Sarah S Dermody1, Christian S Hendershot2,3,4,5, Allyson K Andrade6, Maria Novalen7, Rachel F Tyndale2,3,7. 1. School of Psychological Science, Oregon State University, Corvallis, OR. 2. Campbell Family Mental Health Research Institute, Centre for Addiction and Mental Health, Toronto, Ontario, Canada. 3. Department of Psychiatry, University of Toronto, Toronto, Ontario, Canada. 4. Department of Psychology, University of Toronto, Toronto, Ontario, Canada. 5. Institute for Mental Health Policy Research, Centre for Addiction and Mental Health, Toronto, Ontario, Canada. 6. Department of Psychology, University of Guelph, Guelph, Ontario, Canada. 7. Department of Pharmacology and Toxicology, University of Toronto, Toronto, Ontario, Canada.
Abstract
INTRODUCTION: Alcohol may influence the nicotine metabolite ratio (NMR), an index of the rate of nicotine metabolism that is associated smoking level and lapses. We examined if NMR changes during alcohol use disorder (AUD) treatment and how changes in NMR relate to reductions in drinking. METHODS: Using an observational design, 22 daily smokers [63.64% male, Mage = 46.77 (11.37)] receiving AUD treatment completed baseline and follow-up appointments 3 weeks apart. At each appointment, daily alcohol and cigarette use, salivary and urinary NMR, nicotine exposure via urinary total nicotine equivalents, and carbon monoxide were assessed. Multilevel models examined the change over time in NMR and its within-person relations with changes in drinks per week. Sex differences were evaluated. RESULTS: There were significant reductions in both salivary and urinary NMR over time for men (p = .02; p = .01, respectively) but not for women (p = .54; p = .90, respectively). There were no changes over time in total nicotine equivalents (p = .09), carbon monoxide (p = .44), or cigarette use (p = .44) in either sex. Drinks per week were significantly reduced for men (29.12 drink reduction, p < .001) but not for women (2.28 drink reduction, p = .80); however, within-person changes in drinking were not associated with changes in salivary or urinary NMR (p = .99; p = .19). CONCLUSIONS: The reduction in alcohol use and NMR in men provides indirect support for alcohol increasing NMR. In contrast, the low baseline drinking and lack of alcohol reduction likely underlie the lack of change in NMR in females. Reasons for NMR reductions during AUD treatment and its effects on smoking require further study. IMPLICATIONS: Three weeks of alcohol use disorder treatment among daily smokers coincided with a significant reduction in both alcohol use and NMR for men; however, neither drinking level nor NMR changed for women. The findings indirectly support that heavy drinking increases NMR, which is reversed with reduced drinking. Additional research is needed to establish if these changes in NMR correlate with smoking and cessation outcomes.
INTRODUCTION:Alcohol may influence the nicotine metabolite ratio (NMR), an index of the rate of nicotine metabolism that is associated smoking level and lapses. We examined if NMR changes during alcohol use disorder (AUD) treatment and how changes in NMR relate to reductions in drinking. METHODS: Using an observational design, 22 daily smokers [63.64% male, Mage = 46.77 (11.37)] receiving AUD treatment completed baseline and follow-up appointments 3 weeks apart. At each appointment, daily alcohol and cigarette use, salivary and urinary NMR, nicotine exposure via urinary total nicotine equivalents, and carbon monoxide were assessed. Multilevel models examined the change over time in NMR and its within-person relations with changes in drinks per week. Sex differences were evaluated. RESULTS: There were significant reductions in both salivary and urinary NMR over time for men (p = .02; p = .01, respectively) but not for women (p = .54; p = .90, respectively). There were no changes over time in total nicotine equivalents (p = .09), carbon monoxide (p = .44), or cigarette use (p = .44) in either sex. Drinks per week were significantly reduced for men (29.12 drink reduction, p < .001) but not for women (2.28 drink reduction, p = .80); however, within-person changes in drinking were not associated with changes in salivary or urinary NMR (p = .99; p = .19). CONCLUSIONS: The reduction in alcohol use and NMR in men provides indirect support for alcohol increasing NMR. In contrast, the low baseline drinking and lack of alcohol reduction likely underlie the lack of change in NMR in females. Reasons for NMR reductions during AUD treatment and its effects on smoking require further study. IMPLICATIONS: Three weeks of alcohol use disorder treatment among daily smokers coincided with a significant reduction in both alcohol use and NMR for men; however, neither drinking level nor NMR changed for women. The findings indirectly support that heavy drinking increases NMR, which is reversed with reduced drinking. Additional research is needed to establish if these changes in NMR correlate with smoking and cessation outcomes.
Authors: Walter Roberts; Phillip L Marotta; Terril L Verplaetse; MacKenzie R Peltier; Catherine Burke; Vijay A Ramchandani; Sherry A McKee Journal: Drug Alcohol Depend Date: 2020-08-05 Impact factor: 4.492
Authors: Ellen C Caniglia; Elizabeth R Stevens; Maria Khan; Kailyn E Young; Kaoon Ban; Brandon D L Marshall; Natalie E Chichetto; Julie R Gaither; Stephen Crystal; Eva Jennifer Edelman; David A Fiellin; Adam J Gordon; Kendall J Bryant; Janet Tate; Amy C Justice; Ronald Scott Braithwaite Journal: Alcohol Clin Exp Res Date: 2020-10-08 Impact factor: 3.928