Population Pharmacokinetics and Pharmacodynamics of Continuous versus Short-Term Infusion of Imipenem-Cilastatin in Critically Ill Patients in a Randomized, Controlled Trial

Sakka, Samir G.; Glauner, Anna K.; Bulitta, Jürgen B.; Kinzig‐Schippers, Martina; Pfister, W.; Drusano, George L.; Sörgel, Fritz

doi:10.1128/aac.01318-06

Cited by 141 publications

(148 citation statements)

References 32 publications

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“…A tobramycin concentration of 4 mg/liter and isepamicin concentrations of 8 to 16 mg/liter represent the average unbound plasma concentrations in humans over a 24-h dosing interval for tobramycin at 7 mg/kg of body weight and 15 or 25 mg/kg isepamicin given once daily (17,26). Additional experimental arms with 12 mg/ liter tobramycin and 64 mg/liter isepamicin represent the average free plasma concentration of aminoglycosides during the first 6 h. For the highest clinically approved imipenem doses of 4 g per day, our Monte Carlo simulations predicted the unbound average steady-state concentrations to range from 7.61 to 22.6 mg/liter in adult critically ill patients (27).…”

Section: Methodsmentioning

confidence: 99%

Novel Approach To Optimize Synergistic Carbapenem-Aminoglycoside Combinations against Carbapenem-Resistant Acinetobacter baumannii

Yadav

Landersdorfer

Nation

et al. 2015

Antimicrob Agents Chemother

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cAcinetobacter baumannii is among the most dangerous pathogens and emergence of resistance is highly problematic. Our objective was to identify and rationally optimize ␤-lactam-plus-aminoglycoside combinations via novel mechanism-based modeling that synergistically kill and prevent resistance of carbapenem-resistant A. baumannii. We studied combinations of 10 ␤-lactams and three aminoglycosides against four A. baumannii strains, including two imipenem-intermediate (MIC, 4 mg/liter) and one imipenem-resistant (MIC, 32 mg/liter) clinical isolate, using high-inoculum static-concentration time-kill studies. We present the first application of mechanism-based modeling for killing and resistance of A. baumannii using Monte Carlo simulations of human pharmacokinetics to rationally optimize combination dosage regimens for immunocompromised, critically ill patients. All monotherapies achieved limited killing (<2.3 log 10 ) of A. baumannii ATCC 19606 followed by extensive regrowth for aminoglycosides. Against this strain, imipenem-plus-aminoglycoside combinations yielded more rapid and extensive killing than other ␤-lactam-plus-aminoglycoside combinations. Imipenem at 8 mg/ liter combined with an aminoglycoside yielded synergistic killing (>5 log 10 ) and prevented regrowth of all four strains. Modeling demonstrated that imipenem likely killed the aminoglycoside-resistant population and vice versa and that aminoglycosides enhanced the target site penetration of imipenem. Against carbapenem-resistant A. baumannii (MIC, 32 mg/ liter), optimized combination regimens (imipenem at 4 g/day as a continuous infusion plus tobramycin at 7 mg/kg of body weight every 24 h) were predicted to achieve >5 log 10 killing without regrowth in 98.2% of patients. Bacterial killing and suppression of regrowth were best achieved for combination regimens with unbound imipenem steady-state concentrations of at least 8 mg/liter. Imipenem-plus-aminoglycoside combination regimens are highly promising and warrant further evaluation.A ntimicrobial resistance in Gram-negative bacteria is one of the three greatest threats to human health (1-3). Acinetobacter baumannii is one of the three most challenging Gram-negative pathogens, especially in intensive care units. In approximately 14,000 critically ill patients, A. baumannii infections were highly associated (P Ͻ 0.001) with increased mortality (4). A. baumannii often causes bloodstream, respiratory tract (including ventilatorassociated pneumonia), and wound infections (including burns and combat wounds); these are associated with high morbidity (1, 2, 5) and up to 87% mortality (6). Multidrug-resistant A. baumannii strains have caused major outbreaks in the United States and worldwide (7,8).In the past, ␤-lactams and aminoglycosides were successfully used to treat susceptible A. baumannii (9), but unfortunately, strains have emerged that are resistant to virtually all antibiotics in monotherapy (10, 11). While carbapenems were hitherto considered the treatment of choice against severe A. baumannii infe...

