2',3'-Dideoxyinosine (ddI) is a purine analogue that after intracellular metabolic conversion suppresses the replication of the human immunodeficiency virus (HIV). We conducted a Phase I dose-escalation study of ddI in 17 patients with the acquired immunodeficiency syndrome (AIDS) and 20 patients with AIDS-related complex. The drug was administered twice daily over a dose range of 0.4 to 66 mg per kilogram of body weight per day for 2 to 44 weeks. The maximal tolerated oral dose of ddI was estimated to be 12 mg per kilogram per day. The major dose-limiting toxic effects were a painful peripheral neuropathy (in eight patients) and pancreatitis (in five). Asymptomatic elevations of the serum aminotransferase levels (in 13 patients) and the serum urate level (in 10) were also noted, but there was no dose-related hematologic toxicity. At the maximal tolerated dose, the peak plasma levels of ddI were 6.3 to 9.6 mumol per liter 0.6 to 1 hour after oral administration; the mean plasma half-life was 1.5 hours. The administration of ddI was associated with statistically significant decreases in serum level of p24 antigen and increases in the numbers of CD4 cells at 2, 6, 10, and 20 weeks. These changes were seen at all dose levels studied. Either a clinical improvement or a weight gain of greater than or equal to 2 kg was observed in 25 of 34 patients at six weeks. We conclude that ddI is a promising therapeutic agent in patients with AIDS or AIDS-related complex. Its efficacy is currently being evaluated in large-scale, controlled clinical trials.
The pharmacokinetics of intravenously administered cefepime (1000 mg over 30 minutes) were studied in 5 healthy volunteers and 20 patients with various degrees of renal impairment. Cefepime concentrations in plasma, urine, and hemodialysate were assayed using reverse-phase HPLC with ultraviolet detection. Mean peak plasma concentrations of cefepime at the end of 30-minute infusion ranges from 63.5 to 73.9 micrograms/ml and were not affected by the degree of renal impairment. The half-life of cefepime was approximately 2.3 hours in subjects with normal kidney function; it increased proportionately as renal function decreased. Significant linear relationships between total body clearance and creatinine clearance, as well as renal clearance and creatinine clearance, were observed. The mean volume of distribution at steady state in healthy volunteers was 20.5 liters and was not significantly altered in subjects with renal insufficiency. The mean cumulative urinary recovery of cefepime in healthy volunteers was 82.9% of the administered dose and significantly decreased in subjects with creatinine clearance less than 30 ml/min. Hemodialysis significantly shortened the elimination half-life from 13.5 hours during the predialysis period to 2.3 hours during the dialysis period. Cefepime dosage should be reduced in proportion to the decline in creatinine clearance.
The pharmacokinetics of cefepime in 31 young, healthy volunteers were assessed after the administration of single and multiple 250-, 500-, 1,000-, or 2,000-mg intravenous doses. Each subject received a single dose of cefepime via a 30-min intravenous infusion on day 1 of the study. Starting from day 2, subjects received multiple doses of cefepime every 8 h for 9 days, and on the morning of day 11, they received the last dose. Serial blood and urine samples were collected after administration of the first dose and on days 1, 6, and 11. Cefepime concentrations in plasma and urine were assayed by using reverse-phase high-performance liquid chromatography with UV detection. Data were evaluated by noncompartmental methods to determine pharmacokinetic parameters. The mean half-life of cefepime was approximately 2 h and did not vary with the dose or duration of dosing. The regression analyses of peak levels (Cm.) in plasma at the end of the 30-min intravenous infusion and the area under the plasma concentration-versus-time curve (AUC>o.) showed a dose-proportional response. The steady-state volume of distribution (V,,) was approximately 18 liters and was independent of the administered dose. The multiple-dose pharmacokinetic data are suggestive of a lack of accumulation or change in clearance of cefepime on repeated dosing. Cefepime was excreted primarily unchanged in urine. The recovery of intact cefepime in urine was invariant with respect to the dose and accounted for over 80%o of the dose. The values for renal clearance ranged from 99 to 132 ml/min and were suggestive of glomerular filtration as the primary excretion mechanism. It is concluded that cefepime exhibits linear phannacokinetics in healthy subjects.
