scholarly journals Population Pharmacokinetics of Acyclovir in Children and Young People with Malignancy after Administration of Intravenous Acyclovir or Oral Valacyclovir

2009 ◽  
Vol 53 (7) ◽  
pp. 2918-2927 ◽  
Author(s):  
L. Zeng ◽  
C. E. Nath ◽  
E. Y. L. Blair ◽  
P. J. Shaw ◽  
K. Stephen ◽  
...  
Keyword(s):  
Body Weight ◽  
Young People ◽  
Population Pharmacokinetics ◽  
Pharmacokinetic Model ◽  
Population Pharmacokinetic ◽  
Time Data ◽  
Mixed Effect ◽  
Varicella Zoster ◽  
Concentration Time ◽  
Intravenous Acyclovir

ABSTRACT Acyclovir is effective in the prevention and treatment of herpes simplex virus (HSV) and varicella-zoster virus (VZV) infections. The aim of this study was to characterize the population pharmacokinetics of acyclovir observed following treatment with intravenous acyclovir and oral valacyclovir (valaciclovir) in young people with malignancy. Plasma acyclovir concentration-time data were collected from 43 patients (age range, 9 months to 20 years) who had been given multiple doses of acyclovir (5 mg/kg of body weight) and/or valacyclovir (10 mg/kg). Nonlinear mixed-effect modeling was employed to analyze acyclovir population pharmacokinetics and identify influential covariates. Simulations (n = 1,000) were conducted to explore the ability of the current doses to maintain acyclovir concentrations above the recommended 50% inhibitory concentration for HSV or VZV (0.56 mg/liter or 1.125 mg/liter, respectively) for more than 12 h. A one-compartment pharmacokinetic model with first-order elimination best described the acyclovir concentration-time data. The population mean estimates for clearance (CL), volume of distribution (V), absorption rate (ka ), and bioavailability (F) were 3.55 liters/h, 7.36 liters, 0.63 h−1, and 0.60, respectively. Inclusion of body weight and estimated creatinine CL (CLCR) in the final model reduced the interindividual variabilities in CL and V from 61% to 24% and from 75% to 36%, respectively. Simulations revealed that with the use of the current doses, maximal efficacy can be achieved in over 45% of patients weighing 25 to 50 kg and with CLCR levels of 2.0 to 4.0 liters/h/m2, but only in a much smaller proportion of patients, with low weights (10 kg) and high CLCRs (5.5 liters/h/m2), suggesting that higher doses are required for this subgroup. This validated population pharmacokinetic model for acyclovir may be used to develop dosing guidelines for safe and effective antiviral therapy in young people with malignancy.

scholarly journals P61 Population pharmacokinetics of vancomycin in chinese ICU neonates: initial dosage recommendations

2019 ◽  
Vol 104 (6) ◽  
pp. e42.2-e42
Author(s):  
Z Li ◽  
Z Jiao
Keyword(s):  
Body Weight ◽  
Population Pharmacokinetics ◽  
Pharmacokinetic Model ◽  
Preterm Neonates ◽  
Pharmacokinetic Analysis ◽  
Population Pharmacokinetic ◽  
List Type ◽  
Current Guideline ◽  
Mixed Effect ◽  
Pediatric Cancer Patients