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Section: Methodsmentioning

confidence: 99%

Novel Approach To Optimize Synergistic Carbapenem-Aminoglycoside Combinations against Carbapenem-Resistant Acinetobacter baumannii

Yadav

Landersdorfer

Nation

et al. 2015

Antimicrob Agents Chemother

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“…Concentrations of colistins A and B and their prodrugs, colistin methanesulfonate A and colistin methanesulfonate B, as well as tigecycline and imipenem, were measured using high-pressure liquid chromatography-tandem mass spectrometry (HPLC-MS/MS) (19)(20)(21). The maximum concentration of drug in serum (C max ), the area under the concentration-time curve from 0 h to 24 h (AUC 0 -24 ), the AUC 0 -ϱ for the free, unbound fraction of drug (fAUC 0 -24 ), the half-life (t 1/2 ), the cumulative percentage of a 24-h period that the drug concentration exceeds the MIC under steady-state pharmacokinetic conditions (%T MIC ), the AUC over 24 h in the steady state divided by the MIC for the free, unbound fraction of drug (fAUC/MIC), and the AUC/MIC value were obtained by a computer-assisted method (22).…”

Section: Methodsmentioning

confidence: 99%

Efficacy of Lysophosphatidylcholine in Combination with Antimicrobial Agents against Acinetobacter baumannii in Experimental Murine Peritoneal Sepsis and Pneumonia Models

Parra-Millán

Sánchez-Encinales

et al. 2016

Antimicrob Agents Chemother

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bImmune response stimulation to prevent infection progression may be an adjuvant to antimicrobial treatment. Lysophosphatidylcholine (LPC) is an immunomodulator involved in immune cell recruitment and activation. In this study, we aimed to evaluate the efficacy of LPC in combination with colistin, tigecycline, or imipenem in experimental murine models of peritoneal sepsis and pneumonia. We used Acinetobacter baumannii strain Ab9, which is susceptible to colistin, tigecycline, and imipenem, and multidrug-resistant strain Ab186, which is susceptible to colistin and resistant to tigecycline and imipenem. Pharmacokinetic and pharmacodynamic parameters for colistin, tigecycline, and imipenem and the 100% minimal lethal dose (MLD 100 ) were determined for both strains. The therapeutic efficacies of LPC, colistin (60 mg/kg of body weight/day), tigecycline (10 mg/kg/day), and imipenem (180 mg/kg/day), alone or in combination, were assessed against Ab9 and Ab186 at the MLD 100 in murine peritoneal sepsis and pneumonia models. The levels of pro-and anti-inflammatory cytokines, i.e., tumor necrosis factor alpha (TNF-␣) and interleukin-10 (IL-10), were determined by enzyme-linked immunosorbent assay (ELISA) for the same experimental models after inoculating mice with the MLD of both strains. LPC in combination with colistin, tigecycline, or imipenem markedly enhanced the bacterial clearance of Ab9 and Ab186 from the spleen and lungs and reduced bacteremia and mouse mortality rates (P < 0.05) compared with those for colistin, tigecycline, and imipenem monotherapies. Moreover, at 4 h post-bacterial infection, Ab9 induced higher TNF-␣ and lower IL-10 levels than those with Ab186 (4 g/ml versus 3 g/ml [P < 0.05] and 2 g/ml versus 3.4 g/ml [P < 0.05], respectively). LPC treatment combined with colistin, tigecycline, or imipenem modestly reduced the severity of infection by A. baumannii strains with different resistance phenotypes compared to LPC monotherapy in both experimental models.A cinetobacter baumannii is a Gram-negative coccobacillus with high clinical relevance due to the different severe nosocomial infections that it causes, mainly in intensive care units, and its capacity to develop resistance to most of the antimicrobial agents used in clinical practice (1).A multidrug resistance pattern is commonly observed for A. baumannii isolates, raising the threat of impossible-to-treat infections (2). These multidrug-resistant (MDR) isolates are generally susceptible to polymyxins (colistin and polymyxin B) and resistant to imipenem and tigecycline (3, 4). The limited antimicrobial alternatives for the treatment of severe infections by MDR A. baumannii make the search for other therapeutic options urgent. Polymyxins have been used as a last resort to treat infections by MDR A. baumannii. In humans, suboptimal and optimal doses of colistin to treat ventilator-associated pneumonia due to MDR A. baumannii prevent mortality in only 38.1% and 62.5% of cases, respectively (5, 6). Recently, in a clinical trial at our hospital, treatm...

