Your search keyword '"Posvar EL"' showing total 19 results

1. The pharmacokinetics of quinapril and quinaprilat in patients with congestive heart failure.

Author

Begg, EJ, primary, Robson, RA, additional, Ikram, H, additional, Richards, AM, additional, Bammert-Adams, JA, additional, Olson, SC, additional, Posvar, EL, additional, Reece, PA, additional, and Sedman, AJ, additional

Published

1994

2. Pharmacokinetics of pregabalin in subjects with various degrees of renal function.

Author

Randinitis EJ, Posvar EL, Alvey CW, Sedman AJ, Cook JA, and Bockbrader HN

Abstract

The objectives of this study were to determine the single-dose pharmacokinetics of pregabalin in subjects with various degrees of renal function, determine the relationship between pregabalin clearance and estimated creatinine clearance (CLcr), and measure the effect of hemodialysis on plasma levels of pregabalin. Results form the basis of recommended pregabalin dosing regimens in patients with decreased renal function. Thirty-eight subjects were enrolled to ensure a wide range of renal function (CLcr < 30 mL/min, n = 8; 30-50, n = 5; 50-80, n = 7; and > 80, n = 6). Also enrolled were 12 subjects with renal impairment requiring hemodialysis. Each subject received 50 mg of pregabalin as two 25-mg capsules in this open-label, parallel-group study. Pregabalin concentrations were measured using previously validated liquid chromatographic methods. Pregabalin pharmacokinetic parameters were evaluated by established noncompartmental methods. Pregabalin was rapidly absorbed in all subjects. Total and renal pregabalin clearance were proportional (56% and 58%, respectively) to CLcr. As a result, area under the plasma concentration-time profile (AUC) and terminal elimination half-life (t1/2) values increased with decreasing renal function. Pregabalin dosage adjustment should be considered for patients with CLcr < 60 mL/min. A 50% reduction in pregabalin daily dose is recommended for patients with CLcr between 30 and 60 mL/min compared to those with CLcr > 60 mL/min. Daily doses should be further reduced by approximately 50% for each additional 50% decrease in CLcr. Pregabalin was highly cleared by hemodialysis. Supplemental pregabalin doses may be required for patients on chronic hemodialysis treatment after each hemodialysis treatment to maintain steady-state plasma pregabalin concentrations within desired ranges. [ABSTRACT FROM AUTHOR]

Published

2003

3. Single-dose gabapentin pharmacokinetics and safety in healthy infants and children.

Author

Haig GM, Bockbrader HN, Wesche DL, Boellner SW, Ouellet D, Brown RR, Randinitis EJ, and Posvar EL

Abstract

Gabapentin (Neurontin) is a gamma-aminobutyric acid analogue indicated in adults for adjunctive treatment of partial seizures with or without secondary generalization. Two studies were conducted to determine the single-dose pharmacokinetics of gabapentin in healthy subjects age 1 month to 12 years and to guide dose selection in safety and efficacy trials in pediatric patients. Forty-eight subjects were given single oral doses of gabapentin (10 mg/kg) while fasting. Enrollment was homogeneously distributed throughout the age range. Plasma samples were drawn predose and then serially for 24 hours postdose. Single doses of gabapentin were well tolerated by healthy pediatric subjects. Plots of pharmacokinetic parameters versus age suggested significant differences between younger (1 month to < 5 years) and older (> or =5 to 12 years) subjects. Mean area under the plasma concentration-time curve from zero to infinity (AUC(0-infinity)) was 25.6 microg x h/mL in younger subjects and 36.0 microg x h/mL in older subjects (p < 0.001). Corresponding mean peak plasma concentrations (Cmax) were 3.74 and 4.52 microg/ml (p < 0.05). Oral clearance (normalized for body weight) was 7.40 and 4.41 mL/min/kg in younger subjects and older subjects, respectively (p < 0.001). It was concluded that children between 1 month and < 5 years of age require approximately 30% higher daily doses of gabapentin than those > or =5 to 12 years of age. [ABSTRACT FROM AUTHOR]

Published

2001

4. Clinical pharmacokinetics of pregabalin in healthy volunteers.

Author

Bockbrader HN, Radulovic LL, Posvar EL, Strand JC, Alvey CW, Busch JA, Randinitis EJ, Corrigan BW, Haig GM, Boyd RA, and Wesche DL

