Pharmacokinetics of fosphenytoin in patients with hepatic or renal disease.

PURPOSE: The pharmacokinetic behavior of fosphenytoin (FOS), the water-soluble prodrug of phenytoin (PHT), has been characterized in normal subjects. This is the first study of the effect of hepatic or renal disease on the rate and extent of conversion of FOS to PHT. METHODS: A single dose of fosphenytoin (250 mg over a period of 30 min) was administered to subjects with hepatic cirrhosis (n = 4), renal disease requiring maintenance hemodialysis (n = 4), and healthy controls (n = 4). Serial plasma concentrations were measured, and pharmacokinetic parameters were calculated. RESULTS: The mean time to reach the peak plasma FOS concentration was similar for each of the three groups. However, the mean time to achieve peak plasma concentrations of PHT tended to occur earlier in the hepatic or renal disease groups than in healthy subjects. The half-life of FOS was 4.5, 9.2, and 9.5 min for the three groups, respectively. There was a trend toward increased FOS clearance and earlier peak PHT concentration in subjects with hepatic or renal disease. This finding is consistent with decreased binding of FOS to plasma proteins and increased fraction of unbound FOS resulting from decreased plasma protein concentrations associated with these disease states. The conversion of FOS to PHT was equally efficient in subjects with hepatic or renal disease and healthy subjects. CONCLUSIONS: Although the differences in pharmacokinetic parameters between the three groups were not statistically significant, these data suggest the need for close clinical monitoring during FOS administration to patients with hepatic or renal disease. To minimize the incidence of adverse effects in this patient population, FOS may need to be administered at lower doses or infused more slowly.

Initial safety, tolerability pharmacodynamics, and pharmacokinetics of CI-1007 in patients with schizophrenia.

CI-1007 is a novel dopamine autoreceptor agonist and partial dopamine D2/D3 agonist that is currently under development for the treatment of schizophrenia. This single-blind, rising, multiple-dose, inpatient bridging study was designed to evaluate the safety and tolerability of CI-1007 in consecutive panels of patients with schizophrenia. Following a 4-day placebo washout period, 16 patients (4 per panel) were assigned to receive one of four fixed-dosage regimens of CI-1007 (5, 10, 15, or 20 mg q12h for 9 doses). CI-1007 was generally well tolerated over the dose range evaluated. Adverse events, including mild to moderate sporadic orthostatic hypotension and/or nausea and vomiting, were most commonly observed after the initial drug dose and decreased after repeated dosing. Serum concentrations of growth hormone (GH) increased following the administration of CI-1007, confirming its central dopamine agonist activity. Changes in serum prolactin were not related to dose. The pharmacokinetics of CI-1007 and its active metabolite appear linearly related to dose. The results of this study suggest that patients with schizophrenia tolerate slightly higher initial doses of CI-1007 than do healthy subjects.

Gabapentin does not interact with a contraceptive regimen of norethindrone acetate and ethinyl estradiol.

Anticonvulsants that induce hepatic metabolism increase clearance of oral contraceptive hormones and thereby cause contraceptive failure. Gabapentin is not metabolized in humans and has little liability for causing metabolic-based drug-drug interactions. In healthy women receiving 2.5 mg norethindrone acetate and 50 microg ethinyl estradiol daily for three consecutive menstrual cycles, concurrent gabapentin administration did not alter the steady-state pharmacokinetics of either hormone. Thus, gabapentin is unlikely to cause contraceptive failure.