The main goal of our study was to characterize the population pharmacokinetics of vancomycin in critically ill Chinese neonates to develop a pharmacokinetic model and investigate factors that have significant influences on the pharmacokinetics of vancomycin in this population.1 2 The study population consisted of 80neonates in the neonatal intensive care unit (ICU)from which 165 trough and peak concentrations of vancomycin were obtained.Nonlinear mixed effect modeling was used to develop a population pharmacokinetic model for vancomycin.4 The stability and predictive ability of the final model were evaluated based on diagnostic plots, normalized prediction distribution errorsandthe bootstrap method.Serum creatinine (Scr) and body weight were significant covariates on the clearance of vancomycin.5 6 The average clearance was 0.309L/h for a neonate with Scr of 23.3mmol/L and body weight of 2.9 kg. No obvious ethnic differences in the clearance of vancomycin were found relative to the earlier studies of Caucasian neonates. Moreover, the established model indicated that in patients with a greater renal clearance status, especially Scr < 15mmol/L,current guideline recommendationswould likely not achieve therapeuticarea under the concentration-time curve over24 h/minimum inhibitoryconcentration (AUC24h/MIC) ≥ 400.3 The exceptions to this areBritish National Formulary (2016–2017), Blue Book (2016) and Neofax (2017). Recommended dose regimensfor neonates with differentScrlevelsandpostmenstrual ageswere estimatedbased on Monte Carlo simulations andthe established model.These findings will be valuable for developing individualized dosage regimens in the neonatal ICU setting.ReferencesAbdel HO, Al OS, Nazer LH., Mubarak S, Le, J. Vancomycin pharmacokinetics and predicted dosage requirements in pediatric cancer patients. Journal of Oncology Pharmacy Practice 2015;22(3):448–453doi: 10.1177/1078155215591386Anderson, B. J., Allegaert, K., Jn, V. D. A., Cossey, V., &amp;Holford, N. H. ( 2007). Vancomycin pharmacokinetics in preterm neonates and the prediction of adult clearance. British Journal of Clinical Pharmacolog;63(1):75–84. doi: 10.1111/j.1365-2125.2006.02725.xAllegaert K, Anderson BJ, Jn, VDA, Vanhaesebrouck, S., & De, Z. F. ( 2007). Renal drug clearance in preterm neonates: relation to prenatal growth. Therapeutic Drug Monitoring, 29(3), 284–291. doi: 10.1097/FTD.0b013e31806db3f5Byon, W., Smith, M. K., Chan, P., Tortorici, M. A., Riley, S., & Dai, H., et al. ( 2013). Establishing best practices and guidance in population modeling: an experience with an internal population pharmacokinetic analysis guidance. CptPharmacometrics & Systems Pharmacology,2(7), e51. doi: 10.1016/j.cmpb.2010.04.018Capparelli, E. V., Lane, F. R., Romanowski, G. L., Pharm, M. F., Murray, W., & Sousa, P., et al. ( 2001). The influences of renal function and maturation on vancomycin elimination in newborns and infants. Journal of Clinical Pharmacology, 41(9), 927–934.Centers for Disease Control and Prevention. ( 2009). WHO Child Growth Standards. http://www.who.int/childgrowth/en. [EB/OL] 2017-09-12Disclosure(s)Nothing to disclose

scholarly journals Population Pharmacokinetics and Dosing Optimization of Linezolid in Pediatric Patients

2019 ◽  
Vol 63 (4) ◽  
Author(s):  
Si-Chan Li ◽  
Qi Ye ◽  
Hua Xu ◽  
Long Zhang ◽  
Yang Wang
Keyword(s):  
Body Weight ◽  
Population Pharmacokinetics ◽  
Population Pharmacokinetic Model ◽  
Pharmacokinetic Model ◽  
Pediatric Patients ◽  
Population Pharmacokinetic ◽  
Pharmacokinetic Data ◽  
Nonparametric Bootstrap ◽  
Bootstrap Analysis ◽  
Final Model

ABSTRACT Linezolid is a synthetic antibiotic very effective in the treatment of infections caused by Gram-positive pathogens. Although the clinical application of linezolid in children has increased progressively, data on linezolid pharmacokinetics in pediatric patients are very limited. The aim of this study was to develop a population pharmacokinetic model for linezolid in children and optimize the dosing strategy in order to improve therapeutic efficacy. We performed a prospective pharmacokinetic study of pediatric patients aged 0 to 12 years. The population pharmacokinetic model was developed using the NONMEM program. Goodness-of-fit plots, nonparametric bootstrap analysis, normalized prediction distribution errors, and a visual predictive check were employed to evaluate the final model. The dosing regimen was optimized based on the final model. The pharmacokinetic data from 112 pediatric patients ages 0.03 to 11.9 years were analyzed. The pharmacokinetics could best be described by a one-compartment model with first-order elimination along with body weight and the estimated glomerular filtration rate as significant covariates. Simulations demonstrated that the currently approved dosage of 10 mg/kg of body weight every 8 h (q8h) would lead to a high risk of underdosing for children in the presence of bacteria with MICs of ≥2 mg/liter. To reach the pharmacokinetic target, an elevated dosage of 15 or 20 mg/kg q8h may be required for them. The population pharmacokinetics of linezolid were characterized in pediatric patients, and simulations provide an evidence-based approach for linezolid dosage individualization.

