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Forensic Toxicology
Published in: Forensic Toxicology 1/2019

Open Access 01-01-2019 | Original Article

A new and sensitive method for quantitative determination of helium in human blood by gas chromatography–mass spectrometry using naturally existing neon-21 as internal standard

Authors: Akira Tsujita, Hidehiko Okazaki, Asami Nagasaka, Akinaga Gohda, Mitsushi Matsumoto, Toshiro Matsui

Published in: Forensic Toxicology | Issue 1/2019

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Abstract

Purpose

In this study, we proposed a new sensitive quantitative method for detecting helium in human blood by gas chromatography–selected-ion monitoring (SIM)-mass spectrometry (GC–SIM-MS) using naturally existing neon-21 in air as internal standard (IS).

Methods

GC–SIM-MS analysis was performed on a double TC-Molsieve 5A capillary column (total length 60 m) for the separation of permanent gases by a single-run experiment. By using hydrogen as the carrier gas, the analyte (helium) and IS (neon-21) were separated on the double column, and detected at m/z 4 and 21, respectively. The ratio of the peak area of helium-to-neon-21 was used for obtaining the calibration curve for helium determination.

Results

The limits of detection and quantification of helium under the present GC–SIM-MS conditions were as low as 1.8 and 6.0 ppm, respectively. The proposed GC–SIM-MS method also showed high repeatability with relative standard deviation at 1.3–5.1%, indicating that the use of neon-21 as IS was valid for reliable helium assays. The successful quantification of helium in the headspace of vacuum blood collection tubes containing the whole blood from four humans who died of helium inhalation was achieved using the proposed neon-21-aided GC–SIM-MS method; the values obtained for helium were 24–497 ppm.

Conclusions

The proposed GC–SIM-MS method in combination with the naturally existing neon-21 as IS is most recommendable for quantitative assays of helium in biological samples because of its simplicity and extremely high sensitivity.
Literature
1.
Ogden RD, Wooten RH (2002) Asphyxial suicide with helium and a plastic bag. Am J Forensic Med Pathol 23:234–237CrossRefPubMed
2.
Gilson T, Parks BO, Porterfield CM (2003) Suicide with inert gases: addendum to Final Exit. Am J Forensic Med Pathol 24:306–308CrossRefPubMed
3.
Gallagher KE, Smith DM, Mellen PF (2003) Suicidal asphyxiation by using pure helium gas: case report, review, and discussion of the influence of the Internet. Am J Forensic Med Pathol 24:361–363CrossRefPubMed
4.
Gunnell D, Coope C, Fearn V, Wells C, Chang S-S, Hawton K, Kapur N (2015) Suicide by gases in England and Wales 2001–2011: evidence of the emergence of new methods of suicide. J Affect Disord 170:190–195CrossRefPubMed
5.
Chang S-S, Cheng Q, Lee EST, Yip PSF (2016) Suicide by gassing in Hong Kong 2005–2013: emerging trends and characteristics of suicide by helium inhalation. J Affect Disord 192:162–166CrossRefPubMed
6.
Austin A, Winskog C, Van Den Heuvel C, Byard RW (2011) Recent trends in suicides utilizing helium. J Forensic Sci 56:649–651CrossRefPubMed
7.
Yoshitome K, Ishikawa T, Inagaki S, Yamamoto Y, Miyaishi S, Ishizu H (2002) A case of suffocation by an advertising balloon filled with pure helium gas. Acta Med Okayama 56:53–55 (PMID:11873946) PubMed
8.
Schaff JE, Karas RP, Marinetti L (2012) A gas chromatography-thermal conductivity detection method for helium detection in postmortem blood and tissue specimens. J Anal Toxicol 36:112–115CrossRefPubMed
9.
Tanaka N, Kinoshita H, Jamal M, Kumihashi M, Tobiume T, Tsutsui K, Ameno K (2013) Usefulness of intratracheal gas analysis in an autopsy case of helium inhalation. Rom J Leg Med 21:237–238CrossRef
10.
Norimine E, Miyata K, Ishizawa F, Takasu M, Honda K (2013) Analysis of helium in blood. Jpn J Forensic Sci Tech 18:65–70CrossRef
11.
Oosting R, Van Der Hulst R, Peschier L, Verschraagen M (2015) Toxicological findings in three cases of suicidal asphyxiation with helium. Forenseic Sci Int 256:38–41CrossRef
12.
Westmoreland DG, Rhodes GR (1989) Analytical techniques for trace organic compounds-II: detectors for gas chromatography. Pure Appl Chem 61:1147–1160CrossRef
13.
Auwaerter V, Perdekamp MG, Kempf J, Schmidt U, Weinmann W, Pollak S (2007) Toxicological analysis after asphyxial suicide with helium and a plastic bag. Forensic Sci Int 170:139–141CrossRefPubMed
14.
Musshoff F, Hagemeier L, Kirschbaum K, Madea B (2012) Two cases of suicide by asphyxiation due to helium and argon. Forensic Sci Int 223:e27–e30CrossRefPubMed
15.
Malbranque S, Mauillon D, Turcant A, Rouge-Maillart C, Mangin P, Varlet V (2016) Quantification of fatal helium exposure following self-administration. Int J Legal Med 130:1535–1539CrossRefPubMed
16.
17.
Berglund M, Wieser ME (2011) Isotopic compositions of the elements 2009 (IUPAC technical report). Pure Appl Chem 83:397–410CrossRef
18.
Gross JH (2012) Mass spectrometry. Maruzen, Tokyo, p 20 (translated into Japanese)
19.
Metadata
Title
A new and sensitive method for quantitative determination of helium in human blood by gas chromatography–mass spectrometry using naturally existing neon-21 as internal standard
Authors
Akira Tsujita
Hidehiko Okazaki
Asami Nagasaka
Akinaga Gohda
Mitsushi Matsumoto
Toshiro Matsui
Publication date
01-01-2019
Publisher
Springer Singapore
Published in
Forensic Toxicology / Issue 1/2019
Print ISSN: 1860-8965
Electronic ISSN: 1860-8973
DOI
https://doi.org/10.1007/s11419-018-0437-6

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