Use of Pharmacokinetic-Pharmacodynamic Target Attainment Analyses To Support Phase 2 and 3 Dosing Strategies for Doripenem

Bhavnani, Sujata M.; Hammel, Jeffrey; Cirincione, Brenda; Wikler, Matthew A.; Ambrose, Paul G.

doi:10.1128/aac.49.9.3944-3947.2005

Cited by 118 publications

(95 citation statements)

References 4 publications

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“…As per local antibiotic guidelines, patients receiving doripenem in a Malaysian intensive care unit (ICU) typically receive a standard dose of 500 mg every 8 h as a 1-h intravenous (IV) infusion. However, the appropriateness of this dosing regimen is disputable, as it is based on PK/PD data derived from earlier studies which mostly recruited heterogeneous cohorts of healthy volunteers and noncritically ill Caucasian patients (3)(4)(5)(6). Importantly, results of subsequent PK/PD studies suggest that current recommendations may be grossly flawed in critically ill patients and that optimal dosing requirements may significantly differ from that initially proposed (7)(8)(9).…”

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confidence: 99%

“…In this context, it is imperative to consider regional antibiotic susceptibility data whereby, in the Asia-Pacific region, the MIC required to inhibit the growth of 90% of organisms (MIC 90 ) for doripenem against P. aeruginosa was reported as 8 mg/liter (15,16). However, a typical dose of 500 mg every 8 h as a 1-h infusion is reported to be effective only against pathogens with an MIC of Յ2 mg/liter; its application, therefore, is likely to fail in such a scenario (4,6).…”

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Population Pharmacokinetics of Doripenem in Critically Ill Patients with Sepsis in a Malaysian Intensive Care Unit

Abdul‐Aziz

Rahman

Mat-Nor

et al. 2016

Antimicrob Agents Chemother

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g Doripenem has been recently introduced in Malaysia and is used for severe infections in the intensive care unit. However, limited data currently exist to guide optimal dosing in this scenario. We aimed to describe the population pharmacokinetics of doripenem in Malaysian critically ill patients with sepsis and use Monte Carlo dosing simulations to develop clinically relevant dosing guidelines for these patients. In this pharmacokinetic study, 12 critically ill adult patients with sepsis receiving 500 mg of doripenem every 8 h as a 1-hour infusion were enrolled. Serial blood samples were collected on 2 different days, and population pharmacokinetic analysis was performed using a nonlinear mixed-effects modeling approach. A two-compartment linear model with between-subject and between-occasion variability on clearance was adequate in describing the data. The typical volume of distribution and clearance of doripenem in this cohort were 0.47 liters/kg and 0.14 liters/kg/h, respectively. Doripenem clearance was significantly influenced by patients' creatinine clearance (CL CR ), such that a 30-ml/min increase in the estimated CL CR would increase doripenem CL by 52%. Monte Carlo dosing simulations suggested that, for pathogens with a MIC of 8 mg/liter, a dose of 1,000 mg every 8 h as a 4-h infusion is optimal for patients with a CL CR of 30 to 100 ml/min, while a dose of 2,000 mg every 8 h as a 4-h infusion is best for patients manifesting a CL CR of >100 ml/min. Findings from this study suggest that, for doripenem usage in Malaysian critically ill patients, an alternative dosing approach may be meritorious, particularly when multidrug resistance pathogens are involved.

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Population Pharmacokinetics of Doripenem in Critically Ill Patients with Sepsis in a Malaysian Intensive Care Unit

Abdul‐Aziz

Rahman

Mat-Nor

et al. 2016

Antimicrob Agents Chemother

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“…It is approved for complicated intra-abdominal and complicated urinary tract infections (UTI) in the United States and in Europe, where it is also approved for nosocomial pneumonia (15). All carbapenems (except for ertapenem) have very similar pharmacokinetics, including halflife (1 h), protein binding (2 to 20%), distribution properties (0.23 to 0.35 liters/kg of body weight), and temporal plasma profiles (3,29).…”

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“…Using doripenem dosing regimens intended for clinical use, Bhavnani et al developed a population pharmacokinetic model from limited intensively sampled data from a phase 1 study of 24 healthy volunteers with normal renal function (3). Simulation results based on this model predicted that 500 mg of doripenem infused over 1 h, administered every 8 h, would be effective against bacterial strains with MICs up to 2 g/ml and that less susceptible strains could be treated with a more prolonged infusion.…”

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Population Pharmacokinetics of Doripenem Based on Data from Phase 1 Studies with Healthy Volunteers and Phase 2 and 3 Studies with Critically Ill Patients

