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References
Japanese Society of Chemistry (ed) (1995) Chemistry Handbook, 5th edn. Applied Chemistry. Maruzen, Tokyo, pp 735–774 (in Japanese)
Nagata T, Kagaura M, Hara K et al. (1977) Gas chromatography-mass spectrometric termination of gasoline in blood. Jpn J Legal Med 31:136–139 (in Japanese with an English abstract)
Kimura K, Nagata T, Hara K et al. (1988) Gasoline and kerosene components in blood-A forensic analysis. Hum Toxicol 7:299–305
American Society for Testing and Materials ASTM (2001) Annual Book of ASTM Standards. West Conshohocken, PA
Carnevale A, Chiarotti M, De Giovanni N (1983) Accidental death by gasoline ingestion. Case report and toxicological study. Am J Forensic Med Pathol 4:153–157
Ikebuti J, Kotoku S, Yashiki M et al. (1986) Gas chromatographic and gas chromatographic-mass spectrometric determination of gasoline in a case of gasoline vapor and alcohol poisoning. Am J Forensic Med Pathol 7:146–150
Matsumoto T, Koga M, Sata T et al. (1992) The change of gasoline components in blood in a case of gasoline intoxication. J Toxicol Clin Toxicol 30:653–662
Nishigami J, Ohshima T, Kondo T et al. (1994) A suicidal case due to inhalation of gasoline vapor in the trunk of a car. Jpn J Forensic Toxicol 12:33–39
Shiono H, Matsubara K, Akane A et al. (1989) Immolation after drinking kerosene. Am J Forensic Med Pathol 10:229–231
Twibell JD, Home JM (1977) Novel method for direct analysis of hydrocarbons in crime investigation and air pollution studies. Nature 268:711–713
Ojanpera I, Pihlainen K, Vuori E (1998) Identification limits for volatile organic compounds in the blood by purge-and-trap GC-FTIR. J Anal Toxicol 22:290–295
Kärkkäinen M, Seppälä I, Himberg K (1994) Detection of trace levels of gasoline in arson cases by gas chromatography-mass spectrometry with an automatic on-line thermal desorber. J Forensic Sci 39:186–193
Lee XP, Kumazawa T, Sato K (1995) A simple analysis of 5 thinner components in human body fluids by headspace solid-phase microextraction(SPME) Int J Legal Med 107:310–313
Iwasaki Y, Yashiki M, Nagasawa N et al. (1995) Analysis of inflammable substances in blood using head space-solid phase microextraction and chemical ionization selected ion monitoring. Jpn J Forensic Toxicol 13:189–194
Almirall JR, Bruna J, Furton KG (1996) The recovery of accelerants in aqueous samples from fire debris using solid-phase microextraction. SPME. Sci Justice 36:283–287
Furton KG, Almirall JR, Bruna JC (1996) A novel method for the analysis of gasoline from fire debris using headspace solid-phase microextraction. J Forensic Sci 41:12–22
Namera A, Yashiki M, Kojima T et al. (1998) Solid phase microextraction in forensic toxicology. Jpn J Forensic Toxicol 16:1–15 (in Japanese with an English abstract)
Liu J, Hara K, Kashimura S et al. (2000) Headspace solid-phase microextraction and gas chromatographic-mass spectrometric screening for volatile hydrocarbons in blood. J Chromatogr B 748:401–406
Takayasu T, Ohshima T, Kondo T et al. (2001) Intratracheal gas analysis for volatile substances by gas chromatography/mass spectrometry-Application to forensic autopsies. J Forensic Sci 46:98–104
Naito H (2001) Poisoning of Industrial products, Gases, Pecticides, Drugs, and Natural Toxins. Cases, Pathogenesis and its Treatment, 2nd edn. Nankodo, Tokyo, pp 2–7 (in Japanese)
Yoshimura S, Hayata M, Yamazaki F et al. (1996) Acute Poisoning Information File, 3rd edn. Hirokawa Publishing Co, Tokyo, p 341, 343 (in Japanese)
Nelms RJ Jr, Davis L, Bond J (1970) Verification of fatal gasoline intoxication in confined spaces utilizing gasliquid chromatography. Am J Clin Pathol 53:641–646
Takayasu T, Ohshima T, Nishigami J et al. (1995) Screening of volatile substances and determination of toluene (a thinner component) in the blood and urine in emergency medical care and autopsy cases by the pulse heating method. J Clin Forensic Med 2:65–72
Takatori T (1980) Gas chromatographic determination of kerosene components from cadaveric hypopharyngeal contents. Hokkaido J Med Sci 55:471–473
Yoshida M, Watabiki T, Tokiyasu T et al. (1994) Case of death by fire with kerosene — analysis of contents of trachea and stomach. Jpn J Legal Med 48:96–104 (in Japanese with an English abstract)
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Takayasu, T., Kondo, T. (2005). Components of gasoline and kerosene. In: Drugs and Poisons in Humans. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-27579-7_18
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DOI: https://doi.org/10.1007/3-540-27579-7_18
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