Subjects

Administration, Oral, Adult, Analgesics blood, Analgesics urine, Anticonvulsants blood, Anticonvulsants urine, Area Under Curve, Biological Availability, Cross-Over Studies, Dose-Response Relationship, Drug, Double-Blind Method, Food-Drug Interactions, Half-Life, Humans, Metabolic Clearance Rate, Middle Aged, Pregabalin, gamma-Aminobutyric Acid blood, gamma-Aminobutyric Acid pharmacokinetics, gamma-Aminobutyric Acid urine, Analgesics pharmacokinetics, Anticonvulsants pharmacokinetics, gamma-Aminobutyric Acid analogs & derivatives

Abstract

Pregabalin has shown clinical efficacy for treatment of neuropathic pain syndromes, partial seizures, and anxiety disorders. Five studies in healthy volunteers are performed to investigate single- and multiple-dose pharmacokinetics of pregabalin. Pregabalin is rapidly absorbed following oral administration, with peak plasma concentrations occurring between 0.7 and 1.3 hours. Pregabalin oral bioavailability is approximately 90% and is independent of dose and frequency of administration. Food reduces the rate of pregabalin absorption, resulting in lower and delayed maximum plasma concentrations, yet the extent of drug absorption is unaffected, suggesting that pregabalin may be administered without regard to meals. Pregabalin elimination half-life is approximately 6 hours and steady state is achieved within 1 to 2 days of repeated administration. Corrected for oral bioavailability, pregabalin plasma clearance is essentially equivalent to renal clearance, indicating that pregabalin undergoes negligible nonrenal elimination. Pregabalin demonstrates desirable, predictable pharmacokinetic properties that suggest ease of use. Because pregabalin is eliminated renally, renal function affects its pharmacokinetics.

Published

2010

5. Pregabalin drug interaction studies: lack of effect on the pharmacokinetics of carbamazepine, phenytoin, lamotrigine, and valproate in patients with partial epilepsy.

Author

Brodie MJ, Wilson EA, Wesche DL, Alvey CW, Randinitis EJ, Posvar EL, Hounslow NJ, Bron NJ, Gibson GL, and Bockbrader HN

Subjects

Adolescent, Adult, Aged, Anticonvulsants therapeutic use, Carbamazepine pharmacokinetics, Drug Interactions, Drug Therapy, Combination, Epilepsies, Partial blood, Epilepsies, Partial metabolism, Female, Humans, Lamotrigine, Male, Middle Aged, Phenytoin pharmacokinetics, Pregabalin, Triazines pharmacokinetics, Valproic Acid pharmacokinetics, gamma-Aminobutyric Acid pharmacokinetics, gamma-Aminobutyric Acid pharmacology, gamma-Aminobutyric Acid therapeutic use, Anticonvulsants pharmacokinetics, Anticonvulsants pharmacology, Epilepsies, Partial drug therapy, gamma-Aminobutyric Acid analogs & derivatives

Abstract

Purpose: Pregabalin (PGB) is an alpha2-delta ligand with demonstrated efficacy in epilepsy, neuropathic pain, and anxiety disorders. PGB is highly efficacious as adjunctive therapy in patients with refractory partial seizures., Methods: Given its efficacy as adjunctive therapy, the potential for interaction of PGB with other antiepileptic drugs (AEDs) was assessed in patients with partial epilepsy in open-label, multiple-dose studies. Patients received PGB, 600 mg/day (200 mg q8h) for 7 days, in combination with their individualized maintenance monotherapy with valproate (VPA), phenytoin (PHT), lamotrigine (LTG), or carbamazepine (CBZ)., Results: Trough steady-state concentrations of CBZ (and its epoxide metabolite), PHT, LTG, and VPA were unaffected by concomitant PGB administration. Likewise, PGB steady-state pharmacokinetic parameter values were similar among patients receiving CBZ, PHT, LTG, or VPA and, in general, were similar to those observed historically in healthy subjects receiving PGB alone. The PGB-AED combinations were generally well tolerated. PGB may be added to VPA, LTG, PHT, or CBZ therapy without concern for pharmacokinetic drug-drug interactions.

