James Leslie

Absolute oral bioavailability of ciprofloxacin.

We evaluated the absolute bioavailability of ciprofloxacin, a new quinoline carboxylic acid, in 12 healthy male volunteers. Doses of 200 mg were given to each of the volunteers in a randomized, crossover manner 1 week apart orally and as a 10-min intravenous infusion. Half-lives (mean +/- standard deviation) for the intravenous and oral administration arms were 4.2 +/- 0.77 and 4.11 +/- 0.74 h, respectively. The serum clearance rate averaged 28.5 +/- 4.7 liters/h per 1.73 m2 for the intravenous administration arm. The renal clearance rate accounted for approximately 60% of the corresponding serum clearance rate and was 16.9 +/- 3.0 liters/h per 1.73 m2 for the intravenous arm and 17.0 +/- 2.86 liters/h per 1.73 m2 for the oral administration arm. Absorption was rapid, with peak concentrations in serum occurring at 0.71 +/- 0.15 h. Bioavailability, defined as the ratio of the area under the curve from 0 h to infinity for the oral to the intravenous dose, was 69 +/- 7%. We conclude that ciprofloxacin is rapidly absorbed and reliably bioavailable in these healthy volunteers. Further studies with ciprofloxacin should be undertaken in target patient populations under actual clinical circumstances.

Multiple-dose pharmacokinetics of imipenem-cilastatin.

We characterized the pharmacokinetic profile of imipenem-cilastatin administered intravenously to six normal volunteers in a dose of 1,000 mg of each drug every 6 h for 40 doses. The plasma concentrations of imipenem and cilastatin 1 h after the end of a 30-min infusion were 18.7 (+/- 2.1) and 19.1 (+/- 4.6), 20.0 (+/- 3.2) and 17.8 (+/- 4.8), and 23.4 (+/- 2.3) and 19.1 (+/- 3.5) micrograms/ml in the 1st, 17th, and 37th dosing intervals, respectively. The central compartment volumes of distribution for imipenem and cilastatin were 0.16 (+/- 0.05) and 0.14 (+/- 0.03) liter/kg, respectively. Elimination half-lives were short: 0.93 (+/- 0.09) h for imipenem and 0.84 (+/- 0.11) h for cilastatin. Plasma clearances were 12.1 (+/- 0.06) liters/h per 1.73 m2 for imipenem and 12.4 (+/- 1.1) liters/h per 1.73 m2 for cilastatin. Renal clearance accounted for 54% of the plasma clearance of imipenem and 69% of the plasma clearance of cilastatin. The concentrations of imipenem in plasma and urine remained above the MICs of the vast majority of pathogens throughout the dosing interval.

A sensitive assay of metoprolol and its major metabolite α-hydroxy metoprolol in human plasma and determination of dextromethorphan and its metabolite dextrorphan in urine with high performance liquid chromatography and fluorometric detection

A reverse-phase High Performance Liquid Chromatographic (HPLC) method was developed for the analysis of metoprolol in the large number of human plasma samples obtained in in vitro-in vivo correlations (IVIVC) and bioavailability studies of extended release formulations of metoprolol tartrate. The metabolite, alpha-hydroxy metoprolol (OH-met), could also be quantified. The analytes were extracted from the plasma using solid phase columns, separated on a C-4 analytical column followed by fluorimetric detection. The linearity, precision, accuracy, stability, selectivity and ruggedness were validated for the concentration ranges of 1-400 ng ml-1 for metoprolol and 0.5-200 ng ml-1 for OH-met. The same chromatographic conditions were slightly modified to quantify dextromethorphan and its metabolite dextrorphan in urine in the concentration range 0.052-0.05 microgram ml-1 as a method for screening for fast metabolizers.

Identification of Formulation and Manufacturing Variables That Influence In Vitro Dissolution and In Vivo Bioavailability of Propranolol Hydrochloride Tablets