PIP: Anticonvulsants that induce hepatic metabolism increase the clearance of synthetic estrogens and progestogens used in oral contraceptives (OCs), thereby potentiating contraceptive failure. In contrast, the anticonvulsant drug gabapentin is not metabolized in humans and has little liability for metabolic-based drug interactions. The present study sought to confirm whether concurrent administration of gabapentin would alter the pharmacokinetics of norethindrone acetate (2.5 mg) and ethinyl estradiol (50 mcg) in healthy US women. A total of 13 women were enrolled for three menstrual cycles each. Pharmacokinetic values did not change appreciably as a result of the addition of gabapentin. The rate and extent of absorption of both hormones were unaffected by the anticonvulsant. Gabapentin plasma concentration time profiles and pharmacokinetic values from this study were similar to historical values after administration of gabapentin alone. The observed lack of interaction between gabapentin and norethindrone acetate or ethinyl estradiol is consistent with the fact that gabapentin is not metabolized, is not an inducer or inhibitor of hepatic drug metabolizing enzymes, is absorbed via a specific transport system for amino acids, and is not bound to plasma proteins. Anticonvulsant drugs that do not interact with OCs should be considered for the treatment of epileptic women of childbearing age who are using this method of fertility control.

Effect of age, gender, and race on steady state procainamide pharmacokinetics after administration of procanbid sustained-release tablets.

Procainamide hydrochloride is a Class 1A antiarrhythmic agent administered intravenously or orally for treatment of symptomatic ventricular premature depolarizations (VPD), nonsustained ventricular tachycardia, and life-threatening ventricular arrhythmias. A new sustained-release formulation, Procanbid, which allows for twice-daily dosing was recently approved for marketing in the United States. This paper describes the population pharmacokinetics of procainamide and N-acetylprocainamide (NAPA), the major metabolite, in healthy volunteers and patients with VPD by combining Cmax, tmax, Cmin, and AUC(0-12) values at steady state from six multiple-dose studies in which one 1000-mg or two 500-mg Procanbid tablets were administered. Means of parameters by race and gender were inspected for trends likely to be of clinical relevance. Procainamide and NAPA pharmacokinetic parameters observed after administration of Procanbid tablets were similar in blacks and whites, and in men and women. However, differences in body size should be considered when determining the Procanbid dose for women. Participant age had significant impact on NAPA pharmacokinetics in this study population and should be considered in dose selection. Age effects on procainamide were not detected in the study population, which was heavily weighted toward younger subjects, but are anticipated in the older population of patients for which procainamide is indicated. Procanbid formulation performance was not altered by patient demographics.

Pharmacokinetics of a 7-day 17 beta-estradiol transdermal delivery system: effect of application site and repeated applications on serum concentrations of estradiol and estrone.

FemPatch (Parke-Davis Pharmaceutical Research, Division of Warner-Lambert Company, Ann Arbor, MI), a new 7-day 17 beta-estradiol transdermal delivery system (TDS), has been developed for treatment of menopausal vasomotor symptoms. This two-period crossover study was conducted to determine the effects of TDS application site (buttocks versus abdomen) and early TDS replacement on estradiol and estrone concentrations, and to quantify intersubject and intrasubject pharmacokinetic variability. Eighteen healthy, postmenopausal female volunteers received a single 7-day TDS application to the abdomen and repeated TDS applications to the buttocks (regular replacement on days 7 and 14, intentional early replacement on day 17, and removal on day 21). Serial serum samples were assayed for estradiol and estrone by validated radioimmunoassay methods. The 7-day TDS delivers estradiol at a constant, near zero-order rate for the duration of application, independent of application site. Mean serum estradiol concentrations were higher after application to the buttocks than after application to the abdomen (19 and 15 pg/mL above baseline, respectively), making the buttocks the preferred site for TDS application. Mean serum concentration of estradiol was slightly higher (23 pg/mL above baseline) for the treatment week with early TDS replacement due to the transient increase in concentration over the first 24 hours after replacement. Parallel but smaller increases in concentrations of estrone were observed. Serum estradiol and estrone concentrations are reproducible within an individual from application to application (coefficient of variation, 25%). Variability between individuals was higher (coefficient of variation, 40-50%).

Characterization of a 7 day 17 beta-estradiol transdermal delivery system: pharmacokinetics in healthy postmenopausal women.

