Pharmacometrics and the transition to model-based development.

As the transition to model-based drug development continues, pharmacometric analysis will have an increasingly important role across the entire life cycle of drug discovery, development, regulatory approval, and commercialization. For this reason, pharmacometrics can--and should--have an integrating function in the transformation to model-based development. This essay describes an approach for formalizing the pharmacometrics process using the disciplines encompassed by enterprise engineering.

Linezolid, a novel oxazolidinone antibiotic: assessment of monoamine oxidase inhibition using pressor response to oral tyramine.

The primary objective of this study was to compare the effects of oral linezolid with moclobemide and placebo on the pressor response to oral tyramine. Secondary objectives were to determine possible mechanisms of the effect based on changes in the pharmacokinetics of tyramine and to evaluate alternative methods for quantifying the pressor effect. Subjects received linezolid (625 mg bid orally), moclobemide (150 mg tid orally), or placebo for up to 7 days. Using the oral tyramine dose producing a >30 mmHg increase in systolic blood pressure (SBP) (PD>30), a positive pressor response was defined as a PD>30 index (pretreatment/treatment ratio of PD>30) of > or = 2. There were 8/10, 11/11, and 1/10 responders with linezolid, moclobemide, and placebo, respectively. Responses returned to baseline within 2 days of drug discontinuation. The ratio of mean greatest SBP and heart rate at the time of greatest SBP (GSBP/HR) increased linearly with tyramine dose both pretreatment and during treatment with linezolid and moclobemide. During treatment, responses to tyramine when subjects took linezolid or moclobemide were significantly different from placebo. Both drugs significantly decreased tyramine oral clearance compared with placebo. Urinary excretion of catecholamines and metabolites was consistent with MAOI activity of the drugs, but results were variable. The MAOI activity of linezolid is similar to that of moclobemide, a drug used clinically without food restrictions. Restrictions to normal dietary intake of tyramine-containing foods are not warranted when taking linezolid.

Linezolid: pharmacokinetic and pharmacodynamic evaluation of coadministration with pseudoephedrine HCl, phenylpropanolamine HCl, and dextromethorpan HBr.

Linezolid is a novel oxazolidinone antibiotic with mild reversible monoamine oxidase inhibitor (MAOI) activity. The potential for interaction with over-the-counter (OTC) medications requires quantification. The authors present data evaluating the pharmacokinetic and pharmacodynamic responses to coadministration of oral linezolid with sympathomimetics (pseudoephedrine and phenylpropanolamine) and a serotonin reuptake inhibitor (dextromethorphan). Following coadministration with linezolid, minimal but statistically significant increases were observed in pseudoephedrine and phenylpropanolamine plasma concentrations; a minimal but statistically significant decrease was observed in dextrorphan (the primary metabolite of dextromethorphan) plasma concentrations. Increased blood pressure (BP) was observed following the coadministration of linezolid with either pseudoephedrine or phenylpropanolamine; no significant effects were observed with dextromethorphan. None of these coadministered drugs had a significant effect on linezolid pharmacokinetics. Minimal numbers of adverse events were reported. Potentiation of sympathomimetic activity by linezolid was judged not to be clinically significant, but patients sensitive to the effects of increased BP due to predisposing factors should be treated cautiously. No restrictions are indicated for the coadministration of dextromethorphan and linezolid.

Therapeutic drug monitoring of alprazolam in adolescents with asthma.

Children and adolescents with severe asthma frequently experience anxiety or depression with anxiety, which can undermine their response to treatment. In addition, these patients often receive theophylline and a variety of adrenergic stimulants, which can exacerbate or worsen anxiety. Such children occasionally are candidates for treatment with anxiolytic therapy. There is a paucity of drug disposition data in adolescents for benzodiazepines, the most frequently used antianxiety drugs. The authors monitored the steady state alprazolam plasma concentration in six children with severe asthma who were administered standard doses of alprazolam. In one patient administered concurrent therapy with troleandomycin, a recognized cytochrome 3A4 inhibitor, alprazolam plasma concentration was markedly elevated. Overall, the disposition data of alprazolam was consistent with data previously reported in adults. Alprazolam appeared to be safe and effective for use in adolescents with asthma.

