Lower plasma levels of haloperidol in smoking than in nonsmoking schizophrenic patients.

The impact of smoking on plasma haloperidol (HAL) concentrations was investigated in 66 Japanese male schizophrenic inpatients treated orally with HAL. The subjects consisted of 22 nonsmokers and 44 smokers each smoking ten cigarettes per day. Plasma concentrations of HAL were determined by an enzyme immunoassay method. There were significant positive correlations between the plasma HAL concentration and the daily dose of HAL per kg body weight (Y = 58.1X-0.01 (r = 0.86)). Smokers had significantly lower HAL concentrations per daily dose of HAL/kg body weight than nonsmokers (smokers vs. nonsmokers = 54.3+/-16.6 vs. 70.6+/-23.2 ng/mL/mg/kg). In doses less than 0.2 mg/kg of HAL, smokers showed significantly lower HAL concentrations per daily dose of HAL/kg body weight than nonsmokers (smokers vs. nonsmokers = 55.1+/-14.4 vs. 79.5+/-27.1 ng/mL/mg/kg), whereas no significant difference in HAL concentrations per daily dose of HAL/kg body weight was observed between smokers and nonsmokers when treated with more than 0.2 mg/kg (smokers vs. nonsmokers = 52.9+/-20.7 vs. 60.0+/-11.1 ng/mL/mg/kg). Our results indicate that smoking may induce the enzyme(s) metabolizing HAL, which results in lower plasma HAL concentrations in smokers than in nonsmokers, particularly at low doses of HAL.     

Effects of smoking on nortriptyline plasma concentrations in depressed patients

The pharmacokinetic parameters of half-life, volume of distribution, and steady-state nortriptyline plasma concentration normalized to a 100-mg/day maintenance dose were calculated in nine smokers and 15 nonsmokers. The mean normalized total nortriptyline concentration for the smokers of 118 +/- 33 ng/ml was significantly lower than the nonsmokers' mean value of 158 +/- 35 ng/ml. The mean normalized free plasma concentrations for the smokers of 11.4 +/- 3.5 ng/ml was not different from the nonsmokers' mean concentrations of 11.5 +/- 2.6 ng/ml. The smokers had a slightly higher percentage free drug values of 10.2 +/- 4.0% (p = 0.08) as contrasted to 7.4 +/- 1.5% free nortriptyline for the nonsmokers. The nortriptyline half-life figures for both the free and total drug concentrations did not differ. Multiple linear regression analysis utilizing age, smoking status, sex, liver function, and the presence or absence of enzyme-inducing or -inhibiting drugs as the potential independent variables and percentage free nortriptyline or total nortriptyline concentration as the dependent variable, found that smoking status explained 21% of the variation in the percentage free nortriptyline in the patients and 26% of the variation in the total nortriptyline concentrations. These preliminary data suggest that smokers ideally should be dosed at the lower end of the nortriptyline therapeutic range, whereas nonsmokers should be dosed at the upper end to maximize the antidepressant effect and minimize adverse effects.     

Influence of dose, cigarette smoking, age, sex, and metabolic activity on plasma clozapine concentrations: a predictive model and nomograms to aid clozapine dose adjustment and to assess compliance in individual patients

The measurement of plasma clozapine concentrations is useful in assessing compliance, optimizing therapy, and minimizing toxicity.We measured plasma clozapine and norclozapine (N-desmethylclozapine) concentrations in samples from 3782 patients (2648 male, 1127 female). No clozapine was detected in 291 samples (227 patients, median prescribed dose 300 mg/d). In 4963 (50.2 %) samples (2222 patients); plasma clozapine concentration ranged from 10 to 350 ng/mL.Step-wise backward multiple regression analysis (37 % of the total samples) of log10 plasma clozapine concentration against log10 clozapine dose (mg/d), age (year), sex (male = 0, female = 1), cigarette smoking habit (nonsmokers = 0; smokers = 1), body weight (kg), and plasma clozapine/norclozapine ratio (clozapine metabolic ratio, MR) showed that these covariates explained 48% of the observed variation in plasma clozapine concentration (C = ng/mL x 10-3) (P < 0.001) according to the following equation: log 10 (C) = 0.811 log 10 (dose) + 0.332 (MR) + 69.42 X 10 (-3) (sex) + 2.263 x 10 (-3) (age) + 1.976 x 10(-3) (weight) - 0.171 (smoking habit) - 3.180. This model and its associated confidence intervals were used to develop nomograms of plasma clozapine concentration versus dose for male and female smokers and nonsmokers. Predicted plasma clozapine changes by +48% in nonsmokers, +17% in females, +/-8 % for every 0.1 change in MR (reference 1.32), +/-4% for every 5 years (reference 40 years), and +/-5 % for every 10 kg body weight (reference 80 kg). The nomograms can be used (i) to individualize dosage to achieve a given target plasma clozapine concentration, and (ii) for quantitative evaluation of adherence by estimating the likelihood of an observed concentration being achieved by a given dosage regimen. The model has been validated against published data.     