To assess the delivery characteristics of a new 7 day 17 beta-estradiol transdermal delivery system (TDS), estradiol and estrone pharmacokinetics were evaluated following a single 7 d application of one TDS or two TDSs in 24 healthy, postmenopausal women in a nonblind, randomized, two-period crossover study. Serial blood samples and total urine output were collected before (baseline measurement of endogenous hormone) and during TDS application, and for 24 h (urine) or 72 h (blood) following TDS removal. Serum was assayed for estradiol and estrone by a validated radioimmunoassay (RIA) method. The combined amounts of estradiol and its conjugates, and estrone and its conjugates in urine were determined by validated RIA methods. Overall, one or two estradiol TDSs were well tolerated by healthy, postmenopausal female volunteers. Estradiol absorption from the TDS was characterized by a zero-order process and was dose proportional, resulting in average steady-state serum estradiol concentrations of 16 and 33 pg mL-1 above baseline during the 7 d application of one and two TDSs, respectively. Parallel but smaller increases in serum estrone concentrations were observed, resulting in an increase in the serum estradiol/estrone concentration ratio from approximately 0.2 at baseline to median values of 0.64 and 0.88 during application of one and two TDSs, respectively. The 7 day 17 beta-estradiol TDS delivered a nominal estradiol dose of 0.02 mg/24 h during the intended wear period.

Pharmacology and pharmacokinetics of fosphenytoin.

Fosphenytoin sodium, a phosphate ester prodrug of phenytoin, was developed as a replacement for parenteral phenytoin sodium. Unlike phenytoin, fosphenytoin is freely soluble in aqueous solutions, including standard i.v. solutions, and is rapidly absorbed by the i.m. route. Fosphenytoin is metabolized (conversion half-life of 8 to 15 min) to phenytoin by endogenous phosphatases. Therapeutic free (unbound) and total plasma phenytoin concentrations are consistently attained after i.m. or i.v. administration of fosphenytoin loading doses. Fosphenytoin has fewer local adverse effects (e.g., pain, burning, and itching at the injection site) after i.m. or i.v. administration than parenteral phenytoin. Systemic effects related to the CNS are similar for both preparations, but transient paresthesias are more common with fosphenytoin.

Disposition of gabapentin in anuric subjects on hemodialysis.

Gabapentin is an anticonvulsant drug, which in man is cleared solely by renal excretion and is not bound to plasma proteins. Because the clearance of gabapentin is dependent on renal function, the pharmacokinetics of gabapentin were investigated in anuric subjects maintained on hemodialysis. Plasma samples were obtained over an 8-day period after administration of single oral 400-mg doses of gabapentin. Pre- and post-dialyzer plasma samples and dialysate samples from quantitative collection of dialyzer effluent were obtained during hemodialysis sessions performed 2, 4, and 7 days after dosing. A mean (SD) maximum gabapentin plasma concentration of 6.0 (2.4) micrograms/mL was achieved at 4.7 (2.1) hours post-dose. The elimination half-life of gabapentin on non-hemodialysis days averaged 132 hours. Approximately 35% of the gabapentin dose was recovered in dialysate, and mean hemodialysis clearance of gabapentin was 142 (26) mL/min; approximately 93% of the dialyzer creatinine clearance. Gabapentin elimination half-life during hemodialysis was approximately 4 hours. Systemic plasma gabapentin concentrations increased approximately 30% during the first 2 hours after hemodialysis as a result of drug redistribution in the body. It is recommended that patients with end-stage renal disease maintained on hemodialysis receive an initial 300-mg to 400-mg gabapentin loading dose. Plasma gabapentin concentrations can be maintained by giving 200 to 300 mg of gabapentin after every 4 hours of hemodialysis.

Clinical pharmacokinetics and relative bioavailability of oral procaterol.

