both indexes. The results indicated that death in the 35 fire victims was probably caused by HCN, generated during the extensive polyurethane decomposition provoked by a rapid increase of temperature.
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| http://dx.doi.org/10.1016/s0379-0738(01)00464-9 | DOI Listing |
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