Smoking and anaesthesia
2018; Elsevier BV; Volume: 19; Issue: 1 Linguagem: Inglês
10.1016/j.bjae.2018.09.005
ISSN2058-5357
AutoresMike Carrick, John M. Robson, C. Thomas,
Tópico(s)Nutritional Studies and Diet
ResumoKey points•Smoking increases the risk of perioperative morbidity and mortality in a dose-dependent manner.•The Royal College of Anaesthetists advises that people who smoke should quit several weeks before surgery and should especially be encouraged not to smoke on the day of an operation.•There are more than 4500 chemicals in cigarette smoke, and the majority of these have detrimental effects on human body systems.•The preoperative assessment clinic provides an opportunity to discuss and encourage smoking cessation.•Electronic cigarettes are used by 2.3 million adults in the UK, but the long-term harm caused is unknown.Learning objectivesBy reading this article, you should be able to:•Discuss the physiological effects of smoking.•Discuss the effects of smoking on perioperative morbidity and mortality.•Explain the rationale behind the timing of smoking cessation and how cessation may be achieved. •Smoking increases the risk of perioperative morbidity and mortality in a dose-dependent manner.•The Royal College of Anaesthetists advises that people who smoke should quit several weeks before surgery and should especially be encouraged not to smoke on the day of an operation.•There are more than 4500 chemicals in cigarette smoke, and the majority of these have detrimental effects on human body systems.•The preoperative assessment clinic provides an opportunity to discuss and encourage smoking cessation.•Electronic cigarettes are used by 2.3 million adults in the UK, but the long-term harm caused is unknown. By reading this article, you should be able to:•Discuss the physiological effects of smoking.•Discuss the effects of smoking on perioperative morbidity and mortality.•Explain the rationale behind the timing of smoking cessation and how cessation may be achieved. 'Smoking' in this article describes the cigarette smoking of tobacco. The WHO has described tobacco as, 'the only legal drug that kills many of its users when used exactly as intended by manufacturers'.1World Health Organisation WHO global report of trends in prevalence of tobacco smoking. WHO Press, Geneva2015Google Scholar Smoking is the primary cause of preventable illness and premature death in the UK, accounting for almost 100,000 deaths per year and 6 million deaths per year worldwide. Although the prevalence of smoking in many countries is decreasing, in some areas of Africa and the Eastern Mediterranean it is rapidly increasing. By 2025, it is projected that across the world, there will be 1.1 billion people who smoke.2Bilano V. Gilmour S. Moffiet T. Global trends and projections for tobacco use, 1990–2025: an analysis of smoking indicators from the WHO comprehensive information systems for tobacco control.Lancet. 2015; 385: 966-976Abstract Full Text Full Text PDF PubMed Scopus (290) Google Scholar In 2013, the World Health Assembly, under a United Nations mandate, set a global voluntary tobacco target to help reduce and prevent premature and avoidable mortality from smoking. The agreed target is a 30% relative reduction in the prevalence of tobacco use.1World Health Organisation WHO global report of trends in prevalence of tobacco smoking. WHO Press, Geneva2015Google Scholar Smoking carries a considerable burden of comorbidity and is estimated to cost the NHS around £2 billion each year. The NHS Five-Year Forward View states that 'the sustainability of the NHS relies on a radical upgrade in disease prevention and public health'.3NHS England NHS Five-year forward view. London.2014Google Scholar This includes a reduction in smoking-related ill health. The joint briefing produced by Action on Smoking and Health (ASH), the Royal College of Anaesthetists (RCoA), the Royal College of Surgeons of Edinburgh, and the Faculty of Public Health provides advice and examples of good practice in relation to smoking and surgery.4Action on smoking and health. the Royal College of Anaesthetists, the Royal College of Surgeons of Edinburgh and the Faculty of Public Health. Joint briefing: Smoking and surgery, London2016https://www.rcoa.ac.uk/sites/default/files/Joint-briefing-Smoking-Surgery.pdfDate