Bone Penetration of Amoxicillin and Clavulanic Acid Evaluated by Population Pharmacokinetics and Monte Carlo Simulation

Landersdorfer, Cornelia B.; Kinzig, Martina; Bulitta, Jürgen B.; Hennig, F. F.; Holzgrabe, Ulrike; Sörgel, Fritz; Gusinde, J.

doi:10.1128/aac.01119-08

Cited by 32 publications

(25 citation statements)

References 47 publications

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“…Although CA itself has minimal antibacterial in vitro activity, when combined with beta-lactam antibiotics (amoxicillin) it enhances activity against non-ß-lactamase producing microorganisms and has a promising activity against pathogens that cause bone infections. 38 In the present study A-CA showed the lowest bacterial resistance; there was a significant statistical difference when compared with the clindamycin and amoxicillin groups. These findings are in agreement with reports from different countries, which suggest that A-CA is an excellent antibiotic alternative for primary and refractory dental infections, especially in acute endodontic abscesses/cellulitis.…”

Section: Discussionsupporting

confidence: 41%

Molecular identification and antibiotic resistant bacteria isolated from primary dentition infections

et al. 2014

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Background: Bacterial resistance to antibiotics is a health problem in many parts of the world. The aim of this study was to identify bacteria from dental infections and determine bacterial resistance to antibiotics used in dental care in the primary dentition. Methods: This cross-sectional study comprised 60 children who presented for dental treatment for active dental infections in the primary dentition. Samples from dental infections were collected and bacteria were identified by polymerase chain reaction (PCR) assay. Bacterial resistance to antibiotics was determined by colony forming units on agar plates containing amoxicillin, clindamycin and amoxillicin-clavulanic acid (A-CA) tested at 8 lg/ml or 16 lg/ml. Results: Clindamycin in both concentrations tested (8 lg/ml and 16 lg/ml) showed the highest bacterial resistance (85.9%), followed by amoxicillin (43.7%) and A-CA (12.0%). All comparisons among the three antibiotics used in the study exhibited statistical significance (p = <0.05) in both concentrations tested (8 lg/ml and 16 lg/ml), and under aerobic and anaerobic conditions. The most prevalent resistant species identified by PCR in primary dentition infections were: Streptococcus oralis and Prevotella intermedia (75.0%); Treponema denticola and Porphyromonas gingivalis (48.3%); Streptococcus mutans (45.0%); Campylobacter rectus; and Streptococcus salivarius (40%). Conclusions: This study demonstrated that A-CA exhibited the lowest bacterial resistance for clinical isolates in primary dentition infections.

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Section: Discussionsupporting

confidence: 41%

Molecular identification and antibiotic resistant bacteria isolated from primary dentition infections

et al. 2014

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“…Additional models were studied for which subcutaneous tissue and peritoneal fluid were described by additional compartments with a small volume of distribution (fixed to 0.1 liter), as we described previously (14). The small volume of distribution (0.1 liter) was chosen to not affect the overall PK behavior of meropenem.…”

Section: Methodsmentioning

confidence: 99%

Population Pharmacokinetics and Target Attainment of Meropenem in Plasma and Tissue of Morbidly Obese Patients after Laparoscopic Intraperitoneal Surgery

