Johan G. C. van Hasselt scite author profile

Increasing knowledge of intertumor heterogeneity, intratumor heterogeneity, and cancer evolution has improved the understanding of anticancer treatment resistance. A better characterization of cancer evolution and subsequent use of this knowledge for personalized treatment would increase the chance to overcome cancer treatment resistance. Model‐based approaches may help achieve this goal. In this review, we comprehensively summarized mathematical models of tumor dynamics for solid tumors and of drug resistance evolution. Models displayed by ordinary differential equations, algebraic equations, and partial differential equations for characterizing tumor burden dynamics are introduced and discussed. As for tumor resistance evolution, stochastic and deterministic models are introduced and discussed. The results may facilitate a novel model‐based analysis on anticancer treatment response and the occurrence of resistance, which incorporates both tumor dynamics and resistance evolution. The opportunities of a model‐based approach as discussed in this review can be of great benefit for future optimizing and personalizing anticancer treatment.

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Population Pharmacokinetics of Vancomycin in Premature Malaysian Neonates: Identification of Predictors for Dosing Determination

Hasselt

Heng³

et al. 2010

Antimicrob Agents Chemother

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The present study determined the pharmacokinetic profile of vancomycin in premature Malaysian infants. A one-compartment infusion model with first-order elimination was fitted to serum vancomycin concentration data (n ‫؍‬ 835 points) obtained retrospectively from the drug monitoring records of 116 premature newborn infants. Vancomycin concentrations were estimated by a fluorescence polarization immunoassay. Population and individual estimates of clearance and distribution volume and the factors which affected the variability observed for the values of these parameters were obtained using a population pharmacokinetic modeling approach. The predictive performance of the population model was evaluated by visual inspections of diagnostic plots and nonparametric bootstrapping with replacement. Dosing guidelines targeting a value of >400 for the area under the concentration-time curve over 24 h in the steady state divided by the MIC (AUC 24 /MIC ratio) were explored using Monte Carlo simulation. Body size (weight), postmenstrual age, and smallfor-gestational-age status are important factors explaining the between-subject variability of vancomycin pharmacokinetic parameter values for premature neonates. The typical population parameter estimates of clearance and distribution volume for a 1-kg premature appropriate-for-gestational-age neonate with a postmenstrual age of 30 weeks were 0.0426 liters/h and 0.523 liters, respectively. There was a 20% reduction in clearance for small-for-gestational-age infants compared to the level for the appropriate-for-gestational-age control. Dosage regimens based on a priori target response values were formulated. In conclusion, the pharmacokinetic parameter values for vancomycin in premature Malaysian neonates were estimated. Improved dosage regimens based on a priori target response values were formulated by incorporating body size, postmenstrual age, and small-for-gestational-age status, using Monte Carlo simulations with the modelestimated pharmacokinetic parameter values.Bacterial sepsis is a major cause of neonatal complications, prolonged hospital stay, and death in premature newborns, especially those in developing countries. Sepsis-related mortality and morbidity rates were even higher in extremely preterm neonates and intrauterine-growth-restricted infants because of their innate immunological immaturity (36). Because coagulase-negative staphylococcus (CoNS) is a common pathogen for late-onset (72-h-postbirth) septicemia, and because methicillin-resistant Staphylococcus aureus (MRSA) is an important pathogen (10), vancomycin continues to be widely prescribed in neonatal intensive care units.Kidney and vestibular/cochlear damage is a concern associated with vancomycin use. Very recently, it was shown that vancomycin trough concentrations were correlated with nephrotoxicity in hospitalized adult patients (27). Nonetheless, vancomycin-associated ototoxicity and nephrotoxicity among neonates are thought to be less frequent than those in adults (11), although more evidence-based i...

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Novel Δ⁹‐tetrahydrocannabinol formulation Namisol® has beneficial pharmacokinetics and promising pharmacodynamic effects

Klumpers

Beumer

Hasselt

et al. 2012

Brit J Clinical Pharma

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WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT • Cannabis based medicines are registered as a treatment for various indications, such as pain and spasms in multiple sclerosis (MS) patients, and anorexia and nausea in patients with HIV or receiving cancer treatment. • the pharmacokinetics of the various administration routes of cannabis and cannabis based medicines are variable and dosing is hard to regulate. WHAT THIS STUDY ADDS • Namisol is a new tablet containing pure THC (>98%) that has a beneficial pharmacokinetic profile after oral administration. • Namisol gives a quick onset of pharmacodynamic effects in healthy volunteers, which implies a rapid initiation of therapeutic effects in patients. AIMS Among the main disadvantages of currently available Δ9‐tetrahydrocannabinol (THC) formulations are dosing difficulties due to poor pharmacokinetic characteristics. Namisol® is a novel THC formulation, designed to improve THC absorption. The study objectives were to investigate the optimal administration route, pharmacokinetics (PK), pharmacodynamics (PD) and tolerability of Namisol®. METHODS This first in human study consisted of two parts. Panel I included healthy males and females (n = 6/6) in a double‐blind, double‐dummy, randomized, crossover study with sublingual (crushed tablet) and oral administration of Namisol® (5 mg THC). Based on these results, male and female (n = 4/5) participants from panel I received oral THC 6.5 and 8.0 mg or matching placebo in a randomized, crossover, rising dose study during panel II. PD measurements were body sway; visual analogue scales (VAS) mood, psychedelic and heart rate. THC and 11‐OH‐THC population PK analysis was performed. RESULTS Sublingual administration showed a flat concentration profile compared with oral administration. Oral THC apparent t1/2 was 72–80 min, tmax was 39–56 min and Cmax 2.92–4.69 ng ml−1. THC affected body sway (60.8%, 95% CI 29.5, 99.8), external perception (0.078 log mm, 95% CI 0.019, 0.137), alertness (−2.7 mm, 95% CI −4.5, −0.9) feeling high (0.256 log mm, 95% CI 0.093, 0.418) and heart rate (5.6 beats min–1, 95% CI 2.7, 6.5). Namisol® was well tolerated. CONCLUSIONS Oral Namisol® showed promising PK and PD characteristics. Variability and tmax of THC plasma concentrations were smaller for Namisol® than reported for studies using oral dronabinol and nabilone. This study was performed in a limited number of healthy volunteers. Therefore, future research on Namisol® should study clinical effects in patient populations.

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