accessed: October 11, 2018Google Scholar Quitting smoking before surgery leads to a reduced incidence of postoperative complications. The longer the period of cessation before surgery, the greater the benefit. The RCoA advises that people who smoke should quit smoking for at least several weeks before surgery and may benefit from abstaining on the day of surgery.4Action on smoking and health. the Royal College of Anaesthetists, the Royal College of Surgeons of Edinburgh and the Faculty of Public Health. Joint briefing: Smoking and surgery, London2016https://www.rcoa.ac.uk/sites/default/files/Joint-briefing-Smoking-Surgery.pdfDate accessed: October 11, 2018Google Scholar Documented instances of tobacco smoking date from around 5000 BC when it was used by the Mayans during religious rituals. Smoking spread to Western civilisations in the 16th century after the colonisation of South America. It became more widespread during the First World War and reached peak prevalence in the UK after the Second World War.5Lumb A.B. Smoking and air pollution.in: Lumb A.B. Nunn's applied respiratory physiology. 8th ed. Elsevier, London2017: 281-290Google Scholar By 1949, 81% of men and 39% of women smoked regularly. Doll and Hill's6Doll R. Hill A.B. Smoking and carcinoma of lung.Br Med J. 1950; 2: 739-748Crossref PubMed Scopus (1271) Google Scholar reports in the 1950s of the adverse effects of smoking marked the beginning of a decline in its popularity. Earlier sceptics existed, however, including James I of England who in 1604 wrote in his 'Counterblaste to Tobacco' that 'Smoking is a custom loathsome to the eye, hateful to the nose, harmful to the brain…and…dangerous to the lungs'.5Lumb A.B. Smoking and air pollution.in: Lumb A.B. Nunn's applied respiratory physiology. 8th ed. Elsevier, London2017: 281-290Google Scholar Tobacco is prepared from the leaves of the tobacco plant through a curing process. The tobacco plant is part of the genus Nicotiana. More than 70 species of tobacco are known but the main commercial crop is N. tabacum. A more potent variant, N. rustica, may also be used.7Fewster H. The royal horticultural society encyclopaedia of gardening.4th ed. Dorling Kindersley, London2008Google Scholar Components of a cigarette typically include tobacco rolled inside cigarette paper with a filter covered in a tipping paper through which to inhale. Cigarette smoke is a concentrated aerosol of liquid particles suspended in an atmosphere consisting mainly of nitrogen, oxygen, carbon monoxide, and carbon dioxide; it comprises a gaseous phase and a particulate phase. The particulate phase is defined as that which is eliminated on passing through a filter of pore size 0.1 μm. This is the Cambridge filter. This is a different entity to the filter tip of a cigarette described above which allows the passage of particles of much greater diameter.5Lumb A.B. Smoking and air pollution.in: Lumb A.B. Nunn's applied respiratory physiology. 8th ed. Elsevier, London2017: 281-290Google Scholar More than 4500 chemicals are present in cigarette smoke, and many of these have adverse effects on human body systems. The main component of the gaseous phase is carbon monoxide and of the particulate phase, nicotine. Carbon monoxide is the main component of the gaseous phase of cigarette smoke and its presence adversely affects oxygen delivery to the tissues. The inhalation of carbon monoxide leads to increased formation of carboxyhaemoglobin, COHb. In people who smoke, the percentage of COHb in arterial blood is 2–12%, compared with <1.5% in non-smokers. A greater percentage of COHb significantly reduces the capacity of haemoglobin to bind and carry oxygen. Carbon monoxide has around a 300-fold greater affinity for haemoglobin than the affinity of oxygen for haemoglobin, and therefore the formation of COHb is favoured over the formation of oxyhaemoglobin.8Thomas C. Lumb A.B. Physiology of haemoglobin.Cont Ed Anaesth Crit Care Pain. 2012; 12: 251-256Abstract Full Text Full Text PDF Scopus (45) Google Scholar Because of its much greater affinity for haemoglobin, the COHb dissociation curve is shifted to the left of the oxyhaemoglobin dissociation curve (Fig. 1). P50 is the partial pressure of oxygen (PO2) at which the haemoglobin saturation is 50% under standard conditions; the