scholarly journals Population Pharmacokinetics of Arbekacin in Patients Infected with Methicillin-Resistant Staphylococcus aureus

2006 ◽  
Vol 50 (11) ◽  
pp. 3754-3762 ◽  
Author(s):  
Yusuke Tanigawara ◽  
Reiko Sato ◽  
Kunihiko Morita ◽  
Mitsuo Kaku ◽  
Naoki Aikawa ◽  
...  
Keyword(s):  
Staphylococcus Aureus ◽  
Population Pharmacokinetics ◽  
Elderly Subjects ◽  
Pharmacokinetic Analysis ◽  
Pharmacokinetic Parameters ◽  
Peripheral Compartment ◽  
Population Pharmacokinetic ◽  
Time Data ◽  
Mixed Effect ◽  
Methicillin Resistant

ABSTRACT Arbekacin, a derivative of dibekacin, is an aminoglycoside developed and widely used in Japan for the treatment of patients infected with methicillin-resistant Staphylococcus aureus (MRSA). The population pharmacokinetics of arbekacin was investigated in the Japanese, using 353 patients infected with MRSA and 50 healthy or renally impaired volunteers. The age of the study population ranged from 8 to 95 years, and weight ranged from 10.8 to 107 kg. In total, 1,581 serum arbekacin concentrations were measured (primarily from routine patient care) and used to perform the present pharmacokinetic analysis. Drug concentration-time data were well described by a two-compartment open model. Factors influencing arbekacin pharmacokinetics were investigated using a nonlinear mixed-effect model analysis. The best-developed model showed that drug clearance (CL) was related to creatinine clearance (CLCR), age, and body weight (WT), as expressed by CL (liter/h) = 0.0319CLCR + (26.5/age) (CLCR < 80 ml/min) and CL (liter/h) = 0.0130 CLCR + 0.0342WT + (26.5/age) (CLCR ≥ 80 ml/min). The volume of distribution for the central and peripheral compartments was different in healthy subjects and infected patients, and this difference was more pronounced among disease types. The elderly subjects (aged 80 years or over) exhibited, on average, a 19% greater volume for the central compartment. The volumes for the peripheral compartment were 50.6 liters in patients with pneumonia and 24.3 liters in patients with sepsis. The population pharmacokinetic parameters of arbekacin obtained here are useful for optimal use of this aminoglycoside in the treatment of MRSA-infected patients.

Population Pharmacokinetics and Pharmacodynamics of Doripenem in Obese, Hospitalized Patients

2016 ◽  
Vol 51 (3) ◽  
pp. 209-218 ◽  
Author(s):  
Eun Kyoung Chung ◽  
Megan R. Fleming ◽  
S. Christian Cheatham ◽  
Michael B. Kays
Keyword(s):  
Body Weight ◽  
Population Pharmacokinetics ◽  
Peripheral Compartment ◽  
Population Pharmacokinetic ◽  
Obese Patients ◽  
Pharmacokinetics And Pharmacodynamics ◽  
Time Data ◽  
Population Pharmacokinetics And Pharmacodynamics ◽  
Drug Concentrations ◽  
Dosing Regimens

Background: Doripenem population pharmacokinetics and dosing recommendations are limited in obesity. Objective: To evaluate the population pharmacokinetics and pharmacodynamics of doripenem in obese patients. Methods: Hospitalized adults with a body mass index (BMI) ≥ 40 kg/m2 or total body weight (TBW) ≥45.5 kg over their ideal body weight received doripenem 500 mg every 8 hours, infused over 1 hour. Population pharmacokinetic analyses were performed using NONMEM, and Monte Carlo simulations were performed for 5 intermittent and prolonged infusion dosing regimens to calculate probability of target attainment (PTA) at 40% and 100% fT>MIC (free drug concentrations above the minimum inhibitory concentration). Results: A total of 20 patients were studied: 10 in an intensive care unit (ICU) and 10 in a non-ICU. A 2-compartment model with first-order elimination best described the serum concentration-time data. Doripenem clearance (CL) was significantly associated with creatinine CL (CRCL), volume of the central compartment with TBW and ICU residence, and volume of the peripheral compartment with TBW ( P < 0.05). Using 40% fT>MIC, PTA was >90% for all simulated dosing regimens at MICs ≤2 mg/L. Using 100% fT>MIC, prolonged infusions of 1 g every 6 hours and 2 g every 8 hours achieved >90% PTA at MICs ≤2 mg/L. Conclusions: CRCL, ICU residence, and TBW are significantly associated with doripenem pharmacokinetics. Currently approved dosing regimens provide adequate pharmacodynamic exposures at 40% fT>MIC for susceptible bacteria in obese patients. However, prolonged infusions of larger doses are needed if a higher pharmacodynamic target is desired.

