Milly N Kanobe, Patrudu Makena, Kristen Prevette, Sarah A Baxter
{"title":"在一项随机交叉研究中评估全球加热烟草产品的滥用可能性和尼古丁药代动力学。","authors":"Milly N Kanobe, Patrudu Makena, Kristen Prevette, Sarah A Baxter","doi":"10.1007/s13318-024-00921-4","DOIUrl":null,"url":null,"abstract":"<p><strong>Background and objective: </strong>Heated tobacco products (HTPs) are a class of non-combustible, inhaled tobacco products with the potential to reduce the harm associated with cigarette smoking due to reduced cigarette smoke toxicant exposure. Subjective and nicotine pharmacokinetics measures taken over the course of product use provide a framework for abuse liability (AL) assessment of tobacco and nicotine products as well as information on adoption potential for a new tobacco product, which are important aspects for premarket tobacco product authorization by the US Food and Drug Administration. This study aimed to assess the AL of glo HTPs, operated in either Standard or Boost Modes, compared with high- and low-AL comparators (subjects' usual brand cigarettes and nicotine gum, respectively).</p><p><strong>Methods: </strong>Nicotine uptake and pharmacodynamics measures (including subjective and physiological measures) were assessed in a clinical study of 75 healthy adult non-menthol or menthol smokers using an open-label, randomized crossover study design. Comparisons were made between glo HTPs (Standard or Boost Modes) and each of usual brand (UB) cigarettes and nicotine gum to evaluate nicotine exposure and subjective effects measures.</p><p><strong>Results: </strong>Nicotine uptake, as reflected in the area under the curve (AUC) at 15 and 240 min after product use (AUC<sub>0-15</sub> and AUC<sub>0-240</sub>, respectively) and maximum nicotine concentration (C<sub>max</sub>) were significantly lower for all glo HTPs compared to UB cigarettes, regardless of the glo device mode. AUC<sub>0-15</sub> values for glo HTPs ranged from 41.26 to 75.71 ng × min/mL, versus 158.04 to 165.53 ng × min/mL for UB cigarettes. Similarly, AUC<sub>0-240</sub> values for glo HTPs ranged from 379 to 596 ng × min/mL, compared to 1123.73 and 1283.37 ng × min/mL for UB cigarettes. The C<sub>max</sub> for glo HTPs ranged from 5.46 to 9.00 ng/mL, whereas UB cigarettes had C<sub>max</sub> values of 16.29 to 16.76 ng/mL. The time to reach maximum nicotine concentration (T<sub>max</sub>) was significantly shorter for glo HTPs (4-5 min) compared to UB cigarettes (6-7 min), except for one variant of glo HTP in Standard Mode. Nicotine gum exhibited a slower nicotine absorption profile, with a T<sub>max</sub> of 45 min and C<sub>max</sub> of 4.60 ng/mL. AUC<sub>0-15</sub> and AUC<sub>0-240</sub> values for nicotine gum were 6.18 and 5.22 ng × min/mL, and 647.80 and 687.68 ng × min/mL for non-menthol and menthol groups, respectively. Subjective measures indicated that glo HTPs were rated significantly lower than UB cigarettes in terms of product liking, smoking urge reduction, product effects, and intent to use again, but were comparable to nicotine gum.</p><p><strong>Conclusion: </strong>glo HTPs demonstrated lower AL than combustible cigarettes while delivering sufficient nicotine to support product adoption among current smokers. This positions glo HTPs as a potential tool in tobacco harm reduction, offering a less harmful alternative to traditional cigarettes.</p><p><strong>Trial registry: </strong>Clinical trial ID NCT05114863.</p>","PeriodicalId":11939,"journal":{"name":"European Journal of Drug Metabolism and Pharmacokinetics","volume":null,"pages":null},"PeriodicalIF":1.9000,"publicationDate":"2024-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11549183/pdf/","citationCount":"0","resultStr":"{\"title\":\"Assessment of Abuse Liability and Nicotine Pharmacokinetics of glo Heated Tobacco Products in a Randomized, Crossover Study.\",\"authors\":\"Milly N Kanobe, Patrudu Makena, Kristen Prevette, Sarah A Baxter\",\"doi\":\"10.1007/s13318-024-00921-4\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background and objective: </strong>Heated tobacco products (HTPs) are a class of non-combustible, inhaled tobacco products with the potential to reduce the harm associated with cigarette smoking due to reduced cigarette smoke toxicant exposure. Subjective and nicotine pharmacokinetics measures taken over the course of product use provide a framework for abuse liability (AL) assessment of tobacco and nicotine products as well as information on adoption potential for a new tobacco product, which are important aspects for premarket tobacco product authorization by the US Food and Drug Administration. This study aimed to assess the AL of glo HTPs, operated in either Standard or Boost Modes, compared with high- and low-AL comparators (subjects' usual brand cigarettes and nicotine gum, respectively).</p><p><strong>Methods: </strong>Nicotine uptake and pharmacodynamics measures (including subjective and physiological measures) were assessed in a clinical study of 75 healthy adult non-menthol or menthol smokers using an open-label, randomized crossover study design. Comparisons were made between glo HTPs (Standard or Boost Modes) and each of usual brand (UB) cigarettes and nicotine gum to evaluate nicotine exposure and subjective effects measures.