The pharmacokinetics and relative oral bioavailability of procaterol, an orally active beta 2-adrenergic agonist bronchodilator were evaluated in healthy volunteers. Procaterol was rapidly absorbed after oral administration. Mean plasma procaterol concentration-time profiles and pharmacokinetic parameters for both formulations were essentially superimposable. Following tablet administration, the mean Cmax was 358 pg/mL and the corresponding mean tmax was 1.6 hr. Mean renal clearance was 163 mL/min and accounted for approximately one-sixth of the mean apparent oral plasma clearance (988 mL/min). The mean apparent elimination half-life of procaterol was 4.2 hr. Hepatic metabolism appears to be the primary mechanism for elimination of procaterol from the body, and first-pass metabolism may limit systemic bioavailability.

Effects of oral cimetidine or ranitidine on the pharmacokinetics of intravenous enoxacin.

Enoxacin is a quinolone antibacterial agent currently being developed for oral and intravenous treatment of bacterial infections. Ten healthy subjects received a single 400-mg intravenous dose of enoxacin alone, with 300 mg (four times daily) oral cimetidine and with 150 mg (twice daily) oral ranitidine. Serial blood and urine samples were collected over a 48-hour period. Plasma and urine enoxacin concentrations were determined using a validated high-performance liquid chromatographic method. Mean enoxacin plasma concentrations were higher after administration of enoxacin with cimetidine than those measured after enoxacin alone or enoxacin with ranitidine. Cimetidine coadministration reduced enoxacin renal clearance by 26% and systemic clearance by 20%, and resulted in a 30% increase in elimination half-life. In contrast, concurrent ranitidine therapy did not significantly alter the pharmacokinetics of intravenous enoxacin.

Clinical pharmacokinetics of procaterol: dose proportionality after administration of single oral doses.

Procaterol is a potent, orally active beta 2-agonist bronchodilator useful in the treatment of reversible bronchospastic disease. It is effective when administered as single or multiple (Q8H) 50 and 75 micrograms doses. As part of the clinical development of procaterol, the pharmacokinetics and dose proportionality of single 25, 50, 75, and 100 micrograms doses were investigated in 14 healthy subjects. Serial blood samples were collected for 16 h and urine was quantitatively collected for 48 h following administration of each dose. Procaterol concentrations in plasma and urine were determined using sensitive and specific radioimmunoassay methods. Mean values for tmax, the apparent elimination rate constant, Cl/F, renal clearance, and per cent of dose excreted unchanged in urine were similar for all doses. Dose-normalized AUC, Cmax, and amount excreted unchanged in urine (Ae) were also similar across dosage levels. Thus, the pharmacokinetics of procaterol appear to be proportional to dose over the range of doses studied.

Safety and tolerability of single intravenous doses of T cell modulatory peptide (TCMP-80) in healthy volunteers.

T Cell Modulatory Peptide (TCMP-80), L-lysine-L-serine, is a synthetic dipeptide structurally related to a selected amino acid sequence in human immunoglobulin G. Based on in vitro and preclinical in vivo testing, TCMP-80 has immunomodulatory properties. This report describes the first administration of TCMP-80 to man in a randomized, double-blind, placebo-controlled, single rising-dose tolerability trial. Healthy male volunteers received TCMP-80 or placebo as a 10-minute intravenous infusion. At weekly intervals, two of four subjects were given TCMP-80; the remaining two received placebo. Each subject could receive only one dose during the study. Dosing started at 0.01 mg/kg and was increased to 0.03, 0.1, 0.3, 1, 3, 6.5, and 10 mg/kg. CBCs, blood chemistries, urinalyses, and lymphocyte subset populations were monitored predose and postdose on Days 1, 5, and 14. Three placebo and three TCMP-80 subjects reported adverse events. Adverse events reported after TCMP-80 administration were mild in nature (headache, dizziness, hematoma at injection site), appeared to be independent of dose, and resolved without medical intervention. No clinically significant alterations in vital signs, physical examination parameters, or clinical laboratory values were observed. Based on the results of this study, TCMP-80 is safe and well-tolerated within the dose range studied when administered as single intravenous infusions. Additionally, this study design represents an approach to assess the safety of an investigational immunomodulatory drug.

Differences in oral verapamil absorption as a function of time of day.

