Alfayo K Maiyo, Joshua K Kibet, Fredrick O Kengara
{"title":"A review of the characteristic properties of selected tobacco chemicals and their associated etiological risks.","authors":"Alfayo K Maiyo, Joshua K Kibet, Fredrick O Kengara","doi":"10.1515/reveh-2022-0013","DOIUrl":null,"url":null,"abstract":"<p><strong>Objectives: </strong>Despite the quantum of research findings on tobacco epidemic, a review on the formation characteristics of nicotine, aldehydes and phenols, and their associated etiological risks is still limited in literature. Accordingly, knowledge on the chemical properties and free radical formation during tobacco burning is an important subject towards unravelling the relationship between smoking behaviour and disease. This review investigates how scientific efforts have been advanced towards understanding the release of molecular products from the thermal degradation of tobacco, and harm reduction strategies among cigarette smokers in general. The mechanistic characteristics of nicotine and selected aldehydes are critically examined in this review. For the purpose of this work, articles published during the period 2004-2021 and archived in PubMed, Google Scholar, Medley, Cochrane, and Web of Science were used. The articles were selected based on the health impacts of cigarette smoking, tobacco burning kinetics, tobacco cessation and tobacco as a precursor for emerging diseases such as Covid-19.</p><p><strong>Content: </strong>The toxicity of cigarette smoke is directly correlated with its chemical composition derived from the pyrolysis of tobacco stem and leaves. Most of the harmful toxic substances are generated by pyrolysis during smoking and depends on pyrolysis conditions. Detailed studies have been conducted on the kinetics of nicotine by use of robust theoretical models in order to determine the rate constants of reactions in nicotine and those of nicotine dissociation via C-C and C-N scission, yielding pyridinyl and methyl radicals, respectively. Research has suggested that acetaldehyde enhances the effect of nicotine, which in turn reinforces addiction characteristics whereas acrolein and crotonaldehyde are ciliatoxic, and can inhibit lung clearance. On the other hand, phenol affects liver enzymes, lungs, kidneys, and the cardiovascular system while <i>m</i>-cresol attacks the nervous system.</p><p><strong>Summary and outlook: </strong>The characteristics of chemical release during tobacco burning are very important in the tobacco industry and the cigarette smoking community. Understanding individual chemical formation from cigarette smoking will provide the necessary information needed to formulate sound tobacco reform policies from a chemical standpoint. Nonetheless, intense research is needed in this field in order to prescribe possible measures to deter cigarette smoking addiction and ameliorate the grave miseries bedevilling the tobacco smoking community.</p>","PeriodicalId":21165,"journal":{"name":"Reviews on Environmental Health","volume":"38 3","pages":"479-491"},"PeriodicalIF":3.0000,"publicationDate":"2022-05-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"3","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Reviews on Environmental Health","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.1515/reveh-2022-0013","RegionNum":4,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"2023/9/26 0:00:00","PubModel":"Print","JCR":"Q2","JCRName":"ENVIRONMENTAL SCIENCES","Score":null,"Total":0}
引用次数: 3
Abstract
Objectives: Despite the quantum of research findings on tobacco epidemic, a review on the formation characteristics of nicotine, aldehydes and phenols, and their associated etiological risks is still limited in literature. Accordingly, knowledge on the chemical properties and free radical formation during tobacco burning is an important subject towards unravelling the relationship between smoking behaviour and disease. This review investigates how scientific efforts have been advanced towards understanding the release of molecular products from the thermal degradation of tobacco, and harm reduction strategies among cigarette smokers in general. The mechanistic characteristics of nicotine and selected aldehydes are critically examined in this review. For the purpose of this work, articles published during the period 2004-2021 and archived in PubMed, Google Scholar, Medley, Cochrane, and Web of Science were used. The articles were selected based on the health impacts of cigarette smoking, tobacco burning kinetics, tobacco cessation and tobacco as a precursor for emerging diseases such as Covid-19.