P50 of the COHb dissociation curve is greatly reduced in comparison with the P50 of the oxyhaemoglobin dissociation curve, which adversely affects oxygen delivery. The dissolved oxygen content is unchanged, but this represents a small contribution only to blood oxygen content. In addition, COHb adversely affects oxygen delivery to the tissues through its effect on the oxyhaemoglobin dissociation curve. The presence of COHb causes a left shift (i.e. a reduction in P50) of the oxyhaemoglobin dissociation curve partly because of a reduction in 2,3-di-phosphoglycerate (2,3-DPG) levels. This reduces the ability to unload oxygen in the tissues. For these reasons, hypoxaemia occurs when one breathes air in the presence of supranormal levels of COHb, and a patient who smokes has reduced physiological reserve to maintain their PO2 at times of physiological stress. Although many arterial blood gas analysers provide a percentage for COHb, most oxygen saturation measurement devices are unable to distinguish oxyhaemoglobin from COHb and give an erroneously high value for oxygen saturation in the presence of significant levels of COHb. Nicotine is the main component of the particulate phase of cigarette smoke. Tobacco leaves contain many different alkaloids, of which nicotine is the most prevalent. Nicotine content varies depending on where the nicotine leaf is attached to the tobacco plant and the blend used by different tobacco companies. Nicotine is addictive in humans; the chemical structure of nicotine is similar to that of acetylcholine and so plays a role in cerebral neurotransmission. A typical cigarette contains around 2 mg nicotine. This is readily absorbed across the alveolar membrane. Nicotine crosses the blood–brain barrier and enters the cerebral circulation within 20 s. It stimulates nicotinic acetylcholine receptors and through a variety of second messengers, stimulates the secretion of neurotransmitters such as noradrenaline, adrenaline, vasopressin, serotonin, dopamine, and β-endorphin. Nicotine increases cardiac output and the risk of tachydysrhythmias. At increasing doses the stimulant effects of nicotine diminish; high doses have a sedative and depressant effect. Nicotine has a half-life of 30 min and is metabolised by the cytochrome P450 enzyme system (mainly via CYP2A6 and CYP2B6) to a number of different metabolites, including cotinine, an active metabolite, which remains in the bloodstream for up to 20 h.6Doll R. Hill A.B. Smoking and carcinoma of lung.Br Med J. 1950; 2: 739-748Crossref PubMed Scopus (1271) Google Scholar, 9Sweeney B.P. Grayling M. Smoking and anaesthesia: the pharmacological implications.Anaesthesia. 2009; 64: 179-186Crossref PubMed Scopus (22) Google Scholar The classes of other chemical constituents of tobacco smoke and their effects are shown in Table 1.Table 1Classification of chemical constituents of cigarette smokeChemical groupExamplesCommon biological effectsPolycyclic hydrocarbonsNaphthalene, fluorene, phenanthreneRespiratory tract inflammation and liver dysfunctionNitrosaminesNicotine-derived nitrosamine ketone (NNK)A procarcinogen and immunosuppressant via tumour necrosis factor-α and interleukin modulationAza-arenesQuinoleneHepatic carcinogen demonstrated in animal studiesAromatic aminesToluidine, anisidineBladder carcinogenAmmoniaCorrosive to mucous membranes at high levels; respiratory tract inflammationPyridineHeadache; dizziness; amnesia; irritant to eyes, nose, throat, and skinOther gasesButadiene, acrolein, isoprene, benzeneCarcinogens Open table in a new tab The nicotine-free remainder of the particulate phase of cigarette smoke is known as 'tar'. The chemical components in tar and their toxicity vary widely across tobacco from different sources. Measurement of tar is therefore a crude measure of the relative toxic potential of tobacco combustion products. Tar yields of cigarette brands are measured using a standardised method involving a smoking machine. On the basis of these results, cigarette brands have been classified as high, medium, or low yield cigarettes. However, a criticism is that the smoking machine does not accurately simulate human smoking and also that smokers have ways of increasing their intake, for example by blocking ventilation holes and taking deeper or more frequent puffs.10Wright