As part of a multiple dose bioavailability study, 80-mg verapamil hydrochloride tablets were administered to healthy subjects every 8 hours for 15 doses. Statistically significant successive decreases in verapamil maximum plasma concentrations (Cmax) and area under the concentration-time curve (AUC) values were observed corresponding to dosing at 8 AM, 4 PM, and 12 AM. Mean Cmax and AUC values from the 12 AM dose were decreased 36% and 30%, respectively, relative to those from the 8 AM dose. Similar effects on norverapamil pharmacokinetics were observed. Decreased Cmax and AUC values show that verapamil absorption is influenced by the time of day when doses are administered. Pharmacokinetic simulation results suggest that the rate of absorption is reduced approximately by one half and two thirds during the 4 PM and 12 AM dosing intervals, respectively, relative to the 8 AM dosing interval. The reductions in verapamil absorption as a function of time of administration observed in this study may in part explain previous reports of reduced antihypertensive effect during evening and night hours as compared to daytime hours.

Bioavailability of propranolol hydrochloride tablet formulations: application of multiple dose crossover studies.

Two multiple dose crossover pharmacokinetic studies were carried out to determine the steady-state bioavailability of newly formulated generic propranolol HCl tablets relative to Inderal tablets. In Study I, 24 healthy volunteers were dosed with 4 x 10 mg test tablets, 1 x 40 mg test tablet, 4 x 10 mg Inderal tablets, and 40 mg of propranolol HCl in solution. In Study II, 24 healthy volunteers were dosed with 1 x 80 mg test tablet, 1 x 80 mg Inderal tablet, and 80 mg of propranolol HCl in solution. Both studies were of randomized design with each formulation administered every 8 h for 15 doses. Serial plasma samples were obtained for 8 h after morning doses on Days 4 and 5 of each treatment period and assayed for propranolol using a validated HPLC method. Mean plasma concentration-time data for test tablets and reference tablets were superimposable in both studies. Pharmacokinetic parameters from Days 4 and 5 were combined for statistical analysis since subjects were determined to have reached steady-state. Mean AUC, Cmax, tmax, and Cmin values were not statistically different between test tablets and Inderal tablets in either study. Based on these findings, the test tablets demonstrated the same rate and extent of propranolol absorption as did corresponding Inderal tablets. Therefore, the test tablets and Inderal tablets were determined to be bioequivalent.

Lack of effect of withdrawal from cigarette smoking on theophylline pharmacokinetics.

The intravenous disposition of theophylline was determined in 12 healthy young male smokers during periods of smoking and short-term withdrawal (24 to 36 hours), using a crossover design. Median half-life, clearance, volume of distribution, hepatic extraction, and intrinsic clearance of theophylline during withdrawal were within +/- 5% of the corresponding median control (smoking) parameters and were normal in comparison with values published for smokers. The lack of change in the pharmacokinetic profile of theophylline indicates that adjustment of the dosage regimen should not be necessary immediately after smoking withdrawal.

The effect of acute withdrawal from cigarette smoking on indocyanine green and antipyrine clearance.

The effects of acute withdrawal from cigarette smoking on indocyanine green (ICG) clearance and antipyrine pharmacokinetics were studied in healthy young male volunteers. Two separate crossover clinical trials, each using 12 subjects, were used to compare the disposition of the drugs from 24 to 36 hours after withdrawal to the disposition found under control conditions. The median difference of ICG clearance and all antipyrine pharmacokinetic parameters from smoking control was less than 13%, indicating that short-term smoking withdrawal had no effect large enough to be of clinical significance on hepatic blood flow or hepatic drug-metabolizing capacity. Rates of hepatic blood flow were normal in comparison with values published for larger sample populations. The lack of any clinically significant effect of smoking withdrawal on hepatic blood flow or on the disposition of antipyrine, a drug with very low hepatic extraction, indicates that on a pharmacokinetic basis, changes in dosage regimens for most drugs are not necessary on acute withdrawal from smoking.