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Despite the wealth of experimental data on cocaine abuse, there are no published dose-response pharmacokinetic studies with bolus i.v. cocaine injection in the male rat. The present study examined the pharmacokinetics of arterial plasma concentrations of cocaine and metabolite profile [benzoylecgonine (BE), ecgonine methyl ester (EME), norcocaine (NC)] following a single i.v. injection of 0.5, 1.0, or 3.0 mg/kg cocaine. Male Sprague-Dawley rats (N = 25) were anesthetized and surgically instrumented with both jugular vein (drug administration) and carotid artery (blood withdrawal) catheters and allowed to recover for at least 24 h. Arterial plasma samples (200 microliters) were obtained at eight time points (0.5, 1.5, 2.5, 10, 20, 30 min) following i.v. bolus injection (15-s injection, 15-s flush) and analyzed by single ion monitoring using GC/MS. Nonlinear regression and noncompartmental pharmacokinetic analysis were employed. Mean +/- SEM peak plasma concentrations of cocaine occurred at 30 s in a dose-response manner (370 +/- 14,755 +/- 119,2553 +/- 898 ng/ml for 0.5, 1.0, and 3.0 mg/kg groups, respectively). T1/2 alpha was < 1 min for all groups, but inversely related to dose. T1/2 beta was independent of dose 13.3 +/- 1.6, 13.0 +/- 1.5, and 12.0 +/- 2.0 min for 0.5, 1.0, and 3.0 mg/kg groups, respectively). MRT (16.0, 15.9, 14.5 min), VdSS (3.3, 3.2, and 2.8 l/kg), and ClTOT (204, 201, and 195 ml/min/kg) also provided little evidence of dose-dependent effects. Although the metabolic profile of i.v. cocaine was similarly ordered for all dose groups (BE > EME > NC), a quantitative shift in metabolite profile was evident as a function of increasing dose. This metabolic shift, perhaps attributable to saturation of plasma and liver esterases, suggests that the recently reported pharmacodynamic effects positively correlated with i.v. cocaine dose are unlikely attributable to NC, a minor but pharmacologically active metabolite. In sum, the i.v. pharmacokinetic profile in rats is distinct from that observed via the SC, IP, and PO routes of administration and offers the potential to provide a reasonable clinically relevant rodent model.
Despite the wealth of experimental data on cocaine abuse, there are no published dose-response pharmacokinetic studies with bolus i.v. cocaine injection in the male rat. The present study examined the pharmacokinetics of arterial plasma concentrations of cocaine and metabolite profile [benzoylecgonine (BE), ecgonine methyl ester (EME), norcocaine (NC)] following a single i.v. injection of 0.5, 1.0, or 3.0 mg/kg cocaine. Male Sprague-Dawley rats (N = 25) were anesthetized and surgically instrumented with both jugular vein (drug administration) and carotid artery (blood withdrawal) catheters and allowed to recover for at least 24 h. Arterial plasma samples (200 microliters) were obtained at eight time points (0.5, 1.5, 2.5, 10, 20, 30 min) following i.v. bolus injection (15-s injection, 15-s flush) and analyzed by single ion monitoring using GC/MS. Nonlinear regression and noncompartmental pharmacokinetic analysis were employed. Mean +/- SEM peak plasma concentrations of cocaine occurred at 30 s in a dose-response manner (370 +/- 14,755 +/- 119,2553 +/- 898 ng/ml for 0.5, 1.0, and 3.0 mg/kg groups, respectively). T1/2 alpha was < 1 min for all groups, but inversely related to dose. T1/2 beta was independent of dose 13.3 +/- 1.6, 13.0 +/- 1.5, and 12.0 +/- 2.0 min for 0.5, 1.0, and 3.0 mg/kg groups, respectively). MRT (16.0, 15.9, 14.5 min), VdSS (3.3, 3.2, and 2.8 l/kg), and ClTOT (204, 201, and 195 ml/min/kg) also provided little evidence of dose-dependent effects. Although the metabolic profile of i.v. cocaine was similarly ordered for all dose groups (BE > EME > NC), a quantitative shift in metabolite profile was evident as a function of increasing dose. This metabolic shift, perhaps attributable to saturation of plasma and liver esterases, suggests that the recently reported pharmacodynamic effects positively correlated with i.v. cocaine dose are unlikely attributable to NC, a minor but pharmacologically active metabolite. In sum, the i.v. pharmacokinetic profile in rats is distinct from that observed via the SC, IP, and PO routes of administration and offers the potential to provide a reasonable clinically relevant rodent model.
The present review is a critical analysis of the concepts behind and the empirical data supporting the view that tobacco use represents an addiction to nicotine. It deals with general aspects ofthe notion ofaddiction, while concentrating on specific problems associated with incorporating nicotine into current frameworks. The notion of addiction suffers from unprecedented definitional difficulties. The definitions offered by various authorities are very different, even contradictory. Definitions that reasonably include nicotine are so broad and vague that they allow many trivial things, such as salt, sugar, and watching television, to be considered addictive. Definitions that exclude the trivia also exclude nicotine. The addiction hypothesis, in general, is strongly shaped by views that certain drugs bring about a molecular level subversion of rationality. The main human evidence for this is verbal reports of smokers who say that they can't quit. On the other hand, the existence of many millions of successful quitters suggests that most people can quit. Somesmokers don't quit, but whether they can't is another matter. The addiction hypothesis would be greatly strengthened by the demonstration that any drug of abuse produces special changes in the brain. It has yet to be shown that any drug produces changes in the brain different from those produced by many innocuous substances and events. The effects of nicotine on the brain are similar to those of sugar, salt, exercise, and other harmless substances and events. Apart from numerous conceptual and definitional inadequacies with the addiction concept in general, the notion that nicotine is addictive lacks reasonable empirical support. Nicotine does not have the properties of reference drugs of abuse. There are so many findings that conflict so starkly with the view that nicotine is addictive that it increasingly appears that adhering to the nicotine addiction thesis is only defensible on extrascientific grounds. Dale Atrens received a B.A. from the University of Windsor, an A.M. from Hollins College, and a Ph.D. from Rutgers University. He has held appointments at universities in North America. Europe, Asia, and Australia. He is currently a Reader in psychobiology at the University of Sydney. He Is the author of several neuroscience textbooks and a number of popular books on diet and lifestyle.
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