Content: The toxicity of cigarette smoke is directly correlated with its chemical composition derived from the pyrolysis of tobacco stem and leaves. Most of the harmful toxic substances are generated by pyrolysis during smoking and depends on pyrolysis conditions. Detailed studies have been conducted on the kinetics of nicotine by use of robust theoretical models in order to determine the rate constants of reactions in nicotine and those of nicotine dissociation via C-C and C-N scission, yielding pyridinyl and methyl radicals, respectively. Research has suggested that acetaldehyde enhances the effect of nicotine, which in turn reinforces addiction characteristics whereas acrolein and crotonaldehyde are ciliatoxic, and can inhibit lung clearance. On the other hand, phenol affects liver enzymes, lungs, kidneys, and the cardiovascular system while m-cresol attacks the nervous system.
Summary and outlook: The characteristics of chemical release during tobacco burning are very important in the tobacco industry and the cigarette smoking community. Understanding individual chemical formation from cigarette smoking will provide the necessary information needed to formulate sound tobacco reform policies from a chemical standpoint. Nonetheless, intense research is needed in this field in order to prescribe possible measures to deter cigarette smoking addiction and ameliorate the grave miseries bedevilling the tobacco smoking community.
目的:尽管对烟草流行的研究结果很多,但对尼古丁、醛类和酚类的形成特征及其相关病因风险的综述在文献中仍然有限。因此,了解烟草燃烧过程中的化学性质和自由基形成是揭示吸烟行为与疾病之间关系的重要课题。这篇综述调查了如何在科学上努力理解烟草热降解过程中分子产物的释放,以及吸烟者的减少危害策略。本文对尼古丁和所选醛类的机理特征进行了批判性的研究。为了这项工作的目的,使用了2004-2021年期间发表的文章,并在PubMed、Google Scholar、Medley、Cochrane和Web of Science上存档。这些文章是根据吸烟对健康的影响、烟草燃烧动力学、戒烟以及烟草作为新出现疾病(如Covid-19)的前体而选择的。内容:香烟烟雾的毒性与其来自烟草茎和叶热解的化学成分直接相关。大多数有害有毒物质是在吸烟过程中通过热解产生的,这取决于热解条件。利用稳健的理论模型对尼古丁的动力学进行了详细的研究,以确定尼古丁中反应的速率常数以及通过C-C和C-N断裂分别产生吡啶基和甲基的尼古丁离解的速率常数。研究表明,乙醛可以增强尼古丁的作用,进而增强成瘾特征,而丙烯醛和巴豆醛具有纤毛毒性,可以抑制肺部清除。另一方面,苯酚会影响肝酶、肺、肾脏和心血管系统,而间甲酚会攻击神经系统。总结与展望:烟草燃烧过程中化学物质释放的特征在烟草行业和吸烟界非常重要。了解吸烟产生的个体化学物质将为从化学角度制定健全的烟草改革政策提供必要的信息。尽管如此,仍需要在这一领域进行深入研究,以制定可能的措施来遏制吸烟成瘾,并减轻困扰吸烟社区的严重痛苦。
期刊介绍:
Reviews on Environmental Health (REVEH) is an international peer-reviewed journal that aims to fill the need for publication of review articles on hot topics in the field of environmental health. Reviews on Environmental Health aims to be an inspiring forum for scientists, environmentalists, physicians, engineers, and students who are concerned with aspects of human health, including quality of life, that are determined by physiological and psychosociological interactions between man and physical, chemical, biological, and social factors in the environment.
Reviews on Environmental Health is an important niche served by no other journal, that’s being a site where thoughtful reviews can be published on a variety of subjects related to both health and environment. One challenge is to bridge the research on environmental causes of disease with the clinical practice of medicine. Reviews on Environmental Health is a source of integrated information on environment and health subjects that will be of value to the broad scientific community, whether students, junior and senior professionals, or clinicians.
京公网安备 11010802042870号
京ICP备2023020795号-1
分享
求助内容:
应助结果提醒方式:
扫码关注我们