C. Standardized methods for the regulation of cigarette-smoke constituents.Trends Anal Chem. 2015; 66: 118-127Google Scholar Smoking is the largest preventable cause of cardiovascular morbidity and mortality. The effects are well documented and widely appreciated by anaesthetists. Smoking is associated with a three-to four-fold increase in coronary heart disease. The sympathomimetic effects of nicotine and the reduction in oxyhaemoglobin caused by carbon monoxide adversely affect oxygen supply and demand to the myocardium. An increased incidence of cardiac dysrhythmias with arterial blood COHb values as low as 4–5% has been described. Smoking causes adverse effects on an individual's lipid profile, endothelial injury, and the development of atherosclerotic plaques. Smoking is an independent risk factor in the development of peripheral vascular disease, thromboembolic disease, and stroke. A strong positive dose-dependent correlation exists between smoking and subarachnoid haemorrhage, and the association appears to be greater amongst women than amongst men. The risk reduces in a dose-dependent manner with smoking cessation.1World Health Organisation WHO global report of trends in prevalence of tobacco smoking. WHO Press, Geneva2015Google Scholar Smoking is the cause of 90% of lung cancers. Around 20% of smokers develop chronic obstructive pulmonary disease. This is characterised by a small airway obstruction and a reduction in forced expiratory volume in 1 s (FEV1), and may be associated with emphysematous and bullous changes to lung tissue.12Fletcher C. Peto R. The natural history of chronic airflow obstruction.Br Med J. 1977; 1: 1645-1648Crossref PubMed Scopus (1823) Google Scholar Smoking causes an acute reduction in airway diameter as a bronchoconstrictive reflex to inhaled particles. Premature small airway closure occurring during expiration results in an increase in closing volume and altered ventilation/perfusion relationships. Smoking is associated with hypersensitive airway reflexes. An increased incidence of adverse events perioperatively—for example cough, breath holding, and laryngospasm—is seen. Mucus production and viscosity are increased, whereas mucus clearance is impaired through damage to ciliary structure and function.13Grønkjær M. Eliasen M. Skov-Ettrup L.S. et al.Preoperative smoking status and postoperative complications: a systematic review and meta-analysis.Ann Surg. 2014; 259: 52-71Crossref PubMed Scopus (214) Google Scholar This promotes sputum retention and increases the risk of developing pneumonia and respiratory failure. Smoking causes relaxation of the lower gastro-oesophageal sphincter and an increased incidence of gastro-oesophageal reflux disease and peptic ulcer disease. There appears to be a reduced rate of postoperative nausea and vomiting amongst smokers possibly because of increased metabolism of volatile agents by CYP2E1.9Sweeney B.P. Grayling M. Smoking and anaesthesia: the pharmacological implications.Anaesthesia. 2009; 64: 179-186Crossref PubMed Scopus (22) Google Scholar Smoking is associated with an increased incidence of Crohn's disease and a reduced incidence of ulcerative colitis.11Lakier J. Smoking and cardiovascular disease.Am J Med. 1992; 93: S8-S12Abstract Full Text PDF PubMed Scopus (244) Google Scholar Cigarette smoking inhibits immune function, and this results in poorer wound healing and increased wound infection rates. Patients who smoke have abnormal bone metabolism, and fracture healing may be delayed. The effects of smoking are not limited to smokers themselves. The WHO defines passive smoking as 'exposure to second-hand tobacco smoke, which is a mixture of exhaled mainstream smoke and side stream smoke released from a smouldering cigarette and diluted with ambient air'. Involuntary smoking involves inhaling carcinogens and other toxic components that are present in second-hand tobacco smoke.14World Health Organisation Protection from exposure to second-hand tobacco smoke. WHO Press, Geneva2007Google Scholar Nicotine and polycyclic aromatic hydrocarbons induce the cytochrome p450 system, particularly CYP1A1, CYP1A2, and CYP2E1. The metabolism of many drugs is altered including that of theophylline, caffeine, haloperidol, propranolol, and volatile agents. Greater postoperative opioid requirements are described consistently amongst patients who smoke although the mechanism for this is poorly understood. It is not simply because of the increased metabolism of substrates, and additional factors (e.g. altered pain thresholds and receptor-mediated effects) are likely to have a role.9Sweeney B.P. Grayling M. Smoking and anaesthesia: the pharmacological implications.Anaesthesia. 