Pitfalls in the toxicological analysis of an isobutyl nitrite-adulterated coffee drink

A forensic investigation was carried out on one poisoning case, where cyanide was first detected in an evidence sample of a canned coffee drink. A more complete study revealed that it had been adulterated with isobutyl nitrite (IBN) and not cyanide. me examined the detectivity of IBN and related compounds by headspace gas chromatography and capillary electrophoresis. IBN decomposes to isobutyl alcohol ((BuOH)-Bu-i) and nitrite in aqueous solution, and under higher temperature and more acidic conditions, the rate of this reaction becomes more rapid. IBN was also produced by the esterification of (BuOH)-Bu-i with nitrite below pH 5, Cyanide was produced in a coffee solution by the addition of nitrite below pH 6, An IBN-spiked canned coffee drink solution was stored at 4 degreesC and periodically analyzed for IBN, (BuOH)-Bu-i, nitrite, nitrate, and cyanide. Since the IBN level decreased rapidly, (BuOH)-Bu-i was produced in an almost 90% molar yield. Nitrite production reached a maximum of 40% molar recovery on the first day and then gradually disappeared, The nitrate level reached a plateau of similar to 60% molar recovery. Cyanide was also detected, and its level at the 14th day was similar to0.26% molar recovery, These findings suggest that, in a coffee drink solution, IBN undergoes hydrolysis to produce (BuOH)-Bu-i and nitric acid, which is oxidized to nitrate and also produces cyanide through the nonspecific oxidation of organic compounds under acidic conditions.