scholarly journals Population Pharmacokinetic Analysis of Voriconazole Plasma Concentration Data from Pediatric Studies

2008 ◽  
Vol 53 (3) ◽  
pp. 935-944 ◽  
Author(s):  
Mats O. Karlsson ◽  
Irja Lutsar ◽  
Peter A. Milligan
Keyword(s):  
Body Weight ◽  
Plasma Concentration ◽  
Patient Population ◽  
Pediatric Patients ◽  
Population Pharmacokinetic Analysis ◽  
Pharmacokinetic Analysis ◽  
Population Pharmacokinetic ◽  
Time Data ◽  
Concentration Data ◽  
Mixed Effect

ABSTRACT Voriconazole is a potent triazole with broad-spectrum antifungal activity against clinically significant and emerging pathogens. The present population pharmacokinetic analysis evaluated voriconazole plasma concentration-time data from three studies of pediatric patients of 2 to <12 years of age, incorporating a range of single or multiple intravenous (i.v.) and/or oral (p.o.) doses. An appropriate pharmacokinetic model for this patient population was created using the nonlinear mixed-effect modeling approach. The final model described voriconazole elimination by a Michaelis-Menten process and distribution by a two-compartment model. It also incorporated a statistically significant (P < 0.001) influence of the CYP2C19 genotype and of the alanine aminotransferase level on clearance. The model was used in a number of deterministic simulations (based on various fixed, mg/kg of body weight, and individually adjusted doses) aimed at finding suitable i.v. and p.o. voriconazole dosing regimens for pediatric patients. As a result, 7 mg/kg twice a day (BID) i.v. or 200 mg BID p.o., irrespective of body weight, was recommended for this patient population. At these doses, the pediatric area-under-the-curve (AUC) distribution exhibited the least overall difference from the adult AUC distribution (at dose levels used in clinical practice). Loading doses or individual dosage adjustments according to baseline covariates are not considered necessary in administering voriconazole to children.

scholarly journals Larger Dose Reductions of Vancomycin Required in Neonates with Patent Ductus Arteriosus Receiving Indomethacin versus Ibuprofen

2019 ◽  
Vol 63 (8) ◽  
Author(s):  
S. Cristea ◽  
K. Allegaert ◽  
A. C. Falcao ◽  
F. Falcao ◽  
R. Silva ◽  
...  
Keyword(s):  
Patent Ductus Arteriosus ◽  
Pharmacokinetic Model ◽  
Ductus Arteriosus ◽  
Preterm Neonates ◽  
Population Pharmacokinetic ◽  
Time Data ◽  
Data Set ◽  
Concentration Time ◽  
The Impact ◽  
Patent Ductus

ABSTRACT Ibuprofen and indomethacin are commonly used to induce ductus arteriosus closure in preterm neonates. Our group previously reported that ibuprofen decreased vancomycin clearance by 16%. In this study, we quantified the impact of indomethacin coadministration on vancomycin clearance by extending our vancomycin population pharmacokinetic model with a data set containing vancomycin concentrations measured in preterm neonates comedicated with indomethacin. The modeling data set includes concentration-time data of vancomycin administered alone or in combination with either ibuprofen or indomethacin collected in the neonatal intensive care units of UZ Leuven (Leuven, Belgium) and São Francisco Xavier Hospital (Lisbon, Portugal). The derived vancomycin pharmacokinetic model was subsequently used to propose dose adjustments that yield effective vancomycin exposure (i.e., area under the concentration-time curve from 0 to 24 h [AUC0–24] between 300 to 550 mg·h/liter, with a probability of <0.1 of subtherapeutic exposure) in preterm neonates with patent ductus arteriosus. We found that indomethacin coadministration reduced vancomycin clearance by 55%. Model simulations showed that the most recent vancomycin dosing regimen, which was based on an externally validated model, requires 20% and 60% decreases of the loading and maintenance doses of vancomycin, respectively, when aiming for optimized exposure in the neonatal population. By analyzing vancomycin data from preterm neonates comedicated with indomethacin, we found a substantial decrease in vancomycin clearance of 55% versus a previously reported 16% for ibuprofen. This decrease in clearance impacts vancomycin dosing, and we anticipate that other drugs eliminated by glomerular filtration are likely to be affected to a similar extent as vancomycin.