Pharmacokinetics and psychomotor performance of alprazolam: concentration-effect relationship.

The relationship between the pharmacokinetics of alprazolam and dose and the relationship between the concentration of alprazolam and psychomotor performance in healthy male volunteers were investigated in this double-blind, placebo-controlled, modified crossover study. Twenty-four volunteers received placebo in Phase I and then received single 2-mg, 4-mg, 8-mg, and 10-mg doses of a sustained-release formulation in Phases II through V, according to, a crossover design. Blood samples were collected at several times throughout each phase to 48 hours after the dose; the harvested plasma was assayed for concentrations of alprazolam, 4-hydroxyalprazolam, and alpha-hydroxyalprazolam by high-performance liquid chromatography. Sedation was rated at each blood-sampling time and psychomotor performance tests, consisting of digit-symbol substitution and card-sorting tasks, were conducted at several times after each dose. Area under the concentration-time curve and peak concentration for alprazolam increased proportionally with each higher dose; clearance did not differ significantly between treatments. The concentrations of 4-hydroxyalprazolam and alpha-hydroxyalprazolam increased proportionally with dose and the combined plasma concentration of the metabolites were less than 15% of unchanged concentrations of alprazolam for all doses. Maximum sedation increased with each increase in dose up to 8 mg, and psychomotor performance decreased with each increase in dose. Performance versus concentration curves for alprazolam exhibited a clockwise hysteresis loop in contrast to the counterclockwise hystereses previously reported for both intravenous and oral doses of immediate-release tablets. Data through 6 hours after dose were well described by a sigmoid Emax model. Alprazolam exhibits linear pharmacokinetics after single oral doses of sustained-release tablets between 2 mg and 10 mg. Reversal of the concentration-effect curve to a clockwise loop suggests the counterclockwise hystereses of rapidly absorbed doses was caused by the differing distribution rates into the systemic circulation and effect site and not by metabolite activity.

Pharmacokinetics and pharmacodynamics of glyburide in young and elderly patients with non-insulin-dependent diabetes mellitus.

OBJECTIVE: To determine the influence of age on the pharmacokinetics and pharmacodynamics of glyburide after acute and chronic dosing in young and elderly subjects with non-insulin-dependent diabetes mellitus. DESIGN: Ten elderly (mean age 69.3 +/- 3.1 y) and 10 younger (mean age 45.6 +/- 4.5 y) patients received a glucose challenge test at baseline, with a 2.5-mg dose of glyburide at week 0 (acute dose) and again at weeks 6 and 12 of chronic glyburide therapy. Glyburide doses were titrated to a maximum daily dosage of 20 mg to achieve a glucose concentration of 7.8 mmol/L or less. During 24-h pharmacokinetic determinations at weeks 0, 6, and 12, serial blood samples were obtained for glyburide determination with HPLC. Serial blood samples for glucose, insulin, and C-peptide determinations were obtained at baseline (week -1) and at weeks 0, 6, and 12. RESULTS: All pharmacokinetic parameters assessed for glyburide were statistically comparable between the two age groups with the exception of a shorter time to peak concentration in the elderly at weeks 0 and 12. The glucose pharmacodynamic response to glyburide was not statistically different between the two groups. However, there was a statistically significant greater C-peptide response in the elderly group at all evaluation weeks. CONCLUSIONS: Aging appears to have no influence on the pharmacokinetics of glyburide. Observed pharmacodynamic differences indicate the necessity for dosage titration to a specified therapeutic response regardless of patient age.

Physiology and pharmacokinetics of a novel hemoglobin-based oxygen carrier in humans.