The purpose of this study was to evaluate the effect of formulation and processing changes on the dissolution and bioavailability of propranolol hydrochloride tablets. Directly compressed blends of 6 kg (20,000 units) were prepared by mixing in a 16-qt V blender and tablets were compressed on an instrumented Manesty D3B tablet press. A half-factorial (2(5-1), Resolution V) design was used to study the following variables: filler ratio (lactose/dicalcium phosphate), sodium starch glycolate level, magnesium stearate level, lubricant blend time, and compression force. The levels and ranges of the excipients and processing changes studied represented level 2 or greater changes as indicated by the Scale-up and Post Approval Changes (SUPAC-IR) Guidance. Changes in filler ratio, disintegrant level, and compression force were significant in affecting percent drug released (Q) in 5 min (Q5) and Q10. However, changes in magnesium stearate level and lubricant blend time did not influence Q5 and Q10. Hardness was found to be affected by changes in all of the variables studied. Some interaction effects between the variables studied were also found to be significant. To examine the impact of formulation and processing variables on in vivo absorption, three batches were selected for a bioavailability study based on their dissolution profiles. Thirteen subjects received four propranolol treatments (slow-, medium-, and fast-dissolving formulations and Inderal 80 mg) separated by 1 week washout according to a randomized crossover design. The formulations were found to be bioequivalent with respect to the log Cmax and log AUC0-infinity. The results of this study suggest that (i) bioavailability/bioequivalency studies may not be necessary for propranolol and perhaps other class 1 drugs after level 2 type changes, and (ii) in vitro dissolution tests may be used to show bioequivalence of propranolol formulations with processing or formulation changes within the specified level 2 ranges examined.

Comparison of the pharmacokinetics of ceftazidime and moxalactam and their microbiological correlates in volunteers.

We compared ceftazidime with moxalactam, a commonly utilized, currently available drug. The microbiological activities of ceftazidime and moxalactam were studied. In addition, single-dose pharmacokinetics and serum bactericidal activity 1 and 6 h after a 2.0-g, 30-min infusion of each drug were determined in a crossover study in human volunteers. In vitro, both drugs had MICs for 90% of the isolates of less than 1.0 microgram/ml against the common members of the family Enterobacteriaceae and of 8.0 micrograms/ml against Staphylococcus aureus. Against Pseudomonas aeruginosa ceftazidime was more active than moxalactam, the respective MICs for 90% of the isolates being 8 and 128 micrograms/ml. Mean half-lives were 1.75 (+/- 0.21) h for ceftazidime and 2.5 (+/- 0.38) h for moxalactam. The serum bactericidal titers for both compounds against Escherichia coli and Klebsiella pneumoniae were high. Titers against S. aureus 6 h after infusion were negative. The mean (geometric) serum bactericidal titer of ceftazidime against 31 strains of P. aeruginosa (1:44) was higher than that of moxalactam (1:3.4).

Imipenem coadministered with cilastatin compared with moxalactam: integration of serum pharmacokinetics and microbiologic activity following single-dose administration to normal volunteers.

We administered 1 g of imipenem along with equal amounts of cilastatin (a dehydropeptidase I inhibitor) or 2 g of moxalactam intravenously over a period of 30 min to six volunteers in a crossover manner 1 week apart. The antibiotic concentrations and pharmacokinetics for each drug were determined and integrated with the microbiologic activity by measuring the duration of time that the free drug concentrations remained above the MICs for 90% of 581 clinical isolates and by measuring serum bactericidal activities against organisms which commonly infect granulocytopenic cancer patients. Moxalactam produced serum levels at 1 h after infusion of 99.9 micrograms/ml; these levels were four times greater than the plasma levels of imipenem (22.8 micrograms/ml). The trough (5.5-h) moxalactam serum levels were 10 times greater than those of imipenem (18.5 and 1.7 micrograms/ml, respectively). Essentially all of the imipenem was unbound to protein, whereas 36 to 42% of the moxalactam was unbound. Moxalactam produced free antibiotic concentrations that were above the MIC for 90% of the strains tested for more than 6 h against all of the species tested except Staphylococcus aureus (5.3 h), Enterobacter hafnia (1.6 h), and Pseudomonas aeruginosa (0 h). The imipenem concentrations were above the MIC for 90% of the strains tested for 5.6 h or more against all of the bacteria tested except Proteus spp. and Pseudomonas aeruginosa (4.5 h). The geometric mean peak bactericidal titers from volunteers receiving imipenem were more than 1:8 against all bacteria and were significantly higher than the titers from volunteers receiving moxalactam against S. aureus (1:7.3) and Pseudomonas aeruginosa (1:4.5). These data, in addition to information obtained from animal models, indicate that imipenem is a promising new candidate for carefully controlled clinical trials as a single agent for therapy of serious infections, including empiric therapy for fever in granulocytopenic cancer patients.

