Hong Nhung Pham scite author profile

Hong Nhung Pham

4Publications

22Citation Statements Received

111Citation Statements Given

How they've been cited

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144

109

Affiliations

Bạch Mai Hospital, Korea Institute of Science and Technology, Nanomaterials Research (United States)

Publications

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Determination of optimal loading and maintenance doses for continuous infusion of vancomycin in critically ill patients: Population pharmacokinetic modelling and simulations for improved dosing schemes

Nguyen

Delattre

et al. 2019

International Journal of Antimicrobial Agents

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Objectives: Despite extensive clinical use, limited data are available on optimal loading and maintenance doses of vancomycin in critically ill patients. This study aimed to develop a rational approach for optimised dosage of vancomycin given in a continuous infusion in critically ill patients. Methods: Vancomycin pharmacokinetic (PK) data (total serum concentrations) were obtained from 55 intensive care unit (ICU) patients (Bach Mai Hospital, Hanoi, Vietnam) receiving a 20 mg/kg loading dose followed by continuous infusion stratified by creatinine clearance (CLCr). Population PK modelling and Monte Carlo simulations were performed using a nonlinear mixed-effects modelling (NONMEM) program for a target of 20-30 mg/L to optimise efficacy and minimise nephrotoxicity. Results: A two-compartment model with first-order elimination best fitted the PK data with central and peripheral volumes of distribution of 1.01 and 2.39 L/kg, respectively (allometric scaling to a 70 kg standard subject). The population total clearance of 3.63 L/h was only explained by renal function in the covariate and final model. The simulations showed that a 25-mg/kg loading dose infused over 90 minutes was optimal to reach the target range. The optimal maintenance dose for low renal function (CLCr < 45 mL/min) was 10 0 0-150 0 mg/day. For augmented renal clearance (CLCr > 130 mL/min) the dose should be up to 3500 mg/day or even 4500 mg/day to achieve adequate exposure. These simulated maintenance doses were larger than previously proposed for non-ICU patients. Conclusion: Large loading and maintenance doses of vancomycin are generally needed in critically ill patients. Because of high interindividual variability in vancomycin PK, drug monitoring may still be necessary.

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High-density Cu–In intermetallic nanocrystal layers: towards high-efficiency printable CuInSe₂ solar cells

et al. 2015

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Optimizing Meropenem in Highly Resistant Klebsiella pneumoniae Environments: Population Pharmacokinetics and Dosing Simulations in Critically Ill Patients

Quan

Dao

et al. 2022

Antimicrob Agents Chemother

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Predicting mortality in intensive care unit patients infected with Klebsiella pneumoniae: A retrospective cohort study

Tran

Nguyen

et al. 2022

Journal of Infection and Chemotherapy

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Hong Nhung Pham

Determination of optimal loading and maintenance doses for continuous infusion of vancomycin in critically ill patients: Population pharmacokinetic modelling and simulations for improved dosing schemes

High-density Cu–In intermetallic nanocrystal layers: towards high-efficiency printable CuInSe₂ solar cells

Optimizing Meropenem in Highly Resistant Klebsiella pneumoniae Environments: Population Pharmacokinetics and Dosing Simulations in Critically Ill Patients

Predicting mortality in intensive care unit patients infected with Klebsiella pneumoniae: A retrospective cohort study

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Hong Nhung Pham

Determination of optimal loading and maintenance doses for continuous infusion of vancomycin in critically ill patients: Population pharmacokinetic modelling and simulations for improved dosing schemes

High-density Cu–In intermetallic nanocrystal layers: towards high-efficiency printable CuInSe2 solar cells

Optimizing Meropenem in Highly Resistant Klebsiella pneumoniae Environments: Population Pharmacokinetics and Dosing Simulations in Critically Ill Patients

Predicting mortality in intensive care unit patients infected with Klebsiella pneumoniae: A retrospective cohort study

Contact Info

Product

Resources

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High-density Cu–In intermetallic nanocrystal layers: towards high-efficiency printable CuInSe₂ solar cells