Single oral dose pharmacokinetics of quazepam is influenced by CYP2C19 activity

The effects of cytochrome P450 (CYP)2C19 activity and cigarette smoking on the single oral dose pharmacokinetics of quazepam were studied in 20 healthy Japanese volunteers. Twelve subjects were extensive metabolizers (EMs), and 8 subjects were poor metabolizers (PMs) by CYP2C19 as determined by the PCR-based genotyping. Nine subjects were smokers (>10 cigarettes/d), and 11 subjects were nonsmokers. The subjects received a single oral 20-mg dose of quazepam, and blood samplings and evaluation of psychomotor function were conducted up to 72 hours after dosing. Plasma concentrations of quazepam and its active metabolite 2-oxoquazepam (OQ) were measured by HPLC. There were significant differences between EMs and PMs in the peak plasma concentration (mean +/- SD: 34.5 +/- 16.6 versus 66.2 +/- 19.2 ng/mL, P < 0.01) and total area under the plasma concentration-time curve (490.1 +/- 277.5 vs 812.1 +/- 267.2 ng x h/mL, P < 0.05) of quazepam. The pharmacokinetic parameters of OQ and pharmacodynamic parameters were not different between the 2 groups. Smoking status did not affect the pharmacokinetic parameters of quazepam and OQ or pharmacodynamic parameters. The present study suggests that the single oral dose pharmacokinetics of quazepam are influenced by CYP2C19 activity but not by cigarette smoking.     

Alteration of pentoxifylline pharmacokinetics by cimetidine

Pentoxifylline, recently approved for the treatment of intermittent claudication, is hepatically cleared with a high degree of first-pass metabolism. Subsequently, the effect of cimetidine on pentoxifylline pharmacokinetics was studied in humans. Ten healthy subjects received, in random cross-over fashion, pentoxifylline 400 mg as a controlled-release tablet every 8 hours with and without cimetidine 300 mg four times a day for 7 days. Pentoxifylline and metabolite plasma concentrations over one dosing interval were measured on day 7 of each phase. The unavailability of an immediate-release pentoxifylline dosage form prevented a single dose trial. Cimetidine significantly increased (P less than .05) pentoxifylline area under the curve at steady state 26.2% from 675 +/- 97 (mean +/- SEM) to 852 +/- 108 ng. hr/mL. The average steady-state plasma concentration increased 27.4% from 84 +/- 12 to 107 +/- 14 ng/mL (P less than .05). Apparent oral clearance decreased 21.5% from 1309 +/- 304 to 1027 +/- 244 mL/min (P less than .02). Significant alterations in pentoxifylline metabolite concentrations were also observed. The results of this trial suggest cimetidine elevates pentoxifylline plasma concentrations, presumably by decreasing apparent oral clearance, although a reduction in total body clearance or an increase in gastric absorption could not be ruled out.     

Role of the smoking-induced cytochrome P450 (CYP)1A2 and polymorphic CYP2D6 in steady-state concentration of olanzapine

This study investigated whether the smokinginducible cytochrome P450 (CYP) 1A2 and the polymorphic CYP2D6 play significant roles in the metabolism of olanzapine and its clinical effects at steady-state treatment. Caffeine and debrisoquine were used as measures of CYP1A2 and CYP2D6, respectively. After drug therapy for 15 days, the effect of olanzapine on the activities of CYP1A2 and CYP2D6 was also examined. Seventeen psychiatric patients (9 men and 8 women) were orally administered olanzapine, at a mean +/- standard deviation (SD) dosage of 10 mg/d for all smokers (n = 8) and 7.5 +/- 2.5 mg/d (range, 5-10 mg) for nonsmokers (n = 9;p <0.01). The plasma concentration-to-dose (C:D) ratio was closely correlated to the CYP1A2 activity ( s = -0.89;p <0.0001). The mean urinary caffeine indexes of nonsmokers and smokers were 17 +/- 8 and 101 +/- 44, respectively, indicating that smoking had induced a sixfold higher CYP1A2 activity (p <0.0001). Likewise, the olanzapine plasma C:D ratio (ng.mL.mg) was about fivefold lower in smokers (7.9 +/- 2.6) than in nonsmokers (1.56 +/- 1.1;p <0.0001). On day 15 of the antipsychotic therapy, the percentage decrease in Brief Psychiatric Rating Scale (BPRS) total score relative to the predosing score (in the drug-free period) was higher for nonsmokers than for smokers (30.4 +/- 10% vs. 12.5 +/- 14%;p <0.01). Six nonsmokers and three smokers experienced side effects with olanzapine. After 15 days of drug treatment, olanzapine had caused significant (p <0.0001) and substantial CYP1A2 inhibition (by 50%) in comparison with predosing values, and such inhibition can contribute to adverse drug interactions. In conclusion, smoking-induced increased CYP1A2 activity significantly diminished plasma olanzapine concentrations and the antipsychotic effect of the drug. The performance of a simple caffeine test may assist in individualization of the olanzapine dosage.     