Evaluating the clinical impact of a shortened infusion duration for ramucirumab: A population pharmacokinetic model-based approach.

2021 ◽  
Vol 39 (3_suppl) ◽  
pp. 191-191
Author(s):  
Paolo Abada ◽  
Yiu-Keung Lau ◽  
Ran Wei ◽  
Lisa O’Brien ◽  
Amanda Long ◽  
...  
Keyword(s):  
Infusion Rate ◽  
Population Pharmacokinetic Model ◽  
Pharmacokinetic Model ◽  
Study Data ◽  
Population Pharmacokinetic ◽  
Time Profiles ◽  
Concentration Time ◽  
Increased Risk ◽  
Grade 3 ◽  
Infusion Duration

191 Background: Ramucirumab is a human recombinant immunoglobin G1 monoclonal antibody (mAb) antagonist of vascular endothelial growth factor receptor-2. Ramucirumab dosed at 8 mg/kg every 2 weeks or 10 mg/kg every 3 weeks, either as monotherapy or in combination with chemotherapy, was initially studied with as an intravenous infusion over 60 minutes following premedication with a histamine-1 receptor antagonist. Lengthy intravenous infusions are inconvenient for patients and increase the workloads of nursing and administrative staff. Shortening the infusion duration of ramucirumab could therefore benefit both patients and healthcare professionals. The current analysis determined the impact such a change could have on the pharmacokinetic (PK) profile of ramucirumab. Additionally, the relationship between infusion rate and incidence of immediate infusion-related reactions (IRRs; occurring on the day of administration), common adverse events associated with mAb infusions, was assessed. Methods: A population pharmacokinetic model was established using concentration–time data collected from 2522 patients who received one of five different ramucirumab regimens involving an intravenous infusion over ~60 minutes in 17 clinical studies. The final PK model was used to simulate concentration–time profiles and exposure parameters following ramucirumab infusion durations of 30 vs 60 min. Phase II/III clinical study data from patients receiving ramucirumab were pooled to assess the association between ramucirumab infusion rate and incidence of immediate IRRs using multivariate logistic regression analysis. Results: Ramucirumab infusions of 30- and 60-min durations resulted in equivalent concentration–time profiles and, hence, equivalent systemic exposure to ramucirumab. Among 3216 patients receiving ramucirumab in phase II/III studies, 254 (7.9%) had at least one immediate any-grade IRR; 17 (0.5%) experienced grade ≥3 immediate IRRs. The incidence of immediate IRRs (any grade or grade ≥3) was similar across infusion rate quartiles. Under multivariate logistic analysis, infusion rate was not significantly associated with an increased risk of an immediate IRR (odds ratio per 1 mg/min increase 1.014, 95% confidence interval 0.999, 1.030; p=0.071). Conclusions: Administering ramucirumab using different infusion durations (30 vs 60 min) did not affect ramucirumab exposure. Analysis of clinical study data showed a faster infusion rate was not associated with an increased risk of immediate IRRs. It is considered unlikely that shortening the infusion duration of ramucirumab will impact its clinical efficacy or overall safety profile, and is now an option for administration in the U.S.

scholarly journals The Population Pharmacokinetics of Rifampicin in Japanese Pulmonary Tuberculosis Patients