In this double-blind, single-dose phase I study, the safety and tolerance of cefepime were assessed in 24 healthy male subjects, with ceftazidime as the control drug. Four subjects in each of the six dose groups (62.5, 125, 250, 500, 1,000, or 2,000 mg as a 30-min itravenous infusion) received each antibiotic, according to*a crossover design, with a 2-day washout period between treatments. Blood and urine samples were obtained to characterize the pharmacokinetics of cefepime. Plasma and urine samples were assayed for intact cefepime. Samples containing ceftazidime were discarded. The adverse effects observed in the study were mild and infrequent, with prompt recovery from adverse experiences and abnormal laboratory values. The cefepime pharmacokinetic parameters for the therapeutically significant doses of 250 to 2,000 mg appeared to be proportional to dose and similar to literature values for ceftazidime. The elimination half-life of about 2 h was independent of the dose. Urinary recovery of intact cefepime was invariant with respect to dose; an overall mean value of 82% of dose was obtained for the four highest levels. Mean renal clearance was 105 mI/min and suggestive of glomerular filtration as the primary excretion mechanism. In normal humans, the safety and pharmacokinetic profiles of cefepime are very similar to those of ceftazidime.Cefepime (BMY-28142; Bristol-Myers Squibb Co.) is a "fourth-generation" cephalosporin antibiotic with significant potential advantages over other broad-spectrum cephalosporins and some nontraditional beta-lactam antibiotics (4, 9, 18). It differs from other aminothiazolyl methoxyimino cephalosporins by having a quaternized N-methyl pyrrolidine moiety attached to the methylene group at C-3 (Fig. 1). In addition to a very broad antimicrobial spectrum, cefepime appears to have low affinity for major chromosomally mediated ,3-lactamases and thus is less affected by the nonhydrolytic barrier mechanism of resistance in these bacteria (14). These in vitro advantages have been borne out in a number of in vivo infection models (9,17).Preclinical safety evaluation and pharmacokinetic studies of cefepime were done primarily with rats and monkeys. The findings of these studies suggest that when administered by intravenous infusion, cefepime is as safe as other commercially available cephalosporins. The pharmacokinetics in rats and monkeys have been extensively characterized (2, 7). The present phase I study was designed to evaluate the safety, tolerance, and pharmacokinetics of cefepime in healthy male volunteers. MATERIALS AND METHODSStudy design. The purposes of this study were to evaluate the safety and tolerance of cefepime after single intravenous doses of 62.5, 125, 250, 500, 1,000, and 2,000 mg to normal human volunteers. The pharmacokinetics of cefepime were also assessed at each dose level. The study was
The pharmacokinetics of didanosine (2',3'-dideoxyinosine) after intravenous and oral administration were evaluated in an open, escalating-dose phase I study in patients with acquired immunodeficiency syndrome (AIDS) or severe AIDS-related complex. Didanosine was administered twice a day for 2 weeks as an intravenous infusion of 60 minutes duration at doses ranging from 0.4 to 16.5 mg/kg, followed by 4 weeks of oral treatment at twice the intravenous dose. Serial blood and urine samples were obtained on the first and final day of intravenous administration and after the first oral dose, as well as at steady state. Didanosine demonstrated linear pharmacokinetic behavior over the dose ranges of 0.4 to 16.5 mg/kg intravenously and 0.8 to 10.2 mg/kg orally. There was no indication of significant changes in pharmacokinetic parameters with repeated administration. The apparent elimination half-life after oral administration was approximately 1.4 hour. Renal clearance values exceeded the glomerular filtration rate, indicating that active tubular secretion of didanosine occurs. Bioavailability of didanosine when administered as a solution with an antacid was approximately 43% for doses from 0.8 to 10.2 mg/kg in patients with AIDS and advanced AIDS-related complex. Bioavailability of didanosine from the citrate-phosphate-buffered solution, the formulation currently used in phase II and expanded access studies, was comparable to the formulation used in the phase I trials.