2009; 64: 179-186Crossref PubMed Scopus (22) Google Scholar Chronic nicotine use may have an effect on the number and sensitivity of nicotinic acetylcholine receptors at the postsynaptic membrane. A number of small studies investigating the potentially altered pharmacodynamic effects of neuromuscular blocking agents have shown inconsistent results, and there is currently no clear evidence that patients who smoke require altered dosing of these drugs.9Sweeney B.P. Grayling M. Smoking and anaesthesia: the pharmacological implications.Anaesthesia. 2009; 64: 179-186Crossref PubMed Scopus (22) Google Scholar A study of a little more than 26,000 patients of whom 26% were patients who smoke found an increased incidence of all specific respiratory adverse events in the group who smoked.15Schwilk B. Bothner U. Schraag S. Georgieff M. Perioperative respiratory events in smokers and nonsmokers undergoing general anaesthesia.Acta Anaesthesiol Scand. 1997; 41: 348-355Crossref PubMed Scopus (83) Google Scholar The respiratory events investigated included reintubation after planned extubation, laryngospasm, bronchospasm, aspiration, hypoventilation and hypoxaemia, and pulmonary oedema. Those at the greatest risk of the adverse events were younger patients who smoke (aged 16–39 yr) and those who were obese. The relative risk of developing one of the above complications was 1.8 across all smokers, 2.3 in the younger population, and 6.3 in young, obese patients who smoke. The relative risk of perioperative bronchospasm was found to be 25.7 in younger patients who smoked and who also had chronic bronchitis. Recent meta-analyses have demonstrated that people who smoke have increased postoperative mortality and an increased rate of all cardiac, pulmonary, and septic complications (see Table 2 for details). In addition, there is a clear dose–response relationship between amount smoked and morbidity—that is morbidity is increased in smokers in a dose-dependent manner.16Turan A. Mascha E.J. Roberman D. et al.Smoking and perioperative outcomes.Anaesthesiol. 2011; 114: 837-846Crossref PubMed Scopus (217) Google Scholar Current smokers (defined as those having smoked in the preceding year compared with never-smokers) are 1.38 times more likely to die within 30 days (95% confidence interval, 1.11–1.72). The findings regarding morbidity are consistent with previous studies on patients undergoing cardiac, vascular, thoracic, general, urology, orthopaedic, and plastic reconstructive surgery. In general surgery, smoking is an independent risk factor for anastomotic breakdown. Preoperative smoking has also been shown to be associated with an increased risk of admission to the ICU, emergency readmission to hospital, and longer inpatient postoperative stays.13Grønkjær M. Eliasen M. Skov-Ettrup L.S. et al.Preoperative smoking status and postoperative complications: a systematic review and meta-analysis.Ann Surg. 2014; 259: 52-71Crossref PubMed Scopus (214) Google Scholar By quantifying the increased likelihood of 30-day mortality and highlighting the broad range of serious possible smoking-related complications, the clinician's ability to motivate smoking cessation in patients scheduled for elective surgery may be improved.Table 2Adverse effects of smoking on postoperative 30-day morbidityMorbidityOdds ratio (95% confidence interval)Pneumonia2.09 (1.80–2.43)Unplanned intubation1.87 (1.58–2.21)Mechanical ventilation1.53 (1.31–1.79)Cardiac arrest1.57 (1.10–2.25)Myocardial infarction1.80 (1.11–2.92)Stroke1.73 (1.18–2.53)Superficial wound infection1.30 (1.20–1.42)Deep wound infection1.42 (1.21–1.68)Organ space infection1.38 (1.20–1.60)Septic shock1.55 (1.29–1.87) Open table in a new tab Stopping smoking before surgery reduces the risk of postoperative complications. Evidence varies as to the optimum time to quit. Studies of patients undergoing cardiac surgery in the 1980s suggested that quitting within 