Quantification of Neural Ethanol and Acetaldehyde Using Headspace GC-MS

Background There is controversy regarding the active agent responsible for alcohol addiction. The theory that ethanol (EtOH) itself was the agent in alcohol drinking behavior was widely accepted until acetaldehyde (AcH) was found in the brain. The importance of AcH formation in the brain is still su...

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Published inAlcoholism, clinical and experimental research Vol. 40; no. 9; pp. 1825 - 1831
Main Authors Heit, Claire, Eriksson, Peter, Thompson, David C., Charkoftaki, Georgia, Fritz, Kristofer S., Vasiliou, Vasilis
Format Journal Article
LanguageEnglish
Published England Blackwell Publishing Ltd 01.09.2016
Subjects
Acetaldehyde
Acetaldehyde - analysis
Alcoholism
Animals
Brain
Brain - drug effects
Brain Chemistry - drug effects
Brain Chemistry - physiology
Ethanol
Ethanol - administration & dosage
Ethanol - analysis
Female
Gas Chromatography-Mass Spectrometry - methods
Gas Chromatography-Mass Spectrometry - standards
GC-MS
Liver
Liver - chemistry
Liver - drug effects
Mice
Mice, Inbred C57BL
GC-MS
Brain
Ethanol
Liver
Acetaldehyde
Online AccessGet full text
ISSN0145-6008
1530-0277
DOI10.1111/acer.13156