OBJECTIVE: To evaluate the physiology and pharmacokinetics of a novel hemoglobin-based oxygen carrier of bovine origin. DESIGN: Randomized, single-blind, placebo-controlled, dose-escalation study. SETTING: The Upjohn Research Clinics (Kalamazoo, MI). SUBJECTS: Normal healthy adult men between the ages of 18 and 45 yrs. There were 18 subjects who received active treatment and 23 controls. INTERVENTIONS: All subjects had phlebotomy of 15% of blood volume (performed in <15 mins) followed by isovolemic hemodilution (3:1, Ringer's lactate to the volume of whole blood removed) over a 90-min period, and either active drug (polymerized bovine hemoglobin) or a control infusion of lactated Ringer's solution (each infusion given over a total of 4.3 hrs). The subjects randomized to active treatment received a loading dose and a continuous infusion of polymerized bovine hemoglobin for a total dose of 16.5, 24.1, 30.2, 38.0, or 45.0 g. All subjects had an indwelling radial artery catheter (for blood pressure and arterial blood gas measurements), determination of cardiac function (by impedance plethysmography), serial pulmonary function tests (spirometry and diffusion capacity), and metabolic cart measurements. MEASUREMENTS AND MAIN RESULTS: Pharmacokinetics of the plasma bovine hemoglobin demonstrated that the elimination of the hemoglobin-based oxygen carrier was a linear, first-order process and that there was no renal excretion. Peak plasma concentrations were between 1 to 2 g/dL and plasma half-life approached 20 hrs at the highest doses given. Diffusion capacity of oxygen was increased up to 20% above baseline in the 38.0 and 45.0 g groups in comparison with controls (approximately 14% below baseline) between 2 and 24 hrs after the infusion (p < .01). Other pulmonary function tests and arterial blood gas measurements were unremarkable. Arterial oxygen content and oxygen delivery tended to be greater in active groups than in controls. CONCLUSIONS: The plasma concentrations of bovine hemoglobin were directly proportional to the doses administered. An increase in diffusion capacity paralleled the plasma bovine hemoglobin concentrations. Dosing of the hemoglobin-based oxygen carrier of bovine origin to a target plasma hemoglobin concentration can be achieved using pharmacokinetic principles with measurable effects on oxygen physiology.

Effects of a novel hemoglobin-based oxygen carrier on percent oxygen saturation as determined with arterial blood gas analysis and pulse oximetry.

STUDY OBJECTIVE: Hemoglobin-based oxygen carrier 201 (HBOC-201) is a polymerized hemoglobin of bovine origin being developed for use in hemorrhage during surgery or trauma. Pulse oximetry is commonly used in clinical practice to assess percent saturation of hemoglobin (Spo2). The ability to measure Spo2 in the presence of HBOC-201 will be important for the use of this compound in patient care. METHODS: We carried out a randomized, single-blind, placebo-controlled study at the Upjohn Research Clinics in Kalamazoo, Michigan, with normal, healthy adult men and women as subjects. The members of four groups of adult subjects (N=24) each received 45 g of HBOC-201 (nine each, men and women) or a control solution (Ringer's lactate) (three each, men and women). Each subject underwent phlebotomy (about 15% of estimated blood volume) followed by 3:1 hemodilution with Ringer's lactate and then either HBOC-201 or control solution. An indwelling arterial catheter in the radial artery was used for serial arterial blood gas sampling. Arterial blood gas measurements were made with a cooximeter (Instrumentation Laboratories). Fingertip pulse oximetry was used (Criticare 504-US; Criticare, Incorporated). Paired pulse oximetry and arterial blood gas sampling were made serially (at approximately hourly intervals) over 24 hours. RESULTS: The mean +/- SEM difference for Spo2 for arterial blood gas analysis compared with the pulse oximetry reading in the presence of HBOC-201 was 1.1% +/- 0.75%; in controls it was .1% +/- 0.64% (P<.001) for each) over the 24 hours after dosing. This relationship was constant despite increased concentrations of plasma hemoglobin (between 1 and 2g/dl [10 to 20 g/L]) in the HBOC-201 groups. CONCLUSION: Accurate determinations of Spo2 can be made with pulse oximetry in subjects given HBOC-201 over the normal range of Spo2.