Relationships between renal function and disposition of oral ciprofloxacin.

The relationships between creatinine clearance (CLCR) and the pharmacokinetics of oral ciprofloxacin were characterized. On the basis of these data, a dosage adjustment strategy, which incorporates the severity of infection and the size and renal function of the patient, was developed. An adaptive (feedback) control algorithm is proposed. A total of 32 subjects (8 normal, 8 anuric, and 16 with CLCR between 0.53 and 4.3 liters/h per 1.73 m2) were given a single 750-mg tablet of ciprofloxacin by mouth. Serial serum and urine samples were collected, assayed by high-pressure liquid chromatography, and comodeled. The population relationship between total apparent ciprofloxacin clearance (CL/f) and CLCR, both measured in liters per hour per 1.73 m2, was CL/f = 2.83 x CLCR + 21.8 (r = 0.69; P less than 0.001). The mean terminal half-life was not significantly related to CLCR but was much more variable in subjects with CLCR less than 3 liters/h per 1.73 m2 (F = 4.8; P less than 0.005). We conclude that patients with CLCR less than 1.2 liters/h per 1.73 m2 should receive two-thirds of the normal daily dose and that the dose interval should not be lengthened.

Optimal Sampling Theory: Effect of Error in a Nominal Parameter Value on Bias and Precision of Parameter Estimation

The authors examined the robustness of optimal sampling theory in estimating the parameter values of two different populations of patients receiving a constant rate, half‐hour intravenous infusion of theophylline. One population consisted of smokers; the other included nonsmokers. The smoking population was predicted to have a serum clearance approximately 50% greater than the nonsmokers because of an induction of the cytochrome P450 system. After an initial study to provide both patient‐specific and population mean parameter values, optimal sampling strategies that were derived from each population (seven sample split designs) and the patients seven sample and four sample design were determined. A second study was performed with an overall sampling strategy that was superset of all the above strategies. The analysis of all samples served as the reference for the parameter values. Bias and precision of the values determined with each of the optimal sampling sets (seven sample sets based on the “correct” and “wrong” populations, the patients seven and four sample sets) were determined relative to these reference values. Irrespective of the sample set used for analysis, unbiased and precise parameter estimates, particularly of hybrid parameters were provided. With the patients four sample set, Vss was significantly biased, but the value of (2.2%) was clinically insignificant. The authors conclude that optimal sampling theory, as implemented in this study, provides robust estimates of important pharmacokinetic parameter values, even when errors of 50% are present in the clearance of the population used to calculate the optimal sampling design.

Pharmacokinetics of ceftazidime, alone or in combination with piperacillin or tobramycin, in the sera of cancer patients.

We administered 2 g of ceftazidime intravenously every 8 h to cancer patients for the empiric therapy of febrile episodes. Ceftazidime was administered as monotherapy for patients with granulocyte counts in excess of 1,000/microliter. Febrile, neutropenic patients were randomized to also receive either piperacillin or tobramycin. The pharmacokinetic profile of ceftazidime during a steady-state dosing interval was ascertained in 21 patients. No differences were seen between groups for any of the pharmacokinetic parameters examined. As expected, the observed half-life was longer, the serum clearance was smaller, and the volumes of distribution were larger than in previously reported studies of volunteers. Serum concentrations remained above the MIC for inhibition of 90% of strains of the most common bacteremic pathogens seen in our cancer center for the entire 8-h dosing interval.

The kinetics of the reaction of N-ethylmaleimide with denatured β-lactoglobulin and ovalbumin

Abstract 1. 1. The kinetics of the reaction of β-lactoglobulin with N-ethylmaleimide have been studied in order to relate the reactivity of the sulfhydryl groups to the structure of the protein in urea and sodium dodecyl sulfate solutions. 2. 2. The reaction in 8 M urea is second order, but minor deviations from second order kinetics are observed in sodium dodecyl sulfate. The second order rate constants in 8 M urea are similar to those for the same reaction with cysteine, but the rate of reaction of β-lactoglobulin with N-ethylmaleimide in sodium dodecyl sulfate is about 150 times slower than in 8 M urea. 3. 3. Changes in the spectral properties of the protein occur on reaction with N-ethylmaleimide or HgCl2 under certain conditions of urea concentration and pH. 4. 4. The reaction of ovalbumin with N-ethylmaleimide in sodium dodecyl sulfate does not follow simple second-order kinetics.