Identification of tobacco-derived compounds in human pancreatic juice

Cancer of the pancreas is the fourth leading cause of cancer mortality in the USA with an estimated 28 900 deaths in 2001. Several factors have been implicated in the etiology of this disease. However, at present, only cigarette smoking has been positively associated with pancreatic cancer. It is our working hypothesis that tobacco-derived compounds can be delivered to the pancreas where, upon metabolic activation, they can initiate carcinogenesis. Our current investigation was conducted to determine whether cotinine and tobacco-specific nitrosamines (TSNA) are present in human pancreatic juice. Smoking status was assessed by the determination of levels of urinary cotinine and was further supported by quantifying nicotine in hair. The TSNA were extracted from the pancreatic juice of 18 smokers and 9 nonsmokers by supercritical carbon dioxide that contained 10% methanol. The extracts were analyzed for TSNA, namely, 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) and N'-nitrosonornicotine (NNN), by gas chromatography with mass spectrometric detection using a selected ion monitoring technique (GC-SIM-MS). Twenty-three extracts of human pancreatic juice were also analyzed for the presence of the NNK metabolite 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol (NNAL) by GC-SIM-MS and by gas chromatography interfaced wit a thermal energy analyzer (GC-TEA; TEA, a nitrosamine-specific detector). Cotinine was detected in all analyzed samples of pancreatic juice from smokers (129 +/- 150 ng/mL juice; mean +/- standard deviation) and was present in only two of the nine samples of pancreatic juice from nonsmokers. Its levels in these two samples were 7 and 9 ng/mL juice. NNK was detected in 15 of 18 samples (83%) from smokers at levels from 1.37 to 604 ng/mL pancreatic juice. In nine samples of pancreatic juice from nonsmokers, NNK ranged from not detected (in three samples) to 96.8 ng/mL juice. In pancreatic juice from smokers the mean level of NNK (88.7 +/- 161 ng/mL juice) was significantly higher (p < 0.04) than in that from nonsmokers (12.4 +/- 31.7 ng/mL juice). In addition to NNK, NNN was found in two samples of pancreatic juice of smokers at levels of 68.1 and 242 ng/mL juice; NNN was not detected in any other sample. NNAL was present in 8 of 14 pancreatic juice samples (57%) from smokers and in three of nine samples (33%) from nonsmokers. This research presents preliminary data that supports the hypothesis that pancreatic tissue is exposed to TSNA and that they may be important contributors to pancreatic carcinogenesis in humans.     

Association of cigarette smoking with steady-state plasma concentration of irbesartan in male Chinese with hypertension

Previous studies suggested that cigarette smoking, being highly prevalent in many countries, is an important environmental factor that contributes to interindividual variations in response to certain medications. To investigate the possible interactions between irbesartan (a commonly used angiotensin II type 1 receptor antagonist) and cigarette smoking, we recruited 491 male patients with essential hypertension from two rural districts of China. All subjects were treated with irbesartan (150 mg/day) for 28 days, and the steady-state plasma concentrations of irbesartan 24 h after the dose of day 27 (the trough level) and 6 h after the dose of day 28 were determined using prevalidated high-performance liquid chromatography (HPLC)-fluorescence method. Multiple linear regression was used to analyze the effect of smoking on the steady-state plasma concentrations of irbesartan, with potential confounding factors adjusted. The results showed that current smokers had significantly higher average steady-state trough plasma level of irbesartan than that of the nonsmokers and former smokers. The finding was still valid when subjects from the two different districts were separately analyzed. The stratified analysis according to age suggested that the effect of increasing irbesartan concentration by current cigarette smoking in the elderly patients was stronger than that in adults. The metabolism of irbesartan in current smokers was slower compared to that in nonsmokers and former smokers. In summary, the present study showed significant associations between current cigarette smoking and an increased steady-state trough plasma concentration of irbesartan in a male Chinese population with hypertension. The metabolic rate of irbesartan in current smokers was slower than those in nonsmokers and former smokers.     