Effects of aspirin and ibuprofen on the pharmacokinetics and pharmacodynamics of glyburide in healthy subjects.

OBJECTIVE: To determine the effects of aspirin and ibuprofen on the pharmacokinetics and pharmacodynamics of glyburide in healthy volunteers. DESIGN: Single-center, randomized, two-way, crossover design following an initial baseline evaluation phase. SETTING: Outpatient, university-based ambulatory care facility. PATIENTS: Sixteen healthy nonsmoking men aged 20-34 years. INTERVENTION: Three phases consisting of six treatments. Phase 1 began with treatment A, a baseline oral glucose tolerance test (GTT), followed by treatment B, glyburide 5 mg plus a GTT. The other two phases were administered in a crossover design. Phase 2 consisted of the administration of aspirin 975 mg qid for 4 days. On day 3 a GTT was administered (treatment C) and on day 4 glyburide 5 mg plus a GTT was administered (treatment E). Phase 3 consisted of the administration of ibuprofen 600 mg qid for 4 days with a GTT on day 3 (treatment D) and glyburide 5 mg plus a GTT on day 4 (treatment F). MAIN OUTCOME MEASURES: Serum glyburide concentrations after each treatment, as well as glucose and insulin, ibuprofen, and salicylate serum concentrations and glyburide free fractions. RESULTS: Aspirin administration resulted in an 85% increase in mean total glyburide oral clearance and a 29% increase in glyburide free fraction. Ibuprofen administration resulted in a slight increase in mean glyburide free fraction, but no significant changes in glyburide pharmacokinetic parameters were observed. Insulin concentrations were increased during the glyburide plus aspirin treatment. Conflicting results were observed in the glucose parameters. CONCLUSIONS: The potential for this glyburide-aspirin interaction resulting in a transient hypoglycemia should be considered in diabetic patients receiving glyburide therapy.

Hematologic effects of a novel hemoglobin-based oxygen carrier in normal male and female subjects.

The objective of this study was to assess the relationship between iron metabolism and pharmacokinetics of hemoglobin-based oxygen carrier-201 (HBOC-201), a polymerized hemoglobin product of bovine origin. A randomized, single-blind, single-dose study design was used. The study was performed at the Upjohn Research Clinics in Kalamazoo, Michigan. Four groups of healthy men and women (n = 24), who either received HBOC-201 (9 men, 9 women) or a control solution (Ringer's lactate) (3 men, 3 women) participated in the study. All subjects had phlebotomy (approximately 15% blood volume) followed by 3:1 hemodilution with Ringer's lactate and an intravenous infusion of HBOC-201 (up to 45 gm or 350 ml) or control solution (Ringer's lactate). Serial arterial blood gas samples with a radial artery catheter and simultaneous pulse oximetry were done during the first 24 hours. Serial samples for serum iron, ferritin, erythropoietin, and plasma HBOC-201 levels were taken over a 1-month period. In the HBOC-201-treated groups, serum iron and ferritin levels increased. Peak serum iron and ferritin levels occurred by hours 8 (up to 220 micrograms/dl) and 48 (up to 180 ng/ml), respectively. Serum iron levels paralleled HBOC-201 concentrations. Plasma half-life of HBOC-201 was about 20 hours. Serum erythropoietin increased by twofold to sixfold over baseline (p < 0.001) at 24 hours. No urinary hemoglobin was detected in the groups with HBOC-201-treated subjects. This study demonstrates that HBOC-201 produces increases in serum iron, ferritin, and erythropoietin that closely parallel plasma levels of HBOC-201 in men and women.

Hemoglobin-based oxygen carrier preserves submaximal exercise capacity in humans.