Published

2005

6. Quinapril and its metabolite quinaprilat in human milk.

Author

Begg EJ, Robson RA, Gardiner SJ, Hudson LJ, Reece PA, Olson SC, Posvar EL, and Sedman AJ

Subjects

Adolescent, Adult, Angiotensin-Converting Enzyme Inhibitors metabolism, Angiotensin-Converting Enzyme Inhibitors pharmacokinetics, Breast Feeding, Female, Humans, Isoquinolines blood, Isoquinolines metabolism, Middle Aged, Milk, Human chemistry, Quinapril, Isoquinolines pharmacokinetics, Milk, Human metabolism, Tetrahydroisoquinolines

Abstract

Aims: To measure the milk to plasma ratio (M/P) of quinapril and its active metabolite quinaprilat in lactating mothers and to assess likely infant exposure., Methods: A single dose of quinapril 20 mg was administered to six healthy mothers who had been breastfeeding their infants for at least 2 weeks. Blood was sampled for the measurement of quinapril and quinaprilat at 0, 0.5, 1, 1.5, 2, 3, 4, 6, 8, 12, 16 and 24 h. Milk was collected for measurement of quinapril and quinaprilat concentrations over the periods -4-0, 0-4, 4-8, 8-12, 12-18, 18-24 h. The areas under the plasma and milk concentration-time curves were estimated and an M/P ratio derived for both quinapril and quinaprilat., Results: The M/P ratio for quinapril was 0.12 (95% CI 0.09,0.14). No quinapril was detected in milk after 4 h. No quinaprilat was detected in any of the milk samples. The estimated 'dose' of quinapril that would be received by the infant was 1.6% (95% CI 1.0,2.2) of the maternal dose, adjusted for respective weights., Conclusions: Quinapril appears to be 'safe' during breastfeeding according to conventional criteria, although as always, the risk:benefit ratio should be considered when it is to be given to a nursing mother.

Published

2001

7. Minimal androgenic activity of a new oral contraceptive containing norethindrone acetate and graduated doses of ethinyl estradiol.

Author

Boyd RA, Zegarac EA, Posvar EL, and Flack MR

Subjects

Adult, Contraceptives, Oral pharmacokinetics, Contraceptives, Oral pharmacology, Ethinyl Estradiol pharmacokinetics, Ethinyl Estradiol pharmacology, Female, Humans, Kinetics, Norethindrone analogs & derivatives, Norethindrone pharmacokinetics, Norethindrone pharmacology, Norethindrone Acetate, Sex Hormone-Binding Globulin analysis, Testosterone blood, Androgens blood, Androgens pharmacology, Contraceptives, Oral administration & dosage, Ethinyl Estradiol administration & dosage, Norethindrone administration & dosage

Abstract

The pharmacokinetics and androgenic activity of Estrostep, a new oral contraceptive providing low-dose estrogen in a graduated sequence with a constant dose of progestin, were characterized in an open-label, nonrandomized study in 17 normally cycling women treated for three cycles with Estrostep. Women received 1 mg of norethindrone acetate daily combined with 20 microg of ethinyl estradiol daily for the first 5 days (1/20), 30 microg of ethinyl estradiol daily for the next 7 days (1/30), and 35 microg of ethinyl estradiol daily for 9 days (1/35). No medication was given for 7 days in each cycle to allow for withdrawal bleeding. Serial blood samples for the measurement of ethinyl estradiol and norethindrone concentrations were collected on days 5, 12, and 21 of the third treatment cycle for the 1/20, 1/30, and 1/35 dose, respectively. Sex hormone-binding globulin (SHBG) and free testosterone were measured at baseline, on day 1 of cycles 2 and 3 (SHBG only), and on days 5, 12, and 21 of cycle 3. Mean steady-state plasma ethinyl estradiol and norethindrone concentrations increased over cycle 3. The increases in ethinyl estradiol concentrations were proportional to dose. The increases in norethindrone concentrations were related to ethinyl estradiol-dependent increases in SHBG concentrations, which were 218%, 253%, and 296% of baseline values on days 5, 12, and 21, respectively. Mean plasma free testosterone concentrations decreased 47%, 60%, and 64% below baseline on days 5, 12, and 21 of cycle 3, respectively. Graduated ethinyl estradiol doses combined with a constant norethindrone acetate dose progressively increase SHBG and decrease free testosterone, which overrides any theoretic concerns of androgenic activity of norethindrone acetate. Although true androgenic activity can be determined only by assessing endpoints such as acne, hirsutism, and lipids in large controlled trials, the observed changes in circulating SHBG and free testosterone concentrations indicate that Estrostep has little, if any, intrinsic androgenic activity.