High correlation between serum and cerebrospinal fluid olanzapine concentrations in patients with schizophrenia or schizoaffective disorder medicating with oral olanzapine as the only antipsychotic drug

The primary aim of the present study was to investigate the relationship between steady state serum and cerebrospinal fluid (CSF) concentrations of olanzapine (OLA) and its metabolite 4'-N-desmethylolanzapine (DMO) in patients with schizophrenia or schizoaffective disorder treated with oral OLA as the only antipsychotic drug. The influence of smoking, gender, age, as well as polymorphisms in cytochrome P450 CYP2D6, CYP1A2, and ABCB1 genes on the serum and CSF drug levels was also analyzed. Thirty-seven white outpatients (10 smokers and 27 nonsmokers) were included. From 29 of them, CSF was collected successfully. A strong correlation (Spearman rank correlation [rs] = 0.93; P < 0.05) was found between serum and CSF concentrations of OLA and a somewhat weaker correlation (rs = 0.5; P < 0.05) between those of DMO. The CSF concentrations of OLA and DMO were on average 12% and 16% of those in serum. Extensive metabolizers of CYP2D6 had higher (P < 0.05) daily doses than poor metabolizers when the influence of smoking was taken into account. Smokers had lower (P < 0.01) concentration-to-dose ratios of OLA in serum (mean, 2.23 ng/mL per mg vs 3.32 ng/mL per mg) and CSF (0.27 ng/mL per mg vs 0.41 ng/mL per mg) than nonsmokers. The concentration-to-dose ratio for serum DMO decreased with increasing age (rs = -0.41; P < 0.05). Carriers of ABCB1 1236T/2677T/3435T haplotype had higher serum (mean, 37.7 ng/mL vs 22.5 ng/mL; P = 0.035) and CSF (4.7 ng/mL vs 2.6 ng/mL; P = 0.018) OLA concentrations than patients without this haplotype. The present study shows a strong correlation between serum and CSF concentrations of OLA, indicating that concentrations of OLA in serum reflect those in CSF.     

Gender, age, smoking behaviour and plasma clozapine concentrations in 193 Chinese inpatients with schizophrenia

AIM: To study the relationship between age, gender, cigarette smoking and plasma concentrations of clozapine (CLZ) and its metabolite, norclozapine (NCLZ) in Chinese patients with schizophrenia. METHODS: Data from a therapeutic drug monitoring programme were analysed retrospectively. One hundred and ninety-three Chinese inpatients with schizophrenia were assessed using clinical data forms. Steady-state plasma concentrations of CLZ and NCLZ were assayed using high-performance liquid chromatography. Comparisons of dosage and plasma CLZ concentrations were undertaken between males (n = 116) and females (n = 77), younger (40 years, n = 111) and current male smokers (n = 50) and nonsmokers (n = 66). RESULTS: (i) Plasma CLZ concentrations demonstrated large interindividual variability, up to eightfold at a given dose; (ii) there were significant effects of gender on plasma CLZ concentrations (relative to dose per kg of body weight) with female patients having significantly higher concentrations than males (30.09 +/- 24.86 vs. 19.87 +/- 3.55 ng ml(-1) mg(-1) day(-1) kg(-1); P < 0.001); (iii) there were no significant differences in plasma CLZ concentrations between those patients 40 years; and (iv) there were no significant differences in plasma CLZ concentrations between male smokers and nonsmokers, despite the CLZ dosage for smokers being significantly higher. CONCLUSIONS: Plasma CLZ concentrations vary up to eightfold in Chinese patients. Among the patient-related factors investigated, only gender was significant in affecting CLZ concentrations in Chinese patients with schizophrenia, with female patients having higher levels.     

Influence of food on tianeptine and its main metabolite kinetics

The influence of a test meal on the absorption and disposition of tianeptine (Stablon), a new antidepressant, was investigated in 12 healthy subjects in a two-way, randomized, open cross-over study. Single 12.5-mg oral doses of tianeptine were administered following a night of fasting or immediately after a standardized breakfast. When subjects received tianeptine under fasting conditions the lag time before absorption onset, and the time of the maximum plasma concentration were 0.55 +/- 0.26 hours and 1.29 +/- 0.29 hours, respectively. The maximum plasma concentration was 322 +/- 44 ng/mL, and the total area under the curve 994 +/- 248 ng/hr/mL. When tianeptine was given at the end of the meal, several significant changes were found for tianeptine kinetic parameters; the lag time increased by 0.3 hour and the maximum plasma concentration was lowered (decreased by 25%) and occurred later (tmax increased by 0.5 hour). However, no significant change was found in the area under the plasma concentration-time curve. The trend and extent of changes in the MC5 metabolite parameters were similar to those observed for the parent drug. Absorption of tianeptine is slightly delayed and slowed down without modification of its extent when tianeptine is given at the end of a meal. These slight changes are not clinically relevant for an antidepressant administered three times a day. Despite the changes observed, tianeptine may be given at meal times to improve compliance with treatment.     