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Abstract Background There is controversy regarding the active agent responsible for alcohol addiction. The theory that ethanol (EtOH) itself was the agent in alcohol drinking behavior was widely accepted until acetaldehyde (AcH) was found in the brain. The importance of AcH formation in the brain is still subject to speculation due to the lack of a method to accurately assay the AcH levels directly. A highly sensitive gas chromatography mass spectrometry (GC‐MS) method to reliably determine AcH concentration with certainty is needed to address whether neural AcH is indeed responsible for increased alcohol consumption. Methods A headspace gas chromatograph coupled to selected‐ion monitoring MS was utilized to develop a quantitative assay for AcH and EtOH. Our GC‐MS approach was carried out using a Bruker Scion 436‐GC SQ MS. Results Our approach yields limits of detection of AcH in the nanomolar range and limits of quantification in the low micromolar range. Our linear calibration includes 5 concentrations with a least‐square regression greater than 0.99 for both AcH and EtOH. Tissue analyses using this method revealed the capacity to quantify EtOH and AcH in blood, brain, and liver tissue from mice. Conclusions By allowing quantification of very low concentrations, this method may be used to examine the formation of EtOH metabolites, specifically AcH, in murine brain tissue in alcohol research.
AbstractList Background There is controversy regarding the active agent responsible for alcohol addiction. The theory that ethanol (EtOH) itself was the agent in alcohol drinking behavior was widely accepted until acetaldehyde (AcH) was found in the brain. The importance of AcH formation in the brain is still subject to speculation due to the lack of a method to accurately assay the AcH levels directly. A highly sensitive gas chromatography mass spectrometry (GC-MS) method to reliably determine AcH concentration with certainty is needed to address whether neural AcH is indeed responsible for increased alcohol consumption. Methods A headspace gas chromatograph coupled to selected-ion monitoring MS was utilized to develop a quantitative assay for AcH and EtOH. Our GC-MS approach was carried out using a Bruker Scion 436-GC SQ MS. Results Our approach yields limits of detection of AcH in the nanomolar range and limits of quantification in the low micromolar range. Our linear calibration includes 5 concentrations with a least-square regression greater than 0.99 for both AcH and EtOH. Tissue analyses using this method revealed the capacity to quantify EtOH and AcH in blood, brain, and liver tissue from mice. Conclusions By allowing quantification of very low concentrations, this method may be used to examine the formation of EtOH metabolites, specifically AcH, in murine brain tissue in alcohol research.
There is controversy regarding the active agent responsible for alcohol addiction. The theory that ethanol (EtOH) itself was the agent in alcohol drinking behavior was widely accepted until acetaldehyde (AcH) was found in the brain. The importance of AcH formation in the brain is still subject to speculation due to the lack of a method to accurately assay the AcH levels directly. A highly sensitive gas chromatography mass spectrometry (GC-MS) method to reliably determine AcH concentration with certainty is needed to address whether neural AcH is indeed responsible for increased alcohol consumption. A headspace gas chromatograph coupled to selected-ion monitoring MS was utilized to develop a quantitative assay for AcH and EtOH. Our GC-MS approach was carried out using a Bruker Scion 436-GC SQ MS. Our approach yields limits of detection of AcH in the nanomolar range and limits of quantification in the low micromolar range. Our linear calibration includes 5 concentrations with a least-square regression greater than 0.99 for both AcH and EtOH. Tissue analyses using this method revealed the capacity to quantify EtOH and AcH in blood, brain, and liver tissue from mice. By allowing quantification of very low concentrations, this method may be used to examine the formation of EtOH metabolites, specifically AcH, in murine brain tissue in alcohol research.
Background There is controversy regarding the active agent responsible for alcohol addiction. The theory that ethanol (EtOH) itself was the agent in alcohol drinking behavior was widely accepted until acetaldehyde (AcH) was found in the brain. The importance of AcH formation in the brain is still subject to speculation due to the lack of a method to accurately assay the AcH levels directly. A highly sensitive gas chromatography mass spectrometry (GC‐MS) method to reliably determine AcH concentration with certainty is needed to address whether neural AcH is indeed responsible for increased alcohol consumption. Methods A headspace gas chromatograph coupled to selected‐ion monitoring MS was utilized to develop a quantitative assay for AcH and EtOH. Our GC‐MS approach was carried out using a Bruker Scion 436‐GC SQ MS. Results Our approach yields limits of detection of AcH in the nanomolar range and limits of quantification in the low micromolar range. Our linear calibration includes 5 concentrations with a least‐square regression greater than 0.99 for both AcH and EtOH. Tissue analyses using this method revealed the capacity to quantify EtOH and AcH in blood, brain, and liver tissue from mice. Conclusions By allowing quantification of very low concentrations, this method may be used to examine the formation of EtOH metabolites, specifically AcH, in murine brain tissue in alcohol research.
Author Thompson, David C.
Charkoftaki, Georgia
Heit, Claire
Eriksson, Peter
Fritz, Kristofer S.
Vasiliou, Vasilis
AuthorAffiliation 3 Department of Clinical Pharmacy, School of Pharmacy, University of Colorado Anschutz Medical Campus, 12850 East Montview Boulevard, Aurora, CO 80045, USA
2 Department of Public Health, University of Helsinki, POB 27, 00271 Helsinki, Finland
1 Department of Pharmaceutical Sciences, School of Pharmacy, University of Colorado Denver Anschutz Medical Campus, 12850 East Montview Boulevard, Aurora, CO 80045, USA
4 Department of Environmental Health Services, Yale School of Public Health, Yale University, New Haven CT 0650
AuthorAffiliation_xml – name: 1 Department of Pharmaceutical Sciences, School of Pharmacy, University of Colorado Denver Anschutz Medical Campus, 12850 East Montview Boulevard, Aurora, CO 80045, USA
– name: 4 Department of Environmental Health Services, Yale School of Public Health, Yale University, New Haven CT 0650
– name: 3 Department of Clinical Pharmacy, School of Pharmacy, University of Colorado Anschutz Medical Campus, 12850 East Montview Boulevard, Aurora, CO 80045, USA
– name: 2 Department of Public Health, University of Helsinki, POB 27, 00271 Helsinki, Finland
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Acetaldehyde
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2002; 72
1986; 77
2015; 288
2002; 12
2000; 21
2006; 16
2007; 285
1999; 4
1985b; 2
1964; 25
2011; 35
2008; 1
2013; 7
2001; 25
2005; 29
1977; 80
1980; 126
1971; 7
2013; 37
1984; 33
1980; 4
1994; 11
1979; 4
1968; 162
2005; 15
1985a; 37
1985; 34
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Snippet Background There is controversy regarding the active agent responsible for alcohol addiction. The theory that ethanol (EtOH) itself was the agent in alcohol...
There is controversy regarding the active agent responsible for alcohol addiction. The theory that ethanol (EtOH) itself was the agent in alcohol drinking...
Background There is controversy regarding the active agent responsible for alcohol addiction. The theory that ethanol (EtOH) itself was the agent in alcohol...
SourceID pubmedcentral
proquest
pubmed
crossref
wiley
istex
SourceType Open Access Repository
Aggregation Database
Index Database
Enrichment Source
Publisher
StartPage 1825
SubjectTerms Acetaldehyde
Acetaldehyde - analysis
Alcoholism
Animals
Brain
Brain - drug effects
Brain Chemistry - drug effects
Brain Chemistry - physiology
Ethanol
Ethanol - administration & dosage
Ethanol - analysis
Female
Gas Chromatography-Mass Spectrometry - methods
Gas Chromatography-Mass Spectrometry - standards
GC-MS
Liver
Liver - chemistry
Liver - drug effects
Mice
Mice, Inbred C57BL
Title Quantification of Neural Ethanol and Acetaldehyde Using Headspace GC-MS
URI https://api.istex.fr/ark:/67375/WNG-73BCDQ61-P/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Facer.13156
https://www.ncbi.nlm.nih.gov/pubmed/27501276
https://www.proquest.com/docview/1827907045
https://pubmed.ncbi.nlm.nih.gov/PMC5008984
Volume 40
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