Published

2001

8. Multiple-dose pharmacokinetics, pharmacodynamics, and safety of atorvastatin, an inhibitor of HMG-CoA reductase, in healthy subjects.

Author

Cilla DD Jr, Whitfield LR, Gibson DM, Sedman AJ, and Posvar EL

Subjects

Adult, Anticholesteremic Agents administration & dosage, Anticholesteremic Agents adverse effects, Anticholesteremic Agents pharmacokinetics, Area Under Curve, Atorvastatin, Cholesterol blood, Dose-Response Relationship, Drug, Double-Blind Method, Drug Administration Schedule, Enzyme Inhibitors administration & dosage, Enzyme Inhibitors adverse effects, Enzyme Inhibitors pharmacokinetics, Female, Half-Life, Heptanoic Acids administration & dosage, Heptanoic Acids adverse effects, Heptanoic Acids pharmacokinetics, Humans, Least-Squares Analysis, Linear Models, Male, Middle Aged, Pyrroles administration & dosage, Pyrroles adverse effects, Pyrroles pharmacokinetics, Reference Values, Acyl Coenzyme A antagonists & inhibitors, Anticholesteremic Agents pharmacology, Enzyme Inhibitors pharmacology, Heptanoic Acids pharmacology, Pyrroles pharmacology

Abstract

This study examined the pharmacokinetics, pharmacodynamics, and safety of atorvastatin, an investigational inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, in 50 healthy subjects by means of a randomized, double-blind parallel-group design. Volunteers received rising single and multiple doses of 0.5 to 80 mg/day atorvastatin (40 subjects) or placebo (10 subjects). The drug was administered once or twice daily for 14 days. Atorvastatin was well tolerated by healthy subjects. The most common adverse events reported after atorvastatin-headache and nausea-occurred as frequently after placebo. Atorvastatin peak concentration and area under the plasma concentration-time curve (AUC) values increased more than proportionally with atorvastatin dose after both single and multiple drug doses. The extent of atorvastatin absorption (AUC) was similar after once- or twice-daily drug administration. Steady-state drug concentrations were achieved by the third day of drug dosing. Mean elimination half-life values ranged from 11 to 24 hours. Atorvastatin accumulation was approximately 1.5- and 3.0-fold after once- and twice-daily administration, respectively. Atorvastatin produced dose-related reductions in total cholesterol and low-density lipoprotein cholesterol that were similar after once- and twice-daily drug administration. Reductions in mean total cholesterol and low-density lipoprotein cholesterol values ranged from 13% and 22% (2.5 mg/day) to 45% and 58% (80 mg/day), respectively (p < or = 0.0013 in comparison with placebo and with baseline over this dose range). In summary, atorvastatin doses of up to 80 mg/day were well tolerated and had significant cholesterol-lowering effects.

Published

1996

9. Tolerance and pharmacokinetics of single-dose atorvastatin, a potent inhibitor of HMG-CoA reductase, in healthy subjects.

Author

Posvar EL, Radulovic LL, Cilla DD Jr, Whitfield LR, and Sedman AJ

Subjects

Adult, Area Under Curve, Atorvastatin, Double-Blind Method, Drug Tolerance, Female, Half-Life, Humans, Male, Metabolic Clearance Rate, Middle Aged, Enzyme Inhibitors pharmacokinetics, Heptanoic Acids pharmacokinetics, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Pyrroles pharmacokinetics

Abstract

Tolerance and pharmacokinetics after single-dose administration of atorvastatin, an investigational inhibitor of HMG-CoA reductase, were examined in 22 healthy volunteers in a three-period, partially-blinded study. Participants received capsule and solution doses of atorvastatin (0.5 to 120 mg) and placebo at weekly intervals. Atorvastatin was well tolerated at doses as high as 80 mg. The adverse event profile was similar after administration of atorvastatin capsules and placebo. Atorvastatin solution was slightly less well tolerated. The most common side effect after administration of capsules and solution was headache, followed by sporadic reports of diarrhea, flatulence, and nausea. At the 120-mg solution dose, one participant experienced mild, transient restlessness, euphoria, and mental confusion that were considered to be dose-limiting side effects. Mean concentrations of atorvastatin, maximum concentration (Cmax), and area under the concentration-time curve from time 0 to the time of the last detectable concentration (AUCo-tldc) increased with increasing dose. Plasma elimination half-life (t1/2) ranged from 14.7 to 57.6 hours. The bioavailability of atorvastatin capsules was similar to that of solution. These results suggest that atorvastatin is well tolerated after single doses as high as 80 mg, and may require administration only once daily.