</p><p><strong>Results: </strong>Nicotine uptake, as reflected in the area under the curve (AUC) at 15 and 240 min after product use (AUC<sub>0-15</sub> and AUC<sub>0-240</sub>, respectively) and maximum nicotine concentration (C<sub>max</sub>) were significantly lower for all glo HTPs compared to UB cigarettes, regardless of the glo device mode. AUC<sub>0-15</sub> values for glo HTPs ranged from 41.26 to 75.71 ng × min/mL, versus 158.04 to 165.53 ng × min/mL for UB cigarettes. Similarly, AUC<sub>0-240</sub> values for glo HTPs ranged from 379 to 596 ng × min/mL, compared to 1123.73 and 1283.37 ng × min/mL for UB cigarettes. The C<sub>max</sub> for glo HTPs ranged from 5.46 to 9.00 ng/mL, whereas UB cigarettes had C<sub>max</sub> values of 16.29 to 16.76 ng/mL. The time to reach maximum nicotine concentration (T<sub>max</sub>) was significantly shorter for glo HTPs (4-5 min) compared to UB cigarettes (6-7 min), except for one variant of glo HTP in Standard Mode. Nicotine gum exhibited a slower nicotine absorption profile, with a T<sub>max</sub> of 45 min and C<sub>max</sub> of 4.60 ng/mL. AUC<sub>0-15</sub> and AUC<sub>0-240</sub> values for nicotine gum were 6.18 and 5.22 ng × min/mL, and 647.80 and 687.68 ng × min/mL for non-menthol and menthol groups, respectively. Subjective measures indicated that glo HTPs were rated significantly lower than UB cigarettes in terms of product liking, smoking urge reduction, product effects, and intent to use again, but were comparable to nicotine gum.</p><p><strong>Conclusion: </strong>glo HTPs demonstrated lower AL than combustible cigarettes while delivering sufficient nicotine to support product adoption among current smokers. 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Assessment of Abuse Liability and Nicotine Pharmacokinetics of glo Heated Tobacco Products in a Randomized, Crossover Study.
Background and objective: Heated tobacco products (HTPs) are a class of non-combustible, inhaled tobacco products with the potential to reduce the harm associated with cigarette smoking due to reduced cigarette smoke toxicant exposure. Subjective and nicotine pharmacokinetics measures taken over the course of product use provide a framework for abuse liability (AL) assessment of tobacco and nicotine products as well as information on adoption potential for a new tobacco product, which are important aspects for premarket tobacco product authorization by the US Food and Drug Administration. This study aimed to assess the AL of glo HTPs, operated in either Standard or Boost Modes, compared with high- and low-AL comparators (subjects' usual brand cigarettes and nicotine gum, respectively).
Methods: Nicotine uptake and pharmacodynamics measures (including subjective and physiological measures) were assessed in a clinical study of 75 healthy adult non-menthol or menthol smokers using an open-label, randomized crossover study design. Comparisons were made between glo HTPs (Standard or Boost Modes) and each of usual brand (UB) cigarettes and nicotine gum to evaluate nicotine exposure and subjective effects measures.
Results: Nicotine uptake, as reflected in the area under the curve (AUC) at 15 and 240 min after product use (AUC0-15 and AUC0-240, respectively) and maximum nicotine concentration (Cmax) were significantly lower for all glo HTPs compared to UB cigarettes, regardless of the glo device mode. AUC0-15 values for glo HTPs ranged from 41.26 to 75.71 ng × min/mL, versus 158.04 to 165.53 ng × min/mL for UB cigarettes. Similarly, AUC0-240 values for glo HTPs ranged from 379 to 596 ng × min/mL, compared to 1123.73 and 1283.37 ng × min/mL for UB cigarettes. The Cmax for glo HTPs ranged from 5.46 to 9.00 ng/mL, whereas UB cigarettes had Cmax values of 16.29 to 16.76 ng/mL. The time to reach maximum nicotine concentration (Tmax) was significantly shorter for glo HTPs (4-5 min) compared to UB cigarettes (6-7 min), except for one variant of glo HTP in Standard Mode. Nicotine gum exhibited a slower nicotine absorption profile, with a Tmax of 45 min and Cmax of 4.60 ng/mL. AUC0-15 and AUC0-240 values for nicotine gum were 6.18 and 5.22 ng × min/mL, and 647.80 and 687.68 ng × min/mL for non-menthol and menthol groups, respectively. Subjective measures indicated that glo HTPs were rated significantly lower than UB cigarettes in terms of product liking, smoking urge reduction, product effects, and intent to use again, but were comparable to nicotine gum.
Conclusion: glo HTPs demonstrated lower AL than combustible cigarettes while delivering sufficient nicotine to support product adoption among current smokers. This positions glo HTPs as a potential tool in tobacco harm reduction, offering a less harmful alternative to traditional cigarettes.
期刊介绍:
Hepatology International is a peer-reviewed journal featuring articles written by clinicians, clinical researchers and basic scientists is dedicated to research and patient care issues in hepatology. This journal focuses mainly on new and emerging diagnostic and treatment options, protocols and molecular and cellular basis of disease pathogenesis, new technologies, in liver and biliary sciences.
Hepatology International publishes original research articles related to clinical care and basic research; review articles; consensus guidelines for diagnosis and treatment; invited editorials, and controversies in contemporary issues. The journal does not publish case reports.