OBJECTIVE: The objective of this study was to evaluate the exercise capacity of subjects given an autologous transfusion or a polymerized bovine hemoglobin solution to define the pharmacodynamics and pharmacokinetics of a new hemoglobin-based oxygen carrier (HBOC-201). METHODS: Six normal healthy male subjects (ages 25 to 45 years) participated in this randomized, single-blind, two-way crossover study, which took place at Upjohn Research Clinics in Kalamazoo, Mich. A radial artery catheter was inserted in each subject before serial cardiac output and pulmonary function tests and phlebotomy of 15% blood volume (750 ml plus another 250 ml for study laboratories yields 1000 ml, or about 150 gm human hemoglobin). This was followed by isovolemic hemodilution with Ringer's lactate plus an autologous blood transfusion (or HBOC-201) and 1 week later 45 gm bovine hemoglobin of HBOC-201 (or autologous transfusion). Bicycle exercise stress tests to anaerobic threshold (approximately 65% of predicted maximum aerobic capacity) were done before phlebotomy and at approximately 45 minutes after the autologous transfusion or HBOC-201 infusion. RESULTS: Subjects had similar exercise and diffusion capacity but lower lactate levels (for up to 24 hours) during HBOC-201 (which paralleled plasma HBOC-201 levels) than during autologous transfusion periods. Oxygen use (uptake) and carbon dioxide production at rest were greater during the HBOC-201 infusion than during the autologous transfusion period. The half-life of HBOC-201 was about 23 hours. CONCLUSIONS: Exercise capacity and diffusion capacity were similar after HBOC-201 and autologous transfusion. HBOC-201 resulted in greater oxygen (or uptake) and carbon dioxide production and lower lactate levels compared with autologous transfusion. Under the conditions of the study, the physiologic effects of 1 gm bovine hemoglobin of HBOC-201 were similar to 3 gm human hemoglobin from autologous transfusion.

Comparison of pharmacokinetics and pharmacodynamics of short- and long-term glyburide therapy in NIDDM.

OBJECTIVE: To examine the pharmacokinetics and pharmacodynamics of glyburide after single- and multiple-dose administration in patients with type II diabetes. RESEARCH DESIGN AND METHODS: Twenty patients with type II diabetes between 40 and 70 years of age participated in the study. A 24-h pharmacokinetic evaluation including a 4-h Sustacal tolerance test was conducted before instituting glyburide therapy (baseline), after the first 2.5-mg test dose of glyburide and at weeks 6 and 12 of chronic glyburide therapy. Glyburide doses were titrated with a target goal of achieving a fasting plasma glucose of < or = 7.8 mmol/l or to reach maximum daily doses of 20 mg. RESULTS: A significant prolongation in the elimination half-life (t1/2: week 0, 4.0 +/- 1.9 h; week 6, 13.7 +/- 10.5 h; and week 12, 12.1 +/- 8.2 h) and an increased volume of distribution of glyburide was observed during chronic dosing. These results strongly suggest possible drug accumulation. No differences in pharmacokinetic parameters were noted between evaluations at week 6 or week 12. Changes in pharmacodynamic response of glucose, insulin, and C-peptide to chronic glyburide therapy were observed. Glyburide therapy significantly reduced plasma glucose levels at weeks 6 and 12 (percent changes in AUC0-->4. glucose from baseline: week 0, -3 +/- 11%; week 6, -29 +/- 13%; and week 12, -26 +/- 19%). Pancreatic insulin secretion was acutely enhanced and maintained during long-term therapy. Responsiveness to therapy as assessed by the ratio of AUC0-->4.glucose:AUC0-->4.C-peptide was significantly improved at all weeks compared with baseline. No pharmacodynamic response differences were observed between the week 6 and the week 12 evaluations. CONCLUSIONS: This study demonstrates that significant differences in glyburide pharmacokinetics and pharmacodynamics exist between single-dose and steady-state conditions. These differences support the need for careful dosage titration of glyburide to achieve a desired therapeutic response in patients with type II diabetes.