Published

1996

10. Hemodynamic and hormonal effects of quinaprilat in patients with congestive heart failure.

Author

Mitrovic V, Mudra H, Bonzel T, Schmidt W, Strand JC, Bakovic-Alt R, and Posvar EL

Subjects

Adult, Aged, Aldosterone blood, Angiotensin II blood, Angiotensin-Converting Enzyme Inhibitors adverse effects, Dose-Response Relationship, Drug, Double-Blind Method, Female, Heart Failure physiopathology, Humans, Injections, Intravenous, Isoquinolines adverse effects, Male, Middle Aged, Peptidyl-Dipeptidase A blood, Renin blood, Angiotensin-Converting Enzyme Inhibitors therapeutic use, Heart Failure drug therapy, Hemodynamics drug effects, Isoquinolines therapeutic use, Tetrahydroisoquinolines

Abstract

Objective: To assess the pharmacodynamic activity and safety of rising single and multiple doses of intravenous quinaprilat compared with placebo in patients with New York Heart Association (NYHA) class III and IV congestive heart failure who were receiving digitalis or diuretic therapy or both., Methods: Patients were randomly assigned to three treatment groups to receive low (0.5 to 1.0 mg), medium (1.0 and 2.5 mg), or high (5.0 and 10.0 mg) single intravenous doses of quinaprilat or placebo on day 1. On the basis of responses observed on day 1, the three treatment groups received stable multiple intravenous doses of either quinaprilat or placebo every 6 hours on days 2 and 3. Hemodynamic measurements, hormonal assessments, and safety were evaluated before and at specified intervals during the study., Results: Compared with placebo, single and multiple doses of quinaprilat increased cardiac index and reduced pulmonary capillary wedge pressure, mean arterial pressure, systemic vascular resistance, and right atrial pressure in a dose-related manner. No clinically important change in heart rate was observed. Hemodynamic changes after multiple-dose quinaprilat administration were similar to those observed after single doses and were generally sustained during the 6-hour dosing interval. Relative to placebo, quinaprilat reduced plasma angiotensin converting enzyme (ACE) activity, angiotensin II concentration, and aldosterone concentration and increased plasma renin activity; no prominent changes in plasma catecholamine and atrial natriuretic peptide concentrations were observed. There were no clinically important drug-related changes in the safety parameters., Conclusions: Single and multiple intravenous doses of 0.5 to 10 mg quinaprilat are well-tolerated and produce favorable dose-dependent hemodynamic effects and hormonal changes consistent with those expected of an ACE inhibitor in patients with NYHA class III and IV congestive heart failure.

Published

1996

11. Effect of food on the bioavailability of atorvastatin, an HMG-CoA reductase inhibitor.

Author

Radulovic LL, Cilla DD, Posvar EL, Sedman AJ, and Whitfield LR

Subjects

Administration, Oral, Adult, Atorvastatin, Biological Availability, Cross-Over Studies, Dietary Fats metabolism, Fasting blood, Female, Heptanoic Acids blood, Humans, Hydroxymethylglutaryl CoA Reductases pharmacokinetics, Male, Middle Aged, Pyrroles blood, Enzyme Inhibitors pharmacokinetics, Food-Drug Interactions, Heptanoic Acids pharmacokinetics, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Pyrroles pharmacokinetics

Abstract

To determine whether atorvastatin, a new HMG-CoA reductase inhibitor, could be administered with food in Phase II and III clinical trials, a nonblind, randomized, two-way crossover study was conducted to assess the effect of food on rate and extent of atorvastatin absorption. Sixteen healthy volunteers received single 80-mg atorvastatin capsule doses on two occasions one week apart: once after an 8-hour overnight fast and once with a medium-fat breakfast. The single 80-mg atorvastatin capsule doses were well-tolerated. Mean maximum plasma atorvastatin equivalent concentration (Cmax) and area under the concentration-time curve (AUC) values with food were 47.9% and 12.7% lower, respectively, than without food. Mean time of maximum observed concentration (tmax) and elimination half-life (t1/2) values were 5.9 and 32.0 hours, respectively, with food and 2.6 and 35.7 hours, respectively, without food. A medium-fat breakfast decreased the rate of atorvastatin absorption significantly, but had little impact on extent of drug absorption. Changes in rate of atorvastatin absorption are not expected to have a clinically significant effect, as subsequent multiple-dose clinical studies have shown that dose but not plasma atorvastatin concentration profiles correlates with lipid-lowering effects.