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“…A previous PD study in critically ill patients with VAP found that a 90% PTA achieving 40% T >MIC was observed at a MIC of 1-2 μg/mL when imipenem was administered by a 40 min infusion of 1 g q8h, whereas a continuous infusion of a daily dosage of 2 g of imipenem had a 90% PTA for achieving a target of 40% T >MIC at a MIC of 2-4 μg/ mL [8]. In the current study, the probability of a 4-h infusion regimen achieving a target of 40% fT >MIC were superior to a 1-h infusion regimen in an equivalent daily dosage of imipenem, therefore, a prolonged 4-h infusion regimen was a more effective strategy to achieve optimal PD exposure for pathogens with higher MIC than a 1-h infusion regimen.…”

Section: Pk Analysismentioning

confidence: 99%

“…It was found that a two-compartment model is adequate for describing distribution phase of imipenem [7,8], so it was employed in this study. Due to the high values of the rate constants in the differential equations, computation instabilities were expected, hence Taylor series expansion method [9] was used to solve the differential equations to avoid this problem by computing them until convergence of the final results was achieved.…”

Section: Pk Analysismentioning

confidence: 99%

Population pharmacokinetics and Monte Carlo dosing simulations of imipenem in patients with ventilator-associated pneumonia

Jaruratanasirikul¹,

Wongpoowarak²,

Nawakitrangson³

et al. 2017

Lung Breath J

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An alteration of pathophysiology in critically ill patients, resulting in pharmacokinetic change, are important factors in determining the therapeutic outcome of β-lactam antibiotics. The aims of this study were to reveal the population PK and assess the probability of target attainment (PTA) of imipenem in order to be able to optimize dosing recommendations for treatment of patients with VAP. Patients were randomized into two groups: Group I received a 0.5-h infusion of 0.5 g every 6 h (q6h) for nine doses and Group II received a 4-h infusion of 1 g q8h for seven doses. A Monte Carlo simulation was performed to determine the PTAs of achieving 20% T >MIC (exposure time during which the free drug concentration remains above the minimum inhibitory concentration (MIC)) and 40% T >MIC . The volume of distribution (Vd) and total clearance (CL) of imipenem were 15.89 L and 20.87 L/h, respectively. The high PTA (≥90%) achieving 40% fT >MIC for MICs of 4 μg/mL was observed when imipenem was administered by a 4-h infusion of 1 g q8h or 1 g q6h. These findings showed that the values of Vd and CL of imipenem in this patient population were greater than the values obtained from healthy subjects. A higher than recommended dosage regimen of imipenem may be required to optimize pharmacodynamic targets.

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Population Pharmacokinetics and Pharmacodynamics of Continuous versus Short-Term Infusion of Imipenem-Cilastatin in Critically Ill Patients in a Randomized, Controlled Trial

Cited by 141 publications

References 32 publications

Novel Approach To Optimize Synergistic Carbapenem-Aminoglycoside Combinations against Carbapenem-Resistant Acinetobacter baumannii

Novel Approach To Optimize Synergistic Carbapenem-Aminoglycoside Combinations against Carbapenem-Resistant Acinetobacter baumannii

Efficacy of Lysophosphatidylcholine in Combination with Antimicrobial Agents against Acinetobacter baumannii in Experimental Murine Peritoneal Sepsis and Pneumonia Models

Population pharmacokinetics and Monte Carlo dosing simulations of imipenem in patients with ventilator-associated pneumonia

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