Routine therapeutic drug monitoring in patients treated with 10-360 mg/day citalopram

From data collected during routine TDM, plasma concentrations of citalopram (CIT) and its metabolites demethylcitalopram (DCIT) and didemethylcitalopram (DDCIT) were measured in 345 plasma samples collected in steady-state conditions. They were from 258 patients treated with usual doses (20-60 mg/d) and from patients medicated with 80-360 mg/d CIT. Most patients had one or several comedications, including other antidepressants, antipsychotics, lithium, anticonvulsants, psychostimulants and somatic medications. Dose-corrected CIT plasma concentrations (C/D ratio) were 2.51 +/- 2.25 ng mL-1 mg-1 (n = 258; mean +/- SD). Patients >65 years had significantly higher dose-corrected CIT plasma concentrations (n = 56; 3.08 +/- 1.35 ng mL-1 mg-1) than younger patients (n = 195; 2.35 +/- 2.46 ng mL-1 mg-1) (P = 0.03). CIT plasma concentrations in the generally recommended dose range were [mean +/- SD, (median)]: 57 +/- 64 (45) ng/mL (10-20 mg/d; n = 64), 117 +/- 95 (91) ng/mL (21-60 mg/d; n = 96). At higher than usual doses, the following concentrations of CIT were measured: 61-120 mg/d CIT, 211 +/- 103 (190) ng/mL (n = 93); 121-200 mg/d: 339 +/- 143 (322) ng/mL (n = 70); 201-280 mg/d: 700 +/- 408 (565) ng/mL (n = 18); 281-360 mg/d: 888 +/- 620 (616) ng/mL (n = 4). When only one sample per patient (at the highest daily dose if repeated dosages) is considered, there is a linear and significant correlation (n = 48, r = 0.730; P < 0.001) between daily dose (10-200 mg/d) and CIT plasma concentrations. In experiments with dogs, DDCIT was reported to affect the QT interval when present at concentrations >300 ng/mL. In this study, DDCIT concentration reached 100 ng/mL in a patient treated with 280 mg/d CIT. Twelve other patients treated with 140-320 mg/d CIT had plasma concentrations of DDCIT within the range 52-73 ng/mL. In a subgroup comprised of patients treated with > or =160 mg/d CIT and with CIT plasma concentrations < or =300 ng/mL, and patients treated with < or =200 mg/d CIT and CIT plasma concentrations > or = 600 ng/mL, the enantiomers of CIT and DCIT were also analyzed. The highest S-CIT concentration measured in this subgroup was 327 ng/mL in a patient treated with 140 mg/d CIT, but the highest S-CIT concentration (632 ng/mL) was measured in patient treated with 360 mg/d CIT. In conclusion, there is a highly linear correlation between CIT plasma concentrations and CIT doses, well above the usual dose range.     

Large variability of aripiprazole and dehydroaripiprazole serum concentrations in adolescent patients with schizophrenia

Aripiprazole is a fairly new atypical antipsychotic substance. It acts as a partial D2- and 5-HT1A-agonist and as a 5-HT2A-antagonist. To date, there are few data concerning the dose-serum concentration relationship in children and adolescent psychiatric patients. Also, there are only few data on the influence of age, sex, body mass index, smoking behavior, and comedication on aripiprazole serum concentrations. In 33 consecutively admitted patients of a child and adolescent psychiatric hospital [age (mean +/- standard deviation) 18.7 +/- 1.7 years (range, 13.5-21.6 years)], 117 steady-state serum concentrations (repeated samples from individuals) of aripiprazole and its metabolite dehydroaripiprazole were assessed using high-performance liquid chromatography. The aripiprazole (mean +/- standard deviation) daily dose was 12.9 +/- 6.4 mg (range, 5-30 mg); the aripiprazole serum concentration was 142.0 +/- 122.7 ng/mL (range, 40.0-648.3 ng/mL; interquartile range, 74.0-167.0 ng/mL). The mean dehydroaripiprazole serum concentration was 51.6 +/- 22.3 ng/mL (range, 30.0-111.6 ng/mL; interquartile range, 34.3-62.1 ng/mL). There was a positive correlation between oral dose and serum concentrations of aripiprazole (r = 0.548, P = 0.001) and dehydroaripiprazole (r = 0.740, P < 0.0005). Aripiprazole serum concentrations showed high inter- and intraindividual variability. Intraindividual variability was one- to 9.3-fold (dehydroaripiprazole: one- to 8.6-fold) and maximum interindividual variability 6.4-fold (dehydroaripiprazole: 6.8-fold). No significant influence was detected for age, sex, body mass index, comedication, and smoking on concentration-to-dose aripiprazole serum concentrations. Further studies are required to obtain data on the relationship between serum concentrations and resulting clinical effects.     

