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Forensic Sci Int

Title:		Ethanol formation in unadulterated postmortem tissues
Author(s):		Lewis RJ; Johnson RD; Angier MK; Vu NT;
Address:		"Analytical Toxicology and Accident Research Laboratory, Civil Aerospace Medical Institute, Federal Aviation Administration, AAM-610, CAMI Building, RM 205, 6500 S. Macarthur Blvd, Oklahoma City, OK 73169-6901, USA. russell.j.lewis@faa.gov"
Journal Title:		Forensic Sci Int
Year:		2004
Volume:		146
Issue:		1
Page Number:		17 - 24
DOI:		10.1016/j.forsciint.2004.03.015
ISSN/ISBN:		0379-0738 (Print) 0379-0738 (Linking)
Abstract:		"During the investigation of aviation accidents, postmortem samples obtained from fatal accident victims are submitted to the FAA's Civil Aerospace Medical Institute (CAMI) for toxicological analysis. During toxicological evaluations, ethanol analysis is performed on all cases. Many species of bacteria, yeast, and fungi have the ability to produce ethanol and other volatile organic compounds in postmortem specimens. The potential for postmortem ethanol formation complicates the interpretation of ethanol-positive results from accident victims. Therefore, the prevention of ethanol formation at all steps following specimen collection is a priority. Sodium fluoride is the most commonly used preservative for postmortem specimens. Several studies have been published detailing the effectiveness of sodium fluoride for the prevention of ethanol formation in blood and urine specimens; however, our laboratory receives blood or urine in approximately 70% of cases. Thus, we frequently rely on tissue specimens for ethanol analysis. The postmortem tissue specimens received by our laboratory have generally been subjected to severe trauma and may have been exposed to numerous microbial species capable of ethanol production. With this in mind, we designed an experiment utilizing unadulterated tissue specimens obtained from aviation accident victims to determine the effectiveness of sodium fluoride at various storage temperatures for the prevention of microbial ethanol formation. We found that without preservative, specimens stored at 4 degrees C for 96 h showed an increase in ethanol concentration ranging from 22 to 75 mg/hg (average 42 +/- 15 mg/hg). At 25 degrees C, these same specimens showed an increase ranging from 19 to 84 mg/hg (average 45 +/- 22 mg/hg). With the addition of 1.00% sodium fluoride, there was no significant increase in ethanol concentration at either temperature"
Keywords:		"Accidents, Aviation Bacteria/*metabolism Chromatography, Gas Ethanol/*metabolism Forensic Medicine/methods Humans Kidney/*metabolism Muscles/*metabolism *Postmortem Changes Sodium Fluoride/pharmacology Specimen Handling Temperature;"
Notes:		"MedlineLewis, Russell J Johnson, Robert D Angier, Mike K Vu, Nicole T eng Ireland 2004/10/16 Forensic Sci Int. 2004 Nov 10; 146(1):17-24. doi: 10.1016/j.forsciint.2004.03.015"