Published

1995

12. The temporal effect of food on tacrine bioavailability.

Author

Welty DF, Siedlik PH, Posvar EL, Selen A, and Sedman AJ

Subjects

Aged, Biological Availability, Chromatography, High Pressure Liquid, Cross-Over Studies, Humans, Intestinal Absorption, Middle Aged, Tacrine adverse effects, Tacrine blood, Food-Drug Interactions, Tacrine pharmacokinetics

Abstract

A four-way cross-over study was performed to assess the temporal effect of food on the rate and extent of tacrine (Cognex, THA) absorption after drug administration to healthy, older volunteers. Each volunteer received four single 40-mg THA doses at 1-week intervals. Doses were administered after an 8-hour overnight fast, 1 hour before a standard breakfast, 15 minutes after beginning a standard breakfast, and 2 hours after completion of a standard breakfast. Gastrointestinal side effects were most frequently reported after drug administration to fasted subjects. Mean Cmax and AUC(0-infinity) values after THA administration during breakfast (9.9 ng/mL and 70.2 ng.hr/mL) and 2 hours after breakfast (11.6 ng/mL and 74.2 ng.hour-1.mL-1) were significantly lower than values determined after administration of THA to fasting subjects (15.8 ng/mL, and 91.8 ng.hour-1.mL-1). Little effect was evident when THA was administered 1 hour before breakfast.

Published

1994

13. Lack of interaction of gabapentin with carbamazepine or valproate.

Author

Radulovic LL, Wilder BJ, Leppik IE, Bockbrader HN, Chang T, Posvar EL, Sedman AJ, Uthman BM, and Erdman GR

Subjects

Acetates blood, Acetates therapeutic use, Adult, Anticonvulsants blood, Anticonvulsants therapeutic use, Carbamazepine analogs & derivatives, Carbamazepine blood, Carbamazepine therapeutic use, Drug Interactions, Drug Therapy, Combination, Epilepsy blood, Female, Gabapentin, Humans, Male, Middle Aged, Valproic Acid blood, Valproic Acid therapeutic use, Acetates pharmacokinetics, Amines, Anticonvulsants pharmacokinetics, Carbamazepine pharmacokinetics, Cyclohexanecarboxylic Acids, Epilepsy drug therapy, Valproic Acid pharmacokinetics, gamma-Aminobutyric Acid

Abstract

Gabapentin (GBP) studies were conducted in patients with epilepsy receiving carbamazepine (CBZ, n = 12) or valproate (VPA, n = 14) monotherapy. The effects of GBP coadministration on steady-state CBZ or VPA concentrations and of these antiepileptic drugs (AEDs) on GBP pharmacokinetics were investigated. GBP (400 mg) was coadministered every 8 h for 3 1/3 days with CBZ or for 5 1/3 days with VPA. GBP was well tolerated. Mean steady-state plasma CBZ/CBZ-10,11-epoxide (CBZ-E) and serum VPA concentrations before, during, and after GBP administration were not significantly different. Mean steady-state GBP pharmacokinetic parameters during CBZ or VPA coadministration were similar to steady-state parameters reported in healthy subjects. Thus, no pharmacokinetic interaction exists between CBZ or VPA and GBP. No dosage adjustment is necessary when GBP and CBZ or VPA are coadministered.

Published

1994

14. The pharmacokinetics of quinapril and its active metabolite, quinaprilat, in patients with various degrees of renal function.

Author

Halstenson CE, Opsahl JA, Rachael K, Olson SC, Horvath AM, Abraham PA, and Posvar EL

Subjects

Administration, Oral, Adolescent, Adult, Aged, Drug Administration Schedule, Half-Life, Humans, Isoquinolines administration & dosage, Kidney Diseases physiopathology, Metabolic Clearance Rate, Middle Aged, Quinapril, Isoquinolines pharmacokinetics, Kidney Diseases metabolism, Tetrahydroisoquinolines