8 weeks of surgery led to increased pulmonary complications. However, a more recent meta-analysis found no increase in complications amongst smokers who quit within 2 months of surgery.17Mills E. Eyawo O. Lockhart L. et al.Smoking cessation reduces postoperative complications: a systematic review and meta-analysis.Am J Med. 2011; 124: 144-154Abstract Full Text Full Text PDF PubMed Scopus (339) Google Scholar Trials of at least 4 weeks smoking cessation had a significantly larger treatment effect in terms of the perioperative morbidity and mortality than shorter trials—that is, the longer the period of cessation before surgery, the better. It is likely that even a brief period of smoking cessation may confer some benefit, given the acute effects of nicotine and carbon monoxide on the cardiovascular system. As the half-life of carbon monoxide is 4 h when breathing air and the half-life of nicotine is 30 min, even a relatively short period of abstinence from smoking helps to avoid some of the adverse effects. It is not clear whether smoking cessation within a few hours or days reduces perioperative complications, but there is no clear evidence of harm either, and smoking cessation should be encouraged at any time. After quitting, the symptoms of cough and wheeze decrease within weeks. Mucociliary clearance starts to improve after a week but lung inflammation takes much longer to subside. Goblet cell hyperplasia regresses and alveolar macrophages decrease, but alveolar destruction, smooth muscle hyperplasia, and fibrosis may be permanent.18Willemse B.W. Postma D.S. Timens W. et al.The impact of smoking cessation on respiratory symptoms, lung function, airway hyperresponsiveness and inflammation.Eur Respir J. 2004; 23: 464-476Crossref PubMed Scopus (314) Google Scholar Smoking cessation decreases all-cause mortality in patients with coronary artery disease by approximately one third. It is estimated that it takes several months for this risk to decrease after the patient has quit smoking. The risk of coronary heart disease and cerebrovascular disease approaches the risk of never-smokers within 10–15 yr.19Godtfredsen N.S. Prescott E. Benefits of smoking cessation with focus on cardiovascular and respiratory comorbidities.Clin Respir J. 2011; 5: 187-194Crossref PubMed Scopus (37) Google Scholar The rate of decline of FEV1 amongst smokers increases as FEV1 becomes worse. However, the younger the patient at the time of quitting, the slower the rate of decline, eventually approaching the rate in never-smokers.12Fletcher C. Peto R. The natural history of chronic airflow obstruction.Br Med J. 1977; 1: 1645-1648Crossref PubMed Scopus (1823) Google Scholar Smoking cessation reduces mortality rates, with the largest benefit being in those who quit under the age of 30 yr, but even those who quit at 60 yr of age are likely to have survival benefit of up to 3 yr.20World Health Organisation International Agency for Research on Cancer Reversal of risk after quitting smoking.in: Handbooks of cancer prevention. vol. 11. WHO Press, Lyon2007Google Scholar Guidance from the National Institute of Health and Care Excellence recommends that when patients who smoke access secondary care services, they should be identified and offered intensive support to quit.21National Institute for Health and Care Excellence Public health guideline PH48: smoking in acute, maternity and mental health services. London.2013Google Scholar Patients who smoke are more likely to quit if they are offered a combination of interventions, with combined behavioural support and pharmacotherapy. Healthcare professionals should be trained to give brief advice on stopping smoking and should have contact with the local NHS Stop Smoking Service to which they can refer. If patients do not wish to attend the service, they should be offered brief advice and support to help them quit, and pharmacotherapy as appropriate. Use of the Very Brief Advice (VBA) tool is encouraged. This comprises a three-step approach: ask, advise, and act.4Action on smoking and health. the Royal College of Anaesthetists, the Royal College of Surgeons of Edinburgh and the Faculty of Public Health. Joint briefing: Smoking and surgery, London2016https://www.rcoa.ac.uk/sites/default/files/Joint-briefing-Smoking-Surgery.pdfDate accessed: October 11, 2018Google Scholar•'Ask' and record smoking history. Smoking history is typically reported in 'pack-years' where the number of packs of cigarettes smoked per day is multiplied by the number of years the person has smoked (e.g. 1 pack-year represents smoking 20 cigarettes per day for 1 yr).