Shoshana Zevin scite author profile

Cigarette smoking remains highly prevalent in most countries. It can affect drug therapy by both pharmacokinetic and pharmacodynamic mechanisms. Enzymes induced by tobacco smoking may also increase the risk of cancer by enhancing the metabolic activation of carcinogens. Polycyclic aromatic hydrocarbons in tobacco smoke are believed to be responsible for the induction of cytochrome P450 (CYP) 1A1, CYP1A2 and possibly CYP2E1, CYP1A1 is primarily an extrahepatic enzyme found in lung and placenta. There are genetic polymorphisms in the inducibility of CYP1A1, with some evidence that high inducibility is more common in patients with lung cancer. CYP1A2 is a hepatic enzyme responsible for the metabolism of a number of drugs and activation of some procarcinogens. Caffeine demethylation, using blood clearance or urine metabolite data, has been used as an in vivo marker of CYP1A2 activity, clearly demonstrating an effect of cigarette smoking, CYP2E1 metabolises a number of drugs as well as activating some carcinogens. Our laboratory has found in an intraindividual study that cigarette smoking significantly enhances CYP2E1 activity as measured by the clearance of chlorzoxazone. In animal studies, nicotine induces the activity of several enzymes, including CYP2E1, CYP2A1/2A2 and CYP2B1/2B2, in the brain, but whether this effect is clinically significant is unknown. Similarly, although inhibitory effects of the smoke constituents carbon monoxide and cadmium on CYP enzymes have been observed in vitro and in animal studies, the relevance of this inhibition to humans has not yet been established. The mechanism involved in most interactions between cigarette smoking and drugs involves the induction of metabolism. Drugs for which induced metabolism because of cigarette smoking may have clinical consequence include theophylline, caffeine, tacrine, imipramine, haloperidol, pentazocine, propranolol, flecainide and estradiol. Cigarette smoking results in faster clearance of heparin, possibly related to smoking-related activation of thrombosis with enhanced heparin binding to antithrombin III. Cutaneous vasoconstriction by nicotine may slow the rate of insulin absorption after subcutaneous administration. Pharmacodynamic interactions have also been described. Cigarette smoking is associated with a lesser magnitude of blood pressure and heart rate lowering during treatment with beta-blockers, less sedation from benzodiazepines and less analgesia from some opioids, most likely reflecting the effects of the stimulant actions of nicotine. The impact of cigarette smoking needs to be considered in planning and assessing responses to drug therapy. Cigarette smoking should be specifically studied in clinical trials of new drugs.

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Sources of variability in nicotine and cotinine levels with use of nicotine nasal spray, transdermal nicotine, and cigarette smoking

Benowitz

Zevin

Jacob

1997

Brit J Clinical Pharma

127

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Aims Nicotine nasal spray and transdermal nicotine are effective aids to smoking cessation, and are being evaluated for treatment of other medical diseases. Wide variation in levels of nicotine and its metabolite, cotinine, have been observed with such therapies. This study aimed primarily to assess sources of individual variability in nicotine and metabolite plasma levels from these dosing systems and from cigarette smoking. Methods Twelve cigarette smokers, studied on a clinical research ward, received four treatments of 5 days duration each, including (1) cigarette smoking, 16 cigarettes/day; (2) transdermal nicotine, 15 mg/day; (3) nicotine nasal spray, 24-1 mg doses/day; (4) placebo nicotine nasal spray, 24 doses/day. On a different occasion, the disposition kinetics of nicotine and cotinine were determined via infusion of deuterium-labeled nicotine and cotinine. Plasma levels of nicotine, cotinine, and 3∞-hydroxycotinine and daily intake of nicotine during various treatments were examined, as well as pharmacokinetic factors that determined plasma nicotine and cotinine levels. Results There was considerable individual variation in plasma nicotine and cotinine levels and in the daily dose of nicotine absorbed from various delivery systems, with most variability with nicotine nasal spray (fivefold) and least for transdermal nicotine (two-to threefold). Plasma nicotine levels were determined most strongly by nicotine clearance. Cotinine levels were determined most strongly by dose of nicotine and, to a lesser extent, the clearance of cotinine and fractional conversion of nicotine to cotinine. Conclusions Plasma levels of nicotine and cotinine produced by nicotine therapies are highly variable, due to both wide variability in individual pharmacokinetics and in dose delivery from the products. To compensate for individual differences in clearance, individualization of nicotine dosing based on therapeutic drug monitoring with comparison to nicotine or cotinine levels during cigarette smoking prior to treatment may be necessary to optimize nicotine therapy. This study also validates a recently proposed method for estimating absolute bioavailability of a drug using drug and metabolite pharmacokinetic data, and presents novel data on plasma levels of the metabolite trans-3∞-hydroxycotinine in people.

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Cardiovascular effects of carbon monoxide and cigarette smoking

Zevin

Saunders

Gourlay

et al. 2001

Journal of the American College of Cardiology

137

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Oral maintenance clinical trial with miglustat for type I Gaucher disease: switch from or combination with intravenous enzyme replacement

et al. 2007

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Shoshana Zevin

Drug Interactions with Tobacco Smoking

Sources of variability in nicotine and cotinine levels with use of nicotine nasal spray, transdermal nicotine, and cigarette smoking

Cardiovascular effects of carbon monoxide and cigarette smoking

Oral maintenance clinical trial with miglustat for type I Gaucher disease: switch from or combination with intravenous enzyme replacement

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