Evaluation of population pharmacokinetics in therapeutic trials. IV. Application to postmarketing surveillance.

The feasibility of incorporating blood sampling for population pharmacokinetic analysis into postmarketing surveillance was evaluated. Demographic and drug disposition data, consisting of two blood samples collected at a random time during two different dose intervals, was prospectively collected for 94 psychiatric inpatients (mean age, 48 +/- 13 years) receiving alprazolam. Mixed-effect modeling was used to estimate population pharmacokinetic parameters. The mean alprazolam clearance, volume of distribution, and absorption rate constant were 0.05 L/hr/kg, 0.7 L/kg, and 1.1 hr-1, respectively. Clearance was increased by 59% in women, decreased by 26% in patients with multiple organ disease, and decreased by 23% in patients older than 60 years of age. These estimates are similar to those determined from rigorous premarketing clinical trials. Interindividual variability in alprazolam clearance was relatively small (40%) after adjustment for significant patient covariates. Population pharmacokinetic analysis represents a reasonable approach to assessment of pharmacokinetic variability in a large, heterogenous patient population.

The pharmacokinetics and pharmacodynamics of 12 weeks of glyburide therapy in obese diabetics.

We have studied the pharmacokinetics and pharmacodynamics of glyburide during long-term therapy in 20 patients with type II diabetes mellitus. The patients were divided according to body mass index (BMI) into an obese group [n = 12, age 55(13) y, BMI 36.2(9.2) kg.m-2, total body weight (TBW) 100(23) kg], and a non-obese group [n = 8, age 61(13) y, BMI 24.5(2.1) kg.m-2, TBW 73(7) kg]. The dosages of glyburide were titrated to achieve specified therapeutic goals based upon serum glucose concentrations or to a maximum dosage of 20 mg per day. The pharmacokinetics of glyburide were determined at week 12 of treatment. On the study day, the patients took a 2.5 mg liquid test dose of glyburide with a Sustacal meal challenge. The elimination rate constant (lambda z), clearance (CL), and apparent volume of distribution (Vz) were 0.08 h-1, 3.3 l.h-1, and 47.0 l in the obese group, and 0.07 h-1, 3.1 l.h-1, and 56.8 l in the non-obese group. These values were not statistically significantly different. However, there were differences between the groups when the volume and clearance were corrected by TBW or BMI but not by ideal body weight (IBW) or fat-free mass (FFM). Regression analysis between the pharmacokinetic variables and body weight status revealed statistically significant correlations between volume or clearance and body weight. However, due to large inter-patient variability, these relations were relatively weak and were considered to be non-predictive.(ABSTRACT TRUNCATED AT 250 WORDS)

Pharmacokinetics and pharmacodynamics of oral diazepam: effect of dose, plasma concentration, and time.

Eleven healthy subjects received single oral doses of placebo, 2 mg diazepam, 5 mg diazepam, and 10 mg diazepam in a randomized four-way crossover study. Plasma diazepam levels, the Digit Symbol Substitution Test (DSST), and fraction of total electroencephalographic (EEG) amplitude falling in the sigma plus beta (13 to 31 Hz) frequency range were determined during the 12 hours after drug administration. Peak plasma diazepam concentration and area under the 12-hour curve were proportional to dose; time of peak was independent of dose. Baseline percentage of EEG amplitude falling in the 13 to 31 Hz range averaged 15.7% and did not differ among the four trials. The percentage of EEG amplitude falling in the 13 to 31 Hz range did not change over baseline with placebo or 2 mg diazepam but was increased 1/4 to 2 1/2 hours after 5 mg diazepam, (maximum, +7.3%) and 3/4 to 12 hours after 10 mg diazepam (maximum, +15.2%). The increase in the percentage of EEG amplitude falling in the 13 to 31 Hz range was highly correlated with plasma diazepam concentration. DSST scores for placebo and 2 mg diazepam were nearly identical. DSST decrements with 5 and 10 mg diazepam paralleled and were correlated with the changes in the percentage of EEG amplitude falling in the 13 to 31 Hz range and with plasma diazepam levels. Thus the EEG analysis provides objective quantitation of benzodiazepine central nervous system effects, in turn reflecting plasma levels and other clinical measures.