Abstract

Single- and multiple-dose pharmacokinetics of quinapril and its active metabolite, quinaprilat, were determined after oral administration of 20 mg quinapril HCl on day 1 and days 4 through 10 in 17 normotensive subjects with various degrees of renal function. Blood and urine samples were collected over 72- and 24-hour periods, respectively, after the first single dose and last multiple dose for measurement of quinapril and quinaprilat concentrations. The renal clearance of quinapril and quinaprilat decreased with increasing renal insufficiency but did not result in significant changes in quinapril pharmacokinetics in patients with renal impairment. In contrast, quinaprilat maximum plasma concentration, trough and peak steady-state plasma concentrations, area under the plasma concentration-time curve, and half-life increased significantly with increasing renal insufficiency. The disposition of quinapril and quinaprilat was unchanged from single to multiple doses. Small changes in the pharmacokinetic disposition of quinapril, together with a decreased rate of quinaprilat elimination, resulted in increased quinaprilat plasma concentrations following administration of both single and multiple quinapril doses to normotensive patients with renal impairment. Thus, quinapril dosage adjustment may be required in some patients with renal impairment.

Published

1992

15. Evaluation of quinapril on regional blood flow and cardiac function in patients with congestive heart failure.

Author

Munger MA, Chance M, Nair R, Prescott AW, Nara AR, Simonson MS, Green JA, and Posvar EL

Subjects

Antihypertensive Agents administration & dosage, Blood Pressure drug effects, Female, Glomerular Filtration Rate drug effects, Heart Failure drug therapy, Hemodynamics physiology, Humans, Isoquinolines administration & dosage, Liver Circulation drug effects, Male, Quinapril, Regional Blood Flow drug effects, Renal Circulation drug effects, Stroke Volume drug effects, Ventricular Function, Left drug effects, Antihypertensive Agents pharmacology, Heart Failure physiopathology, Hemodynamics drug effects, Isoquinolines pharmacology, Tetrahydroisoquinolines

Abstract

Quinapril, a nonsulfhydryl ACE inhibitor, was evaluated in ten New York Heart Association (NYHA) functional class (FC) II-III CHF patients to determine its effects on regional blood flow [effective renal plasma flow (ERPF), renal blood flow (RBF), renal vascular resistance (RVR), hepatic blood flow (HBF), hepatic vascular resistance (HVR), segmental limb pressure (SLP), creatinine clearance (CRCL)] and cardiac function [left ventricular ejection fraction (LVEF)]. Previous vasodilator therapy was withdrawn 2 weeks before baseline measurements. Stable regimens of digoxin and diuretics were continued throughout the study. ERPF was assessed using p-aminohippurate (PAH), HBF by indocyanine green (ICG) clearance, and LVEF by radionuclide scintography. Segmental limb pressures were measured by Doppler flow detection. Measurements were performed at baseline (B) and after 4 weeks of quinapril therapy (10 mg BID). Quinapril increased renal (P less than 0.05) and hepatic blood flow (P = 0.06) and significantly reduced renal and hepatic vascular resistance. Glomerular filtration rate and left ventricular ejection fraction were unchanged. Mean arterial pressure and brachial segmental pressures decreased without change in heart rate. Noninvasive cardiovascular assessments indicate that quinapril improves regional blood flow while exhibiting no change in left ventricular ejection fraction, in patients with NYHA FC II-III CHF.

Published

1992

16. ACE inhibitors in the elderly.

Author

Posvar EL and Sedman AJ

Subjects

Aged, Captopril pharmacokinetics, Captopril therapeutic use, Enalapril pharmacokinetics, Enalapril therapeutic use, Humans, Isoquinolines pharmacokinetics, Isoquinolines therapeutic use, Quinapril, Angiotensin-Converting Enzyme Inhibitors, Hypertension drug therapy, Tetrahydroisoquinolines

Abstract

As the population with hypertension becomes older, it is important to determine the properties of angiotensin-converting enzyme (ACE) inhibitors in the elderly. The pharmacokinetics and efficacy of captopril, enalapril, and a new once-daily ACE inhibitor, quinapril for the treatment of hypertension in young and elderly patients are reviewed, and the safety profiles of these agents in young and elderly patients are discussed. Although the safely profile of all three drugs is very favorable, quinapril tended to be better tolerated by patients of all ages in comparative clinical trials.

Published

1991

17. Pharmacokinetics of quinapril and its active metabolite quinaprilat during continuous ambulatory peritoneal dialysis.