Drug Research ◽  
2020 ◽  
Vol 70 (05) ◽  
pp. 199-205
Author(s):  
Takahiro Nishimura ◽  
Haruichi Kohno ◽  
Hideaki Nagai ◽  
Daisuke Maruoka ◽  
Yuichi Koike ◽  
...  
Keyword(s):  
Population Pharmacokinetics ◽  
Japanese Patients ◽  
Morbidity Rate ◽  
Pharmacokinetic Parameters ◽  
Population Pharmacokinetic ◽  
High Morbidity ◽  
Power Model ◽  
Time Data ◽  
Nonlinear Mixed Effects Model ◽  
High Morbidity Rate

AbstractIn Japan, tuberculosis has been recognized as one of the major infections requiring urgent measures because of its high morbidity rate even now especially in elderly people suffering from tuberculosis during the past epidemic and its reactivation. Hence, many Japanese clinicians have made efforts to suppress the onset of tuberculosis and treat it effectively. The objectives of this study are to (1) identify covariate(s) that may explain the variation of rifampicin, which is the key antitubercular agent, under the steady-state by evaluating its population pharmacokinetics and (2) to propose an appropriate dosing method of rifampicin to Japanese patients. For this purpose, serum concentration–time data were obtained from 138 patients receiving rifampicin (300–450 mg) and isoniazid (300–400 mg) every day over 14 days, and analyzed using nonlinear mixed effects model. Thereby, population pharmacokinetic parameters were estimated followed by elucidating relations between the parameters and statistical factors. The analysis adopted one-compartment model including Lag-time by assuming that the absorption process is 0+1st order. The analyses demonstrate that meal affected the bioavailability, primary absorption rate constant, and zero order absorption time in the constructed model. A body weight calculated from the power model was selected as the covariate by the Stepwise Covariate Model method and found to highly affect the clearance in the range from −31.6% to 47.4%. We conclude that the dose in Japanese tuberculous patients can be well estimated by the power model formula and should be taken into consideration when rifampicin is administered.

scholarly journals Development of a Population Pharmacokinetic Model for Parecoxib and Its Active Metabolite Valdecoxib after Parenteral Parecoxib Administration in Children

2012 ◽  
Vol 116 (5) ◽  
pp. 1124-1133 ◽  
Author(s):  
Bruce Hullett ◽  
Sam Salman ◽  
Sean J. O'Halloran ◽  
Deborah Peirce ◽  
Kylie Davies ◽  
...  
Keyword(s):  
Active Metabolite ◽  
Pharmacokinetic Model ◽  
Inhibitory Concentration ◽  
Prediction Interval ◽  
Cyclooxygenase 2 ◽  
Pharmacokinetic Parameters ◽  
Population Pharmacokinetic ◽  
Time Curve ◽  
Concentration Time

Background Parecoxib is a cyclooxygenase-2 selective inhibitor used in management of postoperative pain in adults. This study aimed to provide pediatric pharmacokinetic information for parecoxib and its active metabolite valdecoxib. Methods Thirty-eight children undergoing surgery received parecoxib (1 mg/kg IV to a maximum of 40 mg) at induction of anesthesia, and plasma samples were collected for drug measurement. Population pharmacokinetic parameters were estimated using nonlinear mixed effects modeling. Area under the valdecoxib concentration-time curve and time above cyclooxygenase-2 in vitro 50% inhibitory concentration for free valdecoxib were simulated. Results A three-compartment model best represented parecoxib disposition, whereas one compartment was adequate for valdecoxib. Age was linearly correlated with parecoxib clearance (5.0% increase/yr). There was a sigmoid relationship between age and both valdecoxib clearance and distribution volume. Time to 50% maturation was 87 weeks postmenstrual age for both. In simulations using allometric-based doses the 90% prediction interval of valdecoxib concentration-time curve in children 2-12.7 yr included the mean for adults given 40 mg parecoxib IV. Simulated free valdecoxib plasma concentration remained above the in vitro 50% inhibitory concentrations for more than 12 h. In children younger than 2 yr, a dose reduction is likely required due to ongoing metabolic maturation. Conclusions The final pharmacokinetic model gave a robust representation of parecoxib and valdecoxib disposition. Area under the valdecoxib concentration-time curve was similar to that in adults (40 mg), and simulated free valdecoxib concentration was above the cyclooxygenase-2 in vitro 50% inhibitory concentration for free valdecoxib for at least 12 h.

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