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1.
Nicotine Tob Res ; 26(11): 1463-1471, 2024 Oct 22.
Artigo em Inglês | MEDLINE | ID: mdl-38160709

RESUMO

INTRODUCTION: A method for delivering vaporized nicotine to animals has been developed using e-cigarette devices. The present experiment was designed to measure the effects of e-cigarette nicotine on pubertal onset and development of reproductive behavior in female and male Long-Evans rats. AIM AND METHODS: Rats received daily 10-min sessions of electronic-cigarette vaporized nicotine (5% Virginia Tobacco JUUL Pods) or room air in a whole-body exposure chamber (postnatal day 28-31). Pubertal onset was monitored daily (ie, vaginal opening in females, preputial separation in males). Two weeks later, rats were tested for sexual motivation using the partner-preference paradigm, whereby subjects were given the opportunity to approach either a sexual partner or a same-sex social partner. Four weeks later, partner preference was assessed again, 10 min after rats were re-exposed to their same prepubertal treatment. RESULTS: We found that prepubescent electronic-cigarette vaporized nicotine disrupted puberty and sexual motivation in female but not male rats. In vaped females, vaginal opening was delayed and less time was spent with the male stimulus compared to room-air controls. In contrast, no effect of e-cigarette vapor was observed on pubertal onset or on any measures of sexual behavior in male rats. No effects were observed in either female or male rats on the second partner-preference test. CONCLUSIONS: Prepubescent vaporized nicotine affected the development of reproductive physiology and behavior in female rats but not in male rats, whereas an additional acute exposure to nicotine vapor had no effect in either female or male adult rats. IMPLICATIONS: Given the prevalence of increasingly younger users, more animal research is needed to explore the effects of e-cigarette smoking on multiple developmental systems including reproductive physiology and behavior. This model could be useful in exploring multiple behavioral and physiological endpoints in both sexes. Adjustments to the duration of exposure and control conditions will be necessary for future experiments to best model human use.


Assuntos
Sistemas Eletrônicos de Liberação de Nicotina , Motivação , Ratos Long-Evans , Comportamento Sexual Animal , Maturidade Sexual , Animais , Masculino , Feminino , Ratos , Comportamento Sexual Animal/efeitos dos fármacos , Motivação/efeitos dos fármacos , Maturidade Sexual/efeitos dos fármacos , Nicotina/farmacologia , Vaping
2.
Cureus ; 15(10): e46735, 2023 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-38022335

RESUMO

The present study investigated the effects of a single 10-minute exposure to e-cigarette vapor on ventilation in adult male Long-Evans rats. Ventilation was recorded using awake, unrestrained whole-body plethysmography. Baseline recordings were taken the day before full-body exposure to either room air (n = 9; air control group) or e-cigarette vapor (n = 9; treatment group). Post-exposure recordings were taken immediately after the 10-minute room air or vapor exposure. As part of the ventilation protocol, in addition to recording the subject's ventilation in room air, the subjects were also exposed to 10% oxygen (balanced with nitrogen) to assess the effects of e-cigarette vapor on an increased drive to breathe. Ventilation data were analyzed using a 2x2x2 mixed-model ANOVA measuring treatment (vape vs. air) x time (baseline vs. post-treatment) x condition (normoxia vs. hypoxia) for breathing frequency, tidal volume, and minute ventilation. Breathing frequency increased in both treatment groups (air and vape) with exposure to normobaric hypoxia (p < 0.001), with no effect of time (baseline vs. post-treatment) for either group. Tidal volume increased in both treatment groups (air and vape) with exposure to normobaric hypoxia (p < 0.001), and an effect of time (baseline vs. post-treatment) was observed (p = 0.010) for the vape group. Minute ventilation increased in both treatment groups (air and vape) with exposure to normobaric hypoxia (p < 0.001), and an effect of time (baseline vs. post-treatment) was observed (p < 0.001) for the vape group. In conclusion, immediately following a single 10-minute e-cigarette vapor exposure, both tidal volume and minute ventilation were reduced during normoxia and normobaric hypoxia, indicating a decrease in ventilation after a single 10-minute e-cigarette vapor exposure. Furthermore, this exposure also blunted the physiological response to acute hypoxia exposure. Subjects in the vape group, while breathing more rapidly as expected, experienced shallower breathing than the air group during hypoxia. The findings in this study confirm that vaping could result in reduced lung function.

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