Macrophage response to microtextured silicone

Colistin is used to treat infections caused by multidrug-resistant gram-negative bacteria (MDR-GNB). It is administered intravenously in the form of colistin methanesulfonate (CMS), which is hydrolyzed in vivo to the active drug. However, pharmacokinetic data are limited. The aim of the present study was to characterize the pharmacokinetics of CMS and colistin in a population of critically ill patients. Patients receiving colistin for the treatment of infections caused by MDR-GNB were enrolled in the study; however, patients receiving a renal replacement therapy were excluded. CMS was administered at a dose of 3 million units (240 mg) every 8 h. Venous blood was collected immediately before and at multiple occasions after the first and the fourth infusions. Plasma CMS and colistin concentrations were determined by a novel liquid chromatography-tandem mass spectrometry method after a rapid precipitation step that avoids the significant degradation of CMS and colistin. Population pharmacokinetic analysis was performed with the NONMEM program. Eighteen patients (6 females; mean age, 63.6 years; mean creatinine clearance, 82.3 ml/min) were included in the study. For CMS, a two-compartment model best described the pharmacokinetics, and the half-lives of the two phases were estimated to be 0.046 h and 2.3 h, respectively. The clearance of CMS was 13.7 liters/h. For colistin, a one-compartment model was sufficient to describe the data, and the estimated half-life was 14.4 h. The predicted maximum concentrations of drug in plasma were 0.60 mg/liter and 2.3 mg/liter for the first dose and at steady state, respectively. Colistin displayed a half-life that was significantly long in relation to the dosing interval. The implications of these findings are that the plasma colistin concentrations are insufficient before steady state and raise the question of whether the administration of a loading dose would benefit critically ill patients.

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Epidemiology and outcome of acute lung injury in European intensive care units

Brun‐Buisson

et al. 2004

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Immunothrombosis in Acute Respiratory Distress Syndrome: Cross Talks between Inflammation and Coagulation

Frantzeskaki¹,

Armaganidis²,

Orfanos³

2016

Respiration

229

251

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Acute respiratory distress syndrome (ARDS) is defined as a syndrome of acute onset, with bilateral opacities on chest imaging and respiratory failure not caused by cardiac failure, leading to mild, moderate, or severe oxygenation impairment. The syndrome is most commonly a manifestation of sepsis-induced organ dysfunction, characterized by disruption of endothelial barrier integrity and diffuse lung damage. Imbalance between coagulation and inflammation is a predominant characteristic of ARDS, leading to extreme inflammatory response and diffuse fibrin deposition in vascular capillary bed and alveoli. Activated platelets, neutrophils, endothelial cells, neutrophil extracellular traps, microparticles, and coagulation proteases, participate in the complex process of immunothrombosis, which is a key event in ARDS pathophysiology. The present review is focused on the elucidation of immunothrombosis in ARDS and the potential therapeutic implications.

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An Outbreak of Infection due to β‐LactamaseKlebsiella pneumoniaeCarbapenemase 2–ProducingK. pneumoniaein a Greek University Hospital: Molecular Characterization, Epidemiology, and Outcomes

Souli¹,

Galani²,

Antoniadou³

et al. 2010

CLIN INFECT DIS

277

202

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Application of a Loading Dose of Colistin Methanesulfonate in Critically Ill Patients: Population Pharmacokinetics, Protein Binding, and Prediction of Bacterial Kill

Mohamed

Karaiskos

Plachouras

et al. 2012

Antimicrob Agents Chemother

203

208

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A previous pharmacokinetic study on dosing of colistin methanesulfonate (CMS) at 240 mg (3 million units [MU]) every 8 h indicated that colistin has a long half-life, resulting in insufficient concentrations for the first 12 to 48 h after initiation of treatment. A loading dose would therefore be beneficial. The aim of this study was to evaluate CMS and colistin pharmacokinetics following a 480-mg (6-MU) loading dose in critically ill patients and to explore the bacterial kill following the use of different dosing regimens obtained by predictions from a pharmacokinetic-pharmacodynamic model developed from an in vitro study on Pseudomonas aeruginosa. The unbound fractions of colistin A and colistin B were determined using equilibrium dialysis and considered in the predictions. Ten critically ill patients (6 males; mean age, 54 years; mean creatinine clearance, 82 ml/min) with infections caused by multidrug-resistant Gram-negative bacteria were enrolled in the study. The pharmacokinetic data collected after the first and eighth doses were analyzed simultaneously with the data from the previous study (total, 28 patients) in the NONMEM program. For CMS, a two-compartment model best described the pharmacokinetics, and the half-lives of the two phases were estimated to be 0.026 and 2.2 h, respectively. For colistin, a one-compartment model was sufficient and the estimated half-life was 18.5 h. The unbound fractions of colistin in the patients were 26 to 41% at clinical concentrations. Colistin A, but not colistin B, had a concentration-dependent binding. The predictions suggested that the time to 3-log-unit bacterial kill for a 480-mg loading dose was reduced to half of that for the dose of 240 mg.

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Apostolos Armaganidis

Population Pharmacokinetic Analysis of Colistin Methanesulfonate and Colistin after Intravenous Administration in Critically Ill Patients with Infections Caused by Gram-Negative Bacteria

Epidemiology and outcome of acute lung injury in European intensive care units

Immunothrombosis in Acute Respiratory Distress Syndrome: Cross Talks between Inflammation and Coagulation

An Outbreak of Infection due to β‐LactamaseKlebsiella pneumoniaeCarbapenemase 2–ProducingK. pneumoniaein a Greek University Hospital: Molecular Characterization, Epidemiology, and Outcomes

Application of a Loading Dose of Colistin Methanesulfonate in Critically Ill Patients: Population Pharmacokinetics, Protein Binding, and Prediction of Bacterial Kill

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