Author

Swartz RD, Starmann B, Horvath AM, Olson SC, and Posvar EL

Subjects

Adult, Aged, Angiotensin-Converting Enzyme Inhibitors adverse effects, Blood Pressure drug effects, Female, Humans, Isoquinolines adverse effects, Kidney Failure, Chronic metabolism, Male, Middle Aged, Quinapril, Angiotensin-Converting Enzyme Inhibitors pharmacokinetics, Isoquinolines pharmacokinetics, Peritoneal Dialysis, Continuous Ambulatory, Tetrahydroisoquinolines

Abstract

The pharmacokinetics of quinapril, a novel angiotensin converting enzyme (ACE) inhibitor, and its active metabolite, quinaprilat, were determined following a single 20-mg oral dose of quinapril in six patients with chronic renal failure maintained on continuous ambulatory peritoneal dialysis (CAPD). Overall, quinapril was well tolerated by these CAPD patients, with mild and transient side effects, not unexpected in this clinical setting, which included pruritus, headache, nausea, and cough. Blood pressure reduction was observed in four of six patients, with onset reliably two to four hours after dosing and duration up to 48 hours, associated with quinaprilat concentrations in plasma above 90 ng/mL for at least 33 hours postdose. Two patients experienced significant hypotension, systolic blood pressure below 90 mm Hg, which responded promptly to oral fluid administration and/or reduction in dialysate tonicity. The pharmacokinetic profile of quinapril in these CAPD patients was not significantly different from that previously observed in healthy subjects with normal renal function and in patients with moderate to severe renal dysfunction not yet requiring dialysis (RDND). The apparent elimination half-life of quinapril was approximately one hour, with negligible dialysate excretion. The pharmacokinetic profile of quinaprilat in these CAPD patients was similar to that previously observed in patients with RDND. The elimination half-life of quinaprilat was markedly prolonged when compared to that in healthy subjects and averaged 20 hours, with only a small amount of quinaprilat excreted in dialysate (mean = 2.6% of total dose).(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1990

18. Pharmacokinetics of quinapril and its active metabolite, quinaprilat, in patients on chronic hemodialysis.

Author

Blum RA, Olson SC, Kohli RK, Horvath AM, Sedman AJ, and Posvar EL

Subjects

Adult, Aged, Angiotensin-Converting Enzyme Inhibitors administration & dosage, Angiotensin-Converting Enzyme Inhibitors blood, Female, Half-Life, Humans, Isoquinolines administration & dosage, Isoquinolines blood, Kidney Failure, Chronic metabolism, Male, Metabolic Clearance Rate, Middle Aged, Quinapril, Time Factors, Angiotensin-Converting Enzyme Inhibitors pharmacokinetics, Isoquinolines pharmacokinetics, Renal Dialysis, Tetrahydroisoquinolines

Abstract

The pharmacokinetics of quinapril and its active metabolite, quinaprilat, were evaluated in 12 patients with end-stage renal disease (ESRD) on chronic hemodialysis. Each subject received a single 20-mg oral dose of quinapril 4 hours before a 4-hour hemodialysis treatment. Serial dialysate and blood samples were obtained over 4 and 96 hours, respectively. Samples were analyzed for quinapril and quinaprilat concentrations by gas chromatography. Mean tmax and Cmax values for quinapril were 1.2 hours and 129 ng/mL, respectively. Only one patient had detectable quinapril dialysate concentrations which accounted for 2.8% of the quinapril dose. Mean apparent plasma clearance for quinapril was 1275 mL/min with a mean half-life of 1.7 hours. Quinapril was extensively de-esterified to its diacid metabolite, quinaprilat. Mean tmax and Cmax for quinaprilat were 4.5 hours and 671 ng/mL, respectively. Mean apparent plasma clearance for quinaprilat was 24.0 mL/min with a mean half-life of 17.5 hours. As with quinapril, quinaprilat was not readily dialyzable. Only 5.4% of the administered quinapril dose was recovered as quinaprilat during a single hemodialysis treatment. In view of these results, supplemental quinapril doses need not be routinely given to patients following hemodialysis. Overall, quinapril and quinaprilat pharmacokinetics in patients with ESRD on chronic hemodialysis were not markedly different from those previously observed in patients with moderate to severe renal dysfunction (CLcr less than 29 mL/min) not yet requiring hemodialysis (RDND).

Published

1990

19. New drugs: first time in man.

Author

Posvar EL and Sedman AJ

Subjects

Dose-Response Relationship, Drug, Drug Evaluation, Ethics, Medical, Pharmacokinetics, Research Design, Drugs, Investigational administration & dosage, Drugs, Investigational adverse effects

Published

1989