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Nicotine Emissions, Toxicity, and Behavior by Electronic Cigarettes

电子烟的尼古丁排放、毒性和行为

基本信息

批准号：
8660684
负责人：
Risa Jean Robinson
金额：
$ 20.19万
依托单位：
ROCHESTER INSTITUTE OF TECHNOLOGY
依托单位国家：
美国
项目类别：
财政年份：
2013
资助国家：
美国
起止时间：
2013-08-01 至 2016-07-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8660684
关键词：
Address Aerosols Affect Area Behavior Breathing Cardiovascular Diseases Chronic Cigarette Communication DNA Damage Data Dependence Development Disease Dose Drug Formulations Electronics Evaluation Exposure to Family Family Smoking Prevention and Tobacco Control Act Federal Government Future Health Health Benefit Impaired cognition Inflammatory Inflammatory Response Knowledge Label Liquid substance Lung Lung diseases Malignant Neoplasms Marketing Methods Mus Names Nicotine Outcome Oxidative Stress Perception Policies Prevention Property Public Health Regulation Relative (related person)Research Risk Science Smoke Smokeless Smoking System Tea Testing Tobacco Toxic effect United States National Institutes of Health Use Effectiveness Work addiction authority base biological adaptation to stress cigarette smoking comparative consumer behavior design dosage in vivo mouse model multidisciplinary nicotine replacement oxidative damage public health relevance response tobacco advertising tobacco control

项目摘要

DESCRIPTION (provided by applicant): With the passage of the Family Prevention and Tobacco Control Act of 2009, the Federal Government has gained regulatory authority over the formulation and marketing of tobacco based products. Although a great deal of science is available to inform the FDA on the development and evaluation of conventional tobacco products, little science is available on electronic cigarettes. Appropriate regulatory policy for ENDS is currently hindered by the lack of data describing realistic use of these products and the resulting health impacts, including toxicity and abuse liability. Herein, our multidisciplinary tea proposes to establish comparative nicotine emissions and dosages between e-cigarettes and cigarettes, and to evaluate whether or not these doses result in toxicological responses in vivo in mice. In the proposed study, we test the hypothesis that electronic cigarette users are exposed to lower amounts of nicotine compared to conventional cigarettes, but that these exposure levels will induce toxic oxidative and inflammatory responses in vivo, and addiction comparable to that seen from smoking. Our specific aims are to (1) Determine how the constituents, components and design features of electronic cigarettes vary among different manufactures and how emissions are affected by consumer use behaviors, and (2) determine if e-cigarettes have toxic oxidative damage and pro inflammatory effects in vivo in mouse models similar to conventional cigarette smoke, and dependence potential and addictive properties of electronic cigarettes in mice after chronic e-cigarette exposures. Results of this study will impac consumer's decisions regarding the use and effectiveness of electronic cigarettes for nicotine replacement therapy. Currently, such consumer perceptions are being formed the without the benefit of independent scientific data. Furthermore, this study has broader implications on the nicotine-related disease mechanisms of smoking induced respiratory and cardiovascular diseases, and cancer. Overall, this proposal will determine the potential toxicity and health implications of harmful constituents present in electronic cigarettes, determine the toxicity of exposure, understand the dependence potential, and addictiveness of electronic cigarettes. This project will serve the FDA by generating relevant findings and data needed to inform the regulation of the manufacture, distribution, and marketing of electronic cigarettes, and ultimately provide the scientific data needed to determine if electronic cigarette use has a negative or positive impact on public health.

描述（由申请人提供）：随着2009年《家庭预防和烟草控制法》的通过，联邦政府获得了对烟草产品的配制和营销的监管权。虽然有大量的科学资料可以向FDA提供关于传统烟草产品的开发和评估的信息，但关于电子烟的科学资料却很少。由于缺乏描述这些产品的实际使用及其对健康的影响（包括毒性和滥用责任）的数据，目前阻碍了对ENDS的适当监管政策。在此，我们的多学科茶建议建立电子烟和香烟之间的尼古丁排放量和剂量的比较，并评估这些剂量是否会导致小鼠体内的毒理学反应。在拟议的研究中，我们测试了一个假设，即与传统香烟相比，电子烟使用者暴露于较低量的尼古丁，但这些暴露水平将在体内诱导毒性氧化和炎症反应，以及与吸烟类似的成瘾。我们的具体目标是：（1）确定电子烟的成分、组成和设计特征在不同制造商之间的差异，以及消费者使用行为对电子烟排放的影响;（2）确定电子烟在小鼠模型中是否具有与传统香烟烟雾相似的毒性氧化损伤和促炎作用。以及慢性电子烟暴露后小鼠对电子烟的依赖潜力和成瘾特性。这项研究的结果将影响消费者关于电子烟用于尼古丁替代疗法的使用和有效性的决定。目前，这种消费者认知的形成是在没有独立科学数据的情况下进行的。此外，这项研究对吸烟引起的呼吸道和心血管疾病以及癌症的尼古丁相关疾病机制具有更广泛的意义。总的来说，该提案将确定电子烟中有害成分的潜在毒性和健康影响，确定暴露的毒性，了解电子烟的依赖潜力和成瘾性。该项目将为FDA提供相关的调查结果和数据，为电子烟的制造、分销和营销提供监管信息，提供所需的科学数据，以确定电子烟的使用是否对公众健康产生负面或积极的影响。