Wittau

Scheele

Kurlbaum

et al. 2015

Antimicrob Agents Chemother

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c Meropenem serves as a clinically important, broad-spectrum antibiotic. While meropenem is commonly used in obese patients, its pharmacokinetics in this patient group is not well known. Our aim was to characterize the population pharmacokinetics and target attainment in plasma, subcutaneous tissue, and peritoneal fluid for meropenem in morbidly obese patients. Four doses of 1g meropenem were given as 15-min infusions every 8 h to five morbidly obese patients (body mass index [BMI], 47.6 to 62.3 kg/m 2 ). After the fourth dose, serial meropenem concentrations were determined in plasma and, via microdialysis, in subcutaneous tissue and peritoneal fluid. All concentrations were analyzed simultaneously via population modeling, and target attainment probabilities predicted via Monte Carlo simulations using the target of unbound meropenem concentrations above the MIC for at least 40% of the dosing interval. For patients with 53 kg fat-free mass, total clearance was 18.7 liters/h and volume of distribution at steady state was 27. W hile antimicrobial resistance is one of the greatest threats to human health, the number of new antibiotics against multidrug-resistant bacteria declined drastically over the last 3 decades (1-3). Meropenem continues to serve as an important component of our antibiotic armamentarium and covers a large range of clinically relevant pathogens for antibiotic therapy, including those causing intra-abdominal infections or infections of the subcutaneous tissue. Meropenem is a potent, broad-spectrum ␤-lactam antibiotic that yields relatively rapid bacterial killing and is among the first antibiotic options for treatment of severe infections; it covers most of the pathogens relevant for intra-abdominal infections (4). Meropenem is a hydrophilic molecule, and it is unknown whether meropenem penetrates well into the subcutaneous tissue and peritoneal fluid of obese patients.Obese patients are at a high risk of postoperative and hospitalrelated infections (5), and optimal management of these infections is crucial to improve the outcome of obese patients with severe infections. The selection of the antibiotic and dose are critical to manage those infections (5, 6). Recommended daily doses are based on pharmacokinetic/pharmacodynamic (PK/PD) studies usually conducted in nonobese healthy volunteers (5). However, PK variables may differ in obese and nonobese patients, potentially resulting in inadequate antibiotic plasma and tissue concentrations. Thus, PK studies in obese, noninfected individuals are essential to avoid the risk of over-or underdosing.Only a few studies have assessed the PK of meropenem in obese patients (4-8), and some of these studies found considerably different clearances and volumes of distribution in obese and nonobese patients. These studies did not perform population pharmacokinetic modeling and did not assess the peritoneal fluid and subcutaneous tissue penetration of meropenem in obese patients.As meropenem is a hydrophilic molecule, it is important to determine whether its PK is...

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“…An additive variability model was used for parameters estimated on log scale. A three-stage hierarchical analysis in S-ADAPT was performed to model the data of the time-kill experiments with various concentrations of Ca 2ϩ , Mg 2ϩ , or EDTA using methods described previously (37). The population PD results of the inoculum effect modeling in S-ADAPT were used as prior information.…”

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confidence: 99%

Attenuation of Colistin Bactericidal Activity by High Inoculum of Pseudomonas aeruginosa Characterized by a New Mechanism-Based Population Pharmacodynamic Model

Bulitta

Yang

Yohonn

et al. 2010

Antimicrob Agents Chemother

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130

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Colistin is increasingly being utilized against Gram-negative pathogens, including Pseudomonas aeruginosa, resistant to all other antibiotics. Since limited data exist regarding killing by colistin at different initial inocula (CFUo), we evaluated killing of Pseudomonas aeruginosa by colistin at several CFUo and developed a mechanism-based mathematical model accommodating a range of CFUo. In vitro time-kill experiments were performed using >8 concentrations up to 64 ؋ the MIC of colistin against P. aeruginosa PAO1 and two clinical P. aeruginosa isolates at CFUo of 10 6 , 10 8 , and 10 9 CFU/ml. Serial samples up to 24 h were simultaneously modeled in the NONMEM VI (results shown) and S-ADAPT software programs. The mathematical model was prospectively "validated" by additional time-kill studies assessing the effect of Ca 2؉ and Mg 2؉ on killing of PAO1 by colistin. Against PAO1, killing of the susceptible population was 23-fold slower at the 10 9 CFUo and 6-fold slower at the 10 8 CFUo than at the 10 6 CFUo. The model comprised three populations with different second-order killing rate constants (5.72, 0.369, and 0.00210 liters/h/mg). Bacteria were assumed to release signal molecules stimulating a phenotypic change that inhibits killing. The proposed mechanism-based model had a good predictive performance, could describe killing by colistin for all three studied strains and for two literature studies, and performed well in a prospective validation with various concentrations of Ca 2؉ and Mg 2؉ . The extent and rate of killing of P. aeruginosa by colistin were markedly decreased at high CFUo compared to those at low CFUo. This was well described by a mechanism-based mathematical model, which should be further validated using dynamic in vitro models.

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Bone Penetration of Amoxicillin and Clavulanic Acid Evaluated by Population Pharmacokinetics and Monte Carlo Simulation

Cited by 32 publications

References 47 publications

Molecular identification and antibiotic resistant bacteria isolated from primary dentition infections

Molecular identification and antibiotic resistant bacteria isolated from primary dentition infections

Population Pharmacokinetics and Target Attainment of Meropenem in Plasma and Tissue of Morbidly Obese Patients after Laparoscopic Intraperitoneal Surgery

Attenuation of Colistin Bactericidal Activity by High Inoculum of Pseudomonas aeruginosa Characterized by a New Mechanism-Based Population Pharmacodynamic Model

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