Digitalis-like immunoreactive substances in maternal and umbilical cord plasma: a comparative sensitivity study of fluorescence polarization immunoassay and microparticle enzyme immunoassay

Digitalis-like immunoreactive substances (DLIS) obtained from maternal and umbilical cord plasma at delivery were measured by fluorescence polarization immunoassay (FPIA; TDX, Abbott) and microparticle enzyme immunoassay (MEIA; IMX, Abbott). In each sample, concentrations of dehydroepiandrosterone, dehydroepiandrosterone sulfate, estradiol, estriol, hydrocortisone, progesterone, and testosterone were measured by radioimmunoassay, and cross-reaction tests of DLIS with these substances were conducted. By FPIA, the concentration of DLIS in umbilical cord plasma (0.55 +/- 0.22 ng/mL) was significantly higher than that in maternal plasma (0.23 +/- 0.11 ng/mL). In the cross-reaction tests, when the concentration of dehydroepiandrosterone sulfate was higher than 1.0 microg/mL or that of progesterone was higher than 0.5 microg/mL, DLIS were detected by FPIA. However, DLIS were not found either in the samples or in the cross-reaction tests by MEIA. By radioimmunoassay, there was no significant difference in the dehydroepiandrosterone sulfate concentration between the maternal plasma (2,917 +/- 1,001 ng/mL) and the umbilical cord plasma (1,957 +/- 376 ng/mL). The progesterone concentration in the umbilical cord plasma (310.0 +/- 85.7 ng/mL) was significantly higher than that in the maternal plasma (126.4 +/- 38.5 ng/mL). These results suggest that dehydroepiandrosterone sulfate in maternal plasma and progesterone in maternal and umbilical cord plasma may be measured as digoxin by FPIA.     

Dermal absorption of camphor, menthol, and methyl salicylate in humans

Camphor, menthol, and methyl salicylate occur in numerous over-the-counter products. Although extensively used, there have been no estimates of human exposure following administration via dermal application. Furthermore, there is little information about the pharmacokinetics of those compounds. The authors report the plasma concentrations of the intact compounds as a function of dose following dermal patch application. Three groups of 8 subjects (4 male, 4 female) applied a different number of commercial patches (2, 4, or 8) to the skin for 8 hours. Plasma samples were assayed using sensitive and selective gas-chromatographic methods. For the 8-patch group, the average maximum plasma concentrations (Cmax +/- SD) were 41.0 +/- 5.8 ng/mL, 31.9 +/- 8.8 ng/mL, and 29.5 +/- 10.5 ng/mL for camphor, menthol, and methyl salicylate, respectively. The corresponding values for the 4-patch group were 26.8 +/- 7.2 ng/mL, 19.0 +/- 5.4 ng/mL, and 16.8 +/- 6.8 ng/mL. The harmonic mean terminal half-lives were 5.6 +/- 1.3 hours, 4.7 +/- 1.6 hours, and 3.0 +/- 1.2 hours for camphor, menthol, and methyl salicylate, respectively. The 2-patch group had measurable but low plasma concentrations of each compound. Low-dose dermal application for an extended time results in low plasma concentrations of all 3 compounds. Four and 8 patches, when applied for 8 hours, gave measurable and nearly proportional plasma concentrations. Although unable to determine the absolute dermal bioavailability of these compounds, there appears to be relatively low systemic exposure to these potentially toxic compounds, even when an unrealistically large number of patches are applied for an unusually long time.     

Quantitative analysis of trihydroxybutyl mercapturic acid, a urinary metabolite of 1,3-butadiene, in humans

