Developing and Validating a Human Laboratory Model to Screen Medications for Smoking Cessation

Overview

Journal Nicotine Tob Res

Publisher Oxford University Press

Specialty Public Health

Date 2012 Apr 12

PMID 22492085

Citations 55

Authors

Sherry A McKee

Andrea H Weinberger

Julia Shi

Jeanette Tetrault

Sabrina Coppola

Affiliations

Soon will be listed here.

Abstract

Introduction: To facilitate translational work in medications development for smoking cessation, we have developed a human laboratory analogue of smoking lapse behavior. Our paradigm models 2 critical features of smoking lapse: the ability to resist the first cigarette and subsequent ad libitum smoking. In this paper we present the results of 2 studies designed to develop and validate the effect of nicotine deprivation on smoking lapse behavior.

Methods: Study 1 (n = 30) was designed to develop the model parameters by examining varying levels of nicotine deprivation (1, 6, and 18 hr; within-subject) and identifying optimum levels of monetary reinforcement to provide while modeling the ability to resist smoking. Study 2 was designed to validate the model by screening smoking cessation medications with known clinical efficacy. Subjects (n = 62) were randomized to either varenicline 2 mg/day, bupropion 300 mg/day, or placebo, and we then modeled their ability to resist smoking and subsequent ad libitum smoking.

Results: In Study 1, increasing levels of nicotine deprivation and decreasing levels of monetary reinforcement decreased the ability to resist smoking. In Study 2, the lapse model was found to be sensitive to medication effects among smokers who demonstrated a pattern of heavy, uninterrupted, and automated smoking (i.e., smoked within 5 min of waking). Ratings of craving, mood, withdrawal, and subjective cigarette effects are presented as secondary outcomes with results mirroring clinical findings.

Conclusions: Our smoking lapse model demonstrates promise as a translational tool to screen novel smoking cessation medications. Next steps in this line of research will focus on evaluating predictive validity.

Citing Articles

Effects of Ovarian Hormone Levels on Stress, Cigarette Craving, and Smoking in a Laboratory Relapse Paradigm Among Females Who Smoke Daily.

Schick M, Baker N, Hood C, Tomko R, Gray K, Ramakrishnan V Nicotine Tob Res. 2023; 26(3):392-396.

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Modeling ability to resist alcohol in the human laboratory: A pilot study.

Sloan M, Sells J, Vaughan C, Morris J, Ortega N, Sundar S Drug Alcohol Depend Rep. 2023; 5:100105.

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Associations between right inferior frontal gyrus morphometry and inhibitory control in individuals with nicotine dependence.

Brown A, Upton S, Craig S, Froeliger B Drug Alcohol Depend. 2023; 244:109766.

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A novel human laboratory alcohol self-administration paradigm for medication screening: Modeling the ability to resist drinking and heavy drinking.

McKee S, Verplaetse T Drug Alcohol Depend Rep. 2022; 4.

PMID: 36120181 PMC: 9481061. DOI: 10.1016/j.dadr.2022.100085.

Effects of varenicline and bupropion on laboratory smoking outcomes: Meta-analysis of randomized, placebo-controlled human laboratory studies.

Zaso M, Hendershot C Addict Biol. 2022; 27(5):e13218.

PMID: 36001439 PMC: 9413474. DOI: 10.1111/adb.13218.

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