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CASE REPORT: Fatal Acute Poisoning by Bentazon
Authors: Turcant A.1; Harry P.2; Cailleux A.1; Puech M.1; Bruhat C.2; Vicq N.3; Le Bouil A.1; Allain P.1
Source: Journal of Analytical Toxicology, Volume 27, Number 2, March 2003 , pp. 113-117(5)
Publisher: Preston Publications
Abstract:
A case of fatal suicidal bentazon poisoning is presented along with a description of the different analytical methods involved. A 56-year-old farmer was examined by the family doctor 1 h after voluntarily ingesting 500 mL of FIGHTER® (bentazon, 480 g/L water). He presented a Glasgow score of 15, polypnea, diarrhea, and vomiting. During transport by ambulance to the hospital, he tossed, sweated, and suddenly presented breathing difficulty followed by heart failure. Tracheal intubation was impossible (H1.5) despite use of different diameter cannulas because of extreme general muscle rigidity. All attempts at resuscitation failed, and the patient died within 2 h postingestion. Blood and urine samples were taken just before death. General basic and neutral drug screening by high-performance liquid chromatography–diode-array detection and gas chromatography–nitrogen–phosphorus detection showed no strychnine or other drugs or toxics except for citalopram (< 0.1 mg/L) and bentazon, but this weak acidic molecule (pKa 3.3) was badly extracted in alkaline conditions. Plasma and urine levels, measured after acidic extraction, protein precipitation, or simple dilution, were 1500 and 1000 mg/L, respectively. Bentazon (M.W. 240) was confirmed by its basic mass spectrum (ESI–, m/z 239, 197, 175, 132) or by that of methylated derivative (EI+, m/z 254, 212, 175). An hydroxylated metabolite (ESI–, m/z 255, 213, 191, 148 ; EI+, m/z 284, 242, 163) and the N1–glucuronide conjugate of bentazon (ESI–, m/z 415, 239) were also detected in urine. (Quantitation ions are underlined.) This first case of bentazon poisoning with available analytical data revealed the high toxicity of this compound after large dose ingestion with early and heavy symptoms such as muscle rigidity probably related to muscular toxicity. Comparison with another nonfatal case and with toxicological data on animals is discussed.Document Type: Research article
Affiliations: 1: Laboratoire de Pharmacologie-Toxicologie, CHU, 4 rue Larrey, 49033 Angers, France 2: Centre Anti-Poison, CHU, Angers, France 3: SAMU61 CH Alenon 61000, France
Publication date: 2003-03-01
The Journal of Analytical Toxicology (JAT), established in 1977 and published 9 times a year, is the international source covering a broad range of clinical, forensic, and industrial laboratory topics regarding the isolation, identification, and quantitation of potentially toxic substances.
With an emphasis on practical application, JAT articles provide improved and novel techniques for use in clinical, forensic, workplace, sports testing (doping), and other toxicology laboratories. Articles describe newly developed methods in immunoassay testing, gas chromatography, liquid chromatography, mass spectrometry, atomic absorption spectrometry, solid and liquid phase extraction techniques, and other analytical approaches. Worldwide readership includes toxicologists, pathologists, chemists, clinicians, researchers, and educators working in medical examiner and law enforcement laboratories, hospitals, university and independent analytical laboratories, as well as the drug manufacturing industry.
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- By this author: Turcant A. ; Harry P. ; Cailleux A. ; Puech M. ; Bruhat C. ; Vicq N. ; Le Bouil A. ; Allain P.
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