1,3-Butadiene (BD) is a known human carcinogen present in cigarette smoke and in automobile exhaust, leading to widespread exposure of human populations. BD requires cytochrome P450-mediated metabolic activation to electrophilic species, e.g. 3,4-epoxy-1-butene (EB), hydroxymethyl vinyl ketone (HMVK), and 3,4-epoxy-1,2-diol (EBD), which form covalent adducts with DNA. EB, HMVK, and EBD can be conjugated with glutathione and ultimately excreted in urine as monohydroxybutenyl mercapturic acid (MHBMA), dihydroxybutyl mercapturic acid (DHBMA), and trihydroxybutyl mercapturic acid (THBMA), respectively, which can serve as biomarkers of BD exposure and metabolic processing. While MHBMA and DHBMA have been found in smokers and nonsmokers, THBMA has not been previously detected in humans. In the present work, an isotope dilution HPLC-ESI(-)-MS/MS methodology was developed and employed to quantify THBMA in urine of known smokers and nonsmokers (19-27 per group). The new method has excellent sensitivity (LOQ, 1 ng/mL urine) and achieves accurate quantitation using a small sample volume (100 μL). Mean urinary THBMA concentrations in smokers and nonsmokers were found to be 21.6 and 13.7 ng/mg creatinine, respectively, suggesting that there are sources of THBMA other than exposure to tobacco smoke in humans, as is also the case for DHBMA. However, THBMA concentrations are significantly greater in urine of smokers than that of nonsmokers (p < 0.01). Furthermore, THBMA amounts in human urine declined 25-50% following smoking cessation, suggesting that smoking is an important source of this metabolite in humans. The HPLC-ESI(-)-MS/MS methodology developed in the present work will be useful for future epidemiological studies of BD exposure and metabolism.     

Paradoxically enhanced bradykinin-induced venodilation in young, healthy, short-term smokers.

Bradykinin is a nonapeptide, whose mechanism of vasodilation is mediated chiefly through the release of endothelium-derived relaxing factor (EDRF). Diminished vasodilatory response to EDRF has been demonstrated in many pathologic states such as hypertension, atherosclerosis, diabetes, and long-term, heavy smoking. We studied whether the diminished EDRF-mediated vasodilatory response seen in chronic diseases can be demonstrated in young, clinically healthy smokers. We used the dorsal hand-vein compliance technique, an in vivo technique used to measure response to local infusions of vasoactive substances. Full dose-response curves to bradykinin (dosing range, 0.5-500 ng/min) were generated in 11 young, healthy smokers and 11 young, healthy nonsmokers by using hand veins preconstricted with phenylephrine (dosing range, 20-6,800 ng/min). In addition, after a washout period, a single maximal dose of a non-endothelium-dependent vasodilator, isoproterenol (300 ng/min) was infused. Our results demonstrated that smokers had a greater maximal venodilation to bradykinin than did nonsmokers (106 +/- 40% vs. 69 +/- 49%; p < 0.05). The log of the dose that produced half-maximal response to bradykinin was smaller in smokers: -0.10 +/- 0.93 (0.79 ng/min) versus 0.75 +/- 0.84 (5.6 ng/min); p < 0.05. There was no difference in the maximal dilatory response to isoproterenol: 80 +/- 45% (smokers) versus 89 +/- 50% (nonsmokers), nor was there a difference in the log dose of phenylephrine necessary to produce 80% constriction of the hand vein (2.7 +/-0.7 vs. 2.7 +/- 0.9 ng/min) between the two groups. We conclude that young, otherwise healthy smokers have a paradoxic hyperactive response to the endothelium-dependent vasodilator, bradykinin, but maintain a similar response to the nonendothelium-dependent vasodilator, isoproterenol as compared with nonsmokers. Their reactivity to the alpha1-adrenergic agonist phenylephrine was found to be intact. It is possible that a hyperactive response to EDRF in young smokers contributes to endothelium damage seen in chronic disease. To our knowledge, this is the first report on increased reactivity to bradykinin in short-term smokers.     

Hubble-bubble (water pipe) smoking: levels of nicotine and cotinine in plasma,saliva and urine

OBJECTIVES: The purpose of the present study was to assess the levels of nicotine and cotinine in biological fluids (plasma, saliva, and urine) following hubble-bubble (HB) smoking. METHODS: Fourteen healthy male volunteers, aged 28 +/- 8 years, body weight of 82.7 +/- 13.53 kg, participated in the study. All volunteers were habitual HB smokers for 3.29 +/- 1.90 years who smoked at least 3 runs per week with an average of 20 g Mua'sel per run. Volunteers were requested to avoid smoking, at least 84 hours prior to the time of the study. After baseline samples were taken, volunteers started smoking 20 g of Mua'sel for a period of 45 minutes. Heparinized blood samples (5 or 10 ml each) were drawn for nicotine and cotinine analysis before, during and after the smoking period. Saliva samples were collected just before smoking (time 0) and at the end of smoking (45 min). Urine also was collected at time 0 and 24-hour urine collection was also taken to measure nicotine and cotinine excretion. Nicotine and cotinine were extracted from samples and assayed by gas chromatography. All data are presented as mean +/- SEM throughout the text, Tables and Figures unless indicated otherwise. RESULTS: Plasma nicotine levels rose from 1.11 +/- 0.62 ng/ml at baseline to a maximum of 60.31 +/- 7.58 ng/ml (p < 0.001) at the end of smoking (45 min). Plasma cotinine levels increased from 0.79 +/- 0.79 ng/ml at baseline to its highest concentration of 51.95 +/- 13.58 ng/ml (p < 0.001) 3 hours following the end of smoking. Saliva nicotine levels significantly rose from 1.05 +/- 0.72 to 624.74 +/- 149.3 ng/ml and also saliva cotinine levels significantly increased from 0.79 +/- 0.79 ng/ml to 283.49 +/- 75.04 ng/ml. Mean amounts of nicotine and cotinine excreted in urine during the 24-hour urine collection following smoking were equal to 73.59 +/- 18.28 and 249 +/- 54.78 microg, respectively. CONCLUSION: Following a single run of HB smoking, plasma, saliva and urinary nicotine and cotinine concentration increased to high values. This observation suggests that HB may not be an innocent habit, as people believe.     