The pharmacokinetics of flurbiprofen in younger and elderly patients with rheumatoid arthritis.

The pharmacokinetics of flurbiprofen (Ansaid Tablets, Upjohn Company of Canada, Don Mills, Ontario) were evaluated in both younger (40 to 60 years) and elderly (65 to 83 years) rheumatoid arthritic patients after both a 100-mg single-dose administration and at steady state during a 100-mg twice-a-day dosage regimen. Both flurbiprofen plasma concentration-time profiles and the urinary excretion of flurbiprofen and its major metabolites were evaluated. The results indicate that the pharmacokinetics of flurbiprofen are linear in both age groups based on only minor changes between single-dose and steady-state parameter determinations and the agreement between calculated and predicted accumulation values in plasma concentrations. Only minor differences in the pharmacokinetic parameters were observed between the younger and elderly patients. Only free flurbiprofen clearance was found to have a significant but variable correlation to patient age. The effect of flurbiprofen on the urinary excretion of two prostaglandins were also evaluated throughout this study. In both age groups, the maximum decrease in urinary excretion was observed after the first dose, and this effect was maintained throughout the remainder of the study. Percent decreases from baseline in urinary excretion during drug administration were similar for both age groups. Similar side-effect profiles were observed between age groups.

Pharmacokinetics and pharmacodynamics of glyburide in young and elderly nondiabetic adults.

The pharmacokinetics and pharmacodynamics of glyburide were studied in elderly and young nondiabetic adults. Healthy nondiabetic men and women 18-40 years of age (young subjects) and 60-85 years of age (elderly subjects) were recruited. After an overnight fast, the subjects were given a baseline glucose tolerance test (GTT). The next day, again after a fast, each subject was given a 5-mg oral tablet of glyburide, and the GTT was performed one hour later. Serum glucose, serum insulin, and plasma glyburide concentrations were determined. Twenty elderly (mean +/- S.D. age, 65.7 +/- 5.3 years) male (n = 10) and female (n = 10) volunteers and 15 young (22.3 +/- 4.5 years) male volunteers were enrolled. Compared with the young subjects, the elderly subjects had slower glyburide absorption, as determined from a lower peak plasma concentration and smaller area under the plasma concentration-time curve from zero to four hours (AUC0-4). The elderly subjects also had a lower glyburide elimination rate constant and higher volume of distribution and a 52% higher free fraction. There was no difference in the glyburide AUC0-24 or AUC0-infinity or in oral clearance between the groups. The elderly group had greater increases in serum glucose and insulin concentrations after the baseline GTT. After glyburide administration, the elderly group had a smaller fractional decrease in the glucose AUC0-3 from the baseline GTT result than the young subjects. Linear regression analysis of the relationship between the fractional change in glucose concentration and the glyburide AUC0-4 showed significantly different slopes between the two groups. The aging process appears to affect the pharmacokinetics and pharmacodynamics of glyburide.

Pharmacokinetic pharmacodynamic evaluation of the combined administration of alprazolam and fluoxetine.

The pharmacokinetic and pharmacodynamic effects of concomitant administration of alprazolam and fluoxetine were studied in this double-blind parallel study in 80 healthy, male volunteers. Subjects were randomly assigned to one of four treatment groups. Drug treatments consisted of 4-day regimens of 1 mg alprazolam four times daily, 60 mg fluoxetine every morning, 1 mg alprazolam four times daily and 60 mg fluoxetine every morning, and placebo four times daily. Psychomotor performance, mood status, and degree of sedation were evaluated at designated times. Combined administration of alprazolam and fluoxetine resulted in an approximate 30% increase in plasma alprazolam concentrations relative to plasma concentrations following the administration of alprazolam alone. There were no significant differences in fluoxetine or norfluoxetine plasma concentrations between the alprazolam/fluoxetine and fluoxetine treatments. Psychomotor decrements increased when fluoxetine was administered with alprazolam relative to alprazolam administration alone. Psychomotor performance of the fluoxetine treatment group was not significantly different from that of the placebo group. No significant changes were observed in mood status, and sedation was minimal in all treatment groups. As when any two psychoactive drugs are administered together, increased patient monitoring and patient education is recommended when alprazolam and fluoxetine are prescribed concurrently.