The objective of this study was to assess the effect of food and timing of meals on the bioavailability of didanosine from encapsulated enteric-coated beads. Four different independent, open-label, single-dose, randomized, crossover studies were conducted in healthy subjects (n = 20-30). Didanosine (400 mg) was given concomitantly with a high-fat meal, light meal, yogurt, and applesauce. In addition, didanosine was given 1, 1.5, 2, and 3 hours before and 2 hours after a light meal. Statistical comparison with fasting conditions was made using the equivalence approach for Cmax (70%-143%) and AUC (80%-125%). The high-fat meal, light meal, yogurt, and applesauce decreased the Cmax by 46%, 22%, 30%, and 24%, respectively, and lowered the AUC by 19%, 27%, 20%, and 18%, respectively; statistical analyses indicated an indeterminate food effect, except for the Cmax for the high-fat meal. For 1 hour before meal, Cmax and AUC were lower by 15% and 24% and, for 2 hours after meal, were lower by 15% and 10%, respectively. There was an indeterminate food effect for 1 hour before the meal treatment; in addition, 2 hours after the meal, treatment approached statistical equivalence, missing narrowly on the lower bounds. For 1.5, 2, and 3 hours before meal treatments, Cmax values were unchanged, but AUC was lower by 10%, 4%, and 0%, respectively; lack of food effect was observed for all three treatments. Across studies, median time to Cmix ranged from 1.67 to 2.67 hours but was delayed by 2.5 to 3 hours with high-fat and light meals compared to fasting conditions. The half-life of didanosine was 1.5 to 2 hours. It was concluded that the bioavailability of didanosine from encapsulated enteric-coated beads was reduced by approximately 20% to 25% with food, which can be circumvented by taking didanosine on an empty stomach. The clinical significance of such moderate reductions in didanosine exposure with food, especially as part of a highly active antiretroviral therapy, is not clear.
The pharmacokinetic characteristics of cefepime were determined after first dose (n = 35) and again under steady-state conditions (n = 31) with a group of 37 infants and children. In eight subjects, a cefepime dose given by intramuscular injection was substituted for an intravenous dose, and disposition characteristics were studied again. Study subjects ranged in age from 2.1 months to 16.4 years, and all had normal renal function. Each patient received 50 mg of cefepime/kg of body weight intravenously every 8 h, up to a total maximum individual dose of 2 g. With the exception of one study patient who received a single cefepime dose for surgical prophylaxis, the patients received cefepime for 2 to 13 days. Elimination half-life (t1/2), steady-state volume of distribution, total body clearance, and renal clearance after first dose administration averaged 1.7 h, 0.35 liter/kg, and 3.1 and 1.9 ml/min/kg, respectively. Although cefepime t1/2 and mean residence time (MRT) were slightly longer for subjects <6 months of age than for older subjects, no differences in cefepime disposition characteristics between first dose and steady-state evaluations were observed. t1/2 (1.8 versus 1.9 h) and MRT (2.3 versus 3.2 h) were slightly prolonged after intramuscular administration, reflecting the influence of absorption from the intramuscular injection site on cefepime elimination. Bioavailability after intramuscular administration averaged 82% (range, 61 to 124%). Fifty-seven percent of the first dose and 88.9% of the last dose were recovered as unchanged drug in urine over the 8- and 24-h sampling periods, respectively. These pharmacokinetic data support a single cefepime dosing strategy for patients > or =2 months of age. The integration of the cefepime pharmacokinetic data generated in our study with the MICs for important pathogens responsible for infections in infants and children supports the administration of a dose of 50 mg of cefepime/kg every 12 h for patients > or =2 months of age to treat infections caused by pathogens for which cefepime MICs are < or =8 mg/liter.
Steady state pharmacokinetics, absolute bioavailability, and dose proportionality of cefepime were evaluated in healthy male subjects after single (250, 500, 1000, or 2000 mg) and multiple (1000 mg every 12 hours for 10 days) intramuscular injections. Safety and tolerance were also monitored. High performance liquid chromatography/UV methodology was used to determine cefepime concentrations in plasma and urine. Key pharmacokinetic parameters were determined using noncompartmental methods. Cefepime was absorbed rapidly; mean peak times were 1.0-1.6 hours. Pharmacokinetics were linear over the 250-mg to 2000-mg dose range, with mean total body clearance ranging from 125 to 141 mL/min. The peak plasma concentration and area under the curve increased in a dose-proportional manner. The apparent elimination half-life (2 hours) did not appear to be influenced by dose or by duration of dosing. No accumulation of cefepime was observed during the multiple-dose study. More than 80% of the administered dose was excreted in the urine as unchanged cefepime, and absolute bioavailability after intramuscular dose was 100%. Cefepime was well tolerated. Most subjects experienced none to mild pain and only minimum discomfort at the site of injection.
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