An investigation of the cause of accumulation of verapamil during regular dosing in patients.

The accumulation of verapamil during regular dosing conditions was studied. Plasma concentrations of verapamil (V) and norverapamil (NV) were measured as were urinary concentrations of verapamil, norverapamil, and four other N- and O-dealkylated metabolites in nine patients after an initial single dose and after chronic oral verapamil administration to steady-state plasma concentrations. Indocyanine green (ICG) clearance was determined immediately prior to the initial verapamil dose and prior to the verapamil washout from regular dosing. An approximately two-fold accumulation of V had occurred during regular dosing. The area under the plasma concentration-time curve (AUC1) after the first dose was 417.4 +/- 276.7 ng ml-1 h (mean +/- s.d.) and increased to 786.5 +/- 54 ng ml-1 h (P less than 0.01) during one dosage interval at steady-state (AUCss). NV also tended to accumulate from an AUC1 of 552.6 +/- 411 to an AUCss 668.7 +/- 332 ng ml-1 h (P less than 0.09). The ratio of AUC-V to AUC-NV was unchanged. The verapamil elimination half-life (t 1/2) increased from 8.4 +/- 4.2 to 12.0 +/- 3.6 h (P less than 0.01) whereas the norverapamil t 1/2 was unchanged. ICG clearance was unchanged. Urinary excretion of NV increased slightly but the ratio of urinary V/NV concentrations was not significantly altered nor was the ratio of four other metabolites to verapamil or the ratio of the combined o-demethylated to the N-dealkylated metabolites.(ABSTRACT TRUNCATED AT 250 WORDS)     

Absolute bioavailability and noncompartmental analysis of intravenous and intramuscular Cefotan (cefotetan) in normal volunteers

Cefotetan (1 g) was administered to 12 normal volunteers as a 30 minute intravenous infusion and as an intramuscular injection. The pharmacokinetic parameters were estimated using noncompartmental analysis. The mean +/- SD maximum plasma concentration, terminal half-life, and systemic clearance after intravenous infusion were 158 +/- 21 micrograms/mL, 4.54 +/- 1.05 hours, and 29.1 +/- 3.8 mL/min/1.73 m2, respectively. Renal clearance and nonrenal clearance accounted for 63.1% and 36.9% of the systemic clearance, respectively. The mean +/- SD maximum plasma concentration, time to maximum concentration, terminal half-life, and absolute bioavailability after intramuscular injection were 75.5 +/- 8.7 micrograms/mL, 1.33 +/- 0.48 hours, 4.32 +/- 0.77 hours, and 0.931 +/- 0.193, respectively. Moment analysis gave average +/- SD mean residence times (MRT) of 4.98 +/- 0.75 and 5.86 +/- 0.77 hours after intravenous and intramuscular administration, respectively. The average +/- SD mean absorption time (MAT) after intramuscular injection was 1.11 +/- 0.57 hours. The mean +/- SD steady-state volume of distribution after intravenous infusion was 0.129 +/- 0.024 L/kg. The mean +/- SD cumulative percentage of the dose excreted in the urine in 24 hours were 61.1 +/- 11.4% and 50.4 +/- 13.5% after intravenous and intramuscular dosing, respectively. The maximum urinary cefotetan concentrations occurred during the first 2 hours after dosing by both routes of administration. Cefotetan tautomer was detected in the plasma and urine of all subjects after both routes of administration, but the mean concentrations were only minimal compared to those for cefotetan. In conclusion, intramuscular cefotetan (1 g) is rapidly and almost completely absorbed.(ABSTRACT TRUNCATED AT 250 WORDS)