Nandy

Samtani

Lin

2010

Antimicrob Agents Chemother

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A population pharmacokinetic model of doripenem was constructed using data pooled from phase 1, 2, and 3 studies utilizing nonlinear mixed effects modeling. A 2-compartment model with zero-order input and first-order elimination best described the log-transformed concentration-versus-time profile of doripenem. The model was parameterized in terms of total clearance (CL), central volume of distribution (V c ), peripheral volume of distribution (V p ), and distribution clearance between the central and peripheral compartments (Q). The final model was described by the following equations (for jth subject): CL j (liters/h) ‫؍‬ 13. interindividual variability (percent coefficient of variation [% CV]) for CL (liters/h), V c (liters), V p (liters), and Q (liters/h) were 13.6 (19%), 11.6 (19%), 6.0 (25%), and 4.7 (42%), respectively. Residual variability, estimated using three separate additive residual error models, was 0.17 standard deviation (SD), 0.55 SD, and 0.92 SD for phase 1, 2, and 3 data, respectively. Creatinine clearance was the most significant predictor of doripenem clearance. Mean Bayesian clearance was approximately 33%, 55%, and 76% lower for individuals with mild, moderate, or severe renal impairment, respectively, than for those with normal renal function. The population pharmacokinetic model based on healthy volunteer data and patient data informs us of doripenem disposition in a more general population as well as of the important measurable intrinsic and extrinsic factors that significantly influence interindividual pharmacokinetic differences.

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“…8) In particular, this kind of methodology is informative for the development of antibiotic agents, since there is clear evidence that the pharmacological effect is well correlated to some PK/PD parameters. 9,10) Hemodialysis is a physical process that can be described by a mathematical model. 3,11) There are many factors affecting drug removal during hemodialysis, including molecular weight, lipid and water solubility, surface area, porosity of the dialysis membrane, blood and dialysate flow rates, protein binding and red blood cell partitioning.…”

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confidence: 99%

Prediction of Pharmacokinetics of Antibiotics in Patients with End-Stage Renal Disease

Tajima

Nagashima²,

Torii³

et al. 2006

Biological & Pharmaceutical Bulletin

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The pharmacokinetics in patients with end-stage renal disease (ESRD) is quite different from that in patients with normal renal function. Numerous approaches are undertaken to appropriately adjust the dosage regimens of renal excretory drugs in ESRD patients because the systemic exposure in this population unexpectedly increases and frequently causes adverse events. In contrast, hemodialysis sometimes results in an inadequate decrease of the plasma drug level from the therapeutic range.1-4) Consequently, pharmacokinetic information for ESRD patients is requisite in the process of new drug development in order to ascertain the effect of renal failure on tolerability and exposure and to determine the dosage regimen. 5)However, the clinical study of ESRD patients has not often been performed due to difficulties with patient enrollment. In such cases, prediction of the pharmacokinetics might be an alternative to clinical studies and provide useful information for optimizing the dosage regimen.Modeling and simulation have been explored by many scientists, 6,7) and recently virtual clinical trials based on pharmacokinetics and pharmacodynamics (PK/PD) modeling and subsequent simulation have been employed for decisionmaking in drug development prior to cost consuming phase III/IV trials. 8) In particular, this kind of methodology is informative for the development of antibiotic agents, since there is clear evidence that the pharmacological effect is well correlated to some PK/PD parameters. 9,10) Hemodialysis is a physical process that can be described by a mathematical model. 3,11) There are many factors affecting drug removal during hemodialysis, including molecular weight, lipid and water solubility, surface area, porosity of the dialysis membrane, blood and dialysate flow rates, protein binding and red blood cell partitioning. Even though some methods were previously developed considering these factors, they are complicated for clinical use. Thus, we are trying to develop a simple method based on several assumptions. Utilization of the chemical structure and pharmacokinetic relationship can be a useful approach for the prediction of pharmacokinetics.6) For example, apparent oral clearances in humans could be adequately extrapolated from animal data, while the structural parameters could be evaluated by a multivariate analysis of various drugs selected in view of their structure, molecular weight, partition coefficient, number of hydrogen bond acceptors, pharmacological activities, and pharmacokinetic characteristics.12) Antibiotics are suitable for this approach because they are diverse enough to evaluate the method in terms of various physicochemical and pharmacokinetic properties.13)The purpose of this study was to provide a new method for the prediction of pharmacokinetics in ESRD patients and to confirm its validity and applicability using an experimental renal failure model. A novel and convenient method to predict the pharmacokinetics of several kinds of antibiotic agents in patients with end-stage renal dise...

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Use of Pharmacokinetic-Pharmacodynamic Target Attainment Analyses To Support Phase 2 and 3 Dosing Strategies for Doripenem

Cited by 118 publications

References 4 publications

Population Pharmacokinetics of Doripenem in Critically Ill Patients with Sepsis in a Malaysian Intensive Care Unit

Population Pharmacokinetics of Doripenem in Critically Ill Patients with Sepsis in a Malaysian Intensive Care Unit

Population Pharmacokinetics of Doripenem Based on Data from Phase 1 Studies with Healthy Volunteers and Phase 2 and 3 Studies with Critically Ill Patients

Prediction of Pharmacokinetics of Antibiotics in Patients with End-Stage Renal Disease

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