•'Advise' that the most effective way to quit is with a combination of medication and specialist support.•'Act' on the patient response. Give information, refer, and prescribe. Brief advice offered by a physician has been shown to increase quit rates.22Stead L.F. Buitrago D. Preciado N. et al.Physician advice for smoking cessation.Cochrane Database Syst Rev. 2013; 5CD000165Crossref PubMed Scopus (503) Google Scholar Trials using preoperative intensive smoking cessation interventions found a 10-fold relative risk of smoking cessation compared with usual care. Studies looking at brief interventions found a smaller effect of smoking cessation rates although quit rates were high in the control groups, likely reflecting the fact that people who smoke have a high motivation to quit ahead of major surgery.23Thomsen T. Villebro N. Møller A.M. Interventions for preoperative smoking cessation.Cochrane Database Syst Rev. 2014; 3CD002294PubMed Google Scholar This 'teachable moment' should be used to good effect.4Action on smoking and health. the Royal College of Anaesthetists, the Royal College of Surgeons of Edinburgh and the Faculty of Public Health. Joint briefing: Smoking and surgery, London2016https://www.rcoa.ac.uk/sites/default/files/Joint-briefing-Smoking-Surgery.pdfDate accessed: October 11, 2018Google Scholar Three drugs are licensed in the UK for the support of smoking cessation and have proven efficacy.24Cahill K. Stevens S. Perera R. et al.Pharmacological interventions for smoking cessation: an overview and network meta-analysis.Cochrane Database Syst Rev. 2013; 5CD009329Crossref PubMed Scopus (845) Google Scholar•Nicotine replacement therapy; available as patches or in shorter acting forms, for example lozenges, chewing gum, or nasal sprays.•Oral bupropion; a nicotinic receptor antagonist with dopaminergic and adrenergic actions; it may work by blocking the effects of nicotine, relieving withdrawal or reducing depressed mood.•Oral varenicline; a nicotinic receptor partial agonist that binds less effectively than nicotine. There has been an increase in recent years in the popularity of electronic cigarettes (e-cigarettes), or 'vaping'. They are currently used by 2.3 million adults in the UK. E-cigarettes use a battery to heat a solvent and disperse an aerosol that contains nicotine, water, and sometimes flavouring. Nicotine can therefore be delivered to the respiratory tract without combustion. The potentially harmful effects of vaping are an area of interest. Current opinion is that e-cigarettes are likely to be less harmful than cigarettes, but studies have found the aerosol to contain heavy metals, polycyclic hydrocarbons, nitrosamines, volatile organic compounds, and inorganic compounds.25Shahab L. Goniewicz M. Blount B. et al.Nicotine, carcinogen and toxicant exposure in long-term e-cigarette and nicotine replacement therapy users: a cross-sectional study.Ann Intern Med. 2017; 166: 390-400Crossref PubMed Scopus (327) Google Scholar It is clear that e-cigarettes help some people to quit smoking, although no randomised controlled trials have been carried out to compare the effectiveness of e-cigarette use with more established pharmacotherapy to promote and maintain smoking cessation. The authors declare that they have no conflicts of interest. The associated MCQs (to support CME/CPD activity) will be accessible at www.bjaed.org/cme/home by subscribers to BJA Education. Michael Carrick FRCA is a specialty registrar in anaesthesia at the Leeds Teaching Hospitals NHS Trust. Jonathan Robson MRCP (Resp) is a consultant in respiratory and general medicine at St James's University Hospital, Leeds, whose special interests include lung cancer, pleural disease, and interventional pulmonology. Caroline Thomas BSc (Hons), FRCA is a consultant in anaesthesia at St James's University Hospital, Leeds, whose special interests include perioperative medicine and anaesthesia for thoracic and colorectal surgery.
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