Unaltered drug metabolizing enzyme systems in type II diabetes mellitus before and during glyburide therapy.

Diabetes mellitus is associated with alterations in hepatic drug metabolizing enzyme activities in experimental animals. To determine whether Type II diabetes or glyburide affect hepatic drug metabolism, the authors used 13C-labeled aminopyrine and caffeine breath tests as in vivo probes of the hepatic cytochrome P450 and P(1)450 enzyme activities respectively in six subjects with Type II diabetes (4 women, 2 men). These subjects had been treated previously with diet, had an age range of 41-63 years, had a body mass index range of 24.1-43.3 kg/m2 and had a mean fasting plasma glucose of 14.6 +/- 1.2 mM and a mean hemoglobin A1c of 12.2 +/- 0.7%. These subjects did not drink alcohol or take drugs known to affect hepatic drug metabolism. The caffeine and aminopyrine breath tests (CBT, ABT) were performed sequentially while fasting before the start of glyburide treatment (5 mg daily) and at weekly intervals for 4 weeks. ABT and CBT values are expressed as cumulative percentage of dose exhaled through 2 hours. Before beginning glyburide, the mean ABT and CBT results were 10.2 +/- 0.7% and 4.2 +/- 0.7% respectively, well within the normal ranges for these tests (ABT 6.5-15%; CBT 2.5-10%). The ABT and CBT values remained unaltered during 4 weeks of glyburide therapy. However, FBS decreased to 10.2 +/- 1.1 mM and HbA1C to 10.1 +/- 0.8% by the end of drug treatment. Type II diabetes that is poorly controlled by diet alone is not associated with alterations of the hepatic drug metabolizing enzymes as judged by the caffeine and aminopyrine breath tests. Furthermore, glyburide does not induce or inhibit the drug metabolizing enzyme systems in the liver, thereby precluding drug-drug interactions of this type.

The relationship of alprazolam dose to steady-state plasma concentrations.

Alprazolam is a widely used antianxiety agent, yet relatively little is known about the relationship between chronic oral doses and steady-state plasma levels. This study examines the relationship over a wide range of therapeutic doses. We conducted a parallel, double-blind, placebo-controlled study in 36 patients with agoraphobia with panic attacks, or panic disorder with limited phobic avoidance based on DSM-III criteria. Patients received alprazolam (N = 25) or placebo (N = 11) beginning at 1 mg/day and increased weekly until either a maximum tolerated dose or 10 mg/day was achieved. Dosages were then gradually tapered according to a predetermined schedule. The entire study period lasted 14 weeks. Laboratory and clinical assessments were conducted weekly. Doses up to 6 mg/day were tolerated by 80% of patients on alprazolam and doses of 10 mg/day were tolerated by 40% of patients. Twenty-seven percent of the placebo patients reached 10 tablets/day. In the alprazolam group, the principal cause of intolerance was sedation. Throughout the study no significant changes in vital signs or laboratory parameters were observed. Steady state alprazolam, 4-hydroxy alprazolam, and alpha-hydroxy alprazolam plasma levels were linearly related to dose. A 1 mg dosage increment produced, on the average, a corresponding 10 ng/ml increase in steady state level of the parent drug. Significant response was observed in subjects who achieved concentrations greater than 20 ng/ml, with a maximum of 81% of the samples classified as responders within the 60 ng/ml and above group.(ABSTRACT TRUNCATED AT 250 WORDS)