Predicting the fraction unbound in plasma provides a good understanding of the pharmacokinetic properties of a drug to assist candidate selection in the early stages of drug discovery. It is also an effective tool to mitigate the risk of late-stage attrition and to optimize further screening. In this study, we built in silico prediction models of fraction unbound in human plasma with freely available software, aiming specifically to improve the accuracy in the low value ranges. We employed several machine learning techniques and built prediction models trained on the largest ever data set of 2738 experimental values. The classification model showed a high true positive rate of 0.826 for the low fraction unbound class on the test set. The st...
We developed a hybrid method for predicting plasma concentration-time curves in humans by integratin...
Background: Volume of distribution is an important pharmacokinetic property that indicates the exten...
A comprehensive analysis on the prediction of human clearance based on intravenous pharmacokinetic d...
Predicting the fraction unbound in plasma provides a good understanding of the pharmacokinetic prope...
The prediction of the total human plasma clearance of novel chemical entities continues to be of par...
Variability of the unbound fraction in plasma (f(u)) between labs, methods and conditions is known t...
Volume of distribution and fraction unbound are two key parameters in pharmacokinetics. The fraction...
Drug distribution in blood, defined as drug blood-to-plasma concentration ratio (R-b), is a fundamen...
The free fraction of a xenobiotic in plasma (<i>F</i><sub>ub</sub>) is an important determinant of c...
Background: Plasma protein binding is a key component in drug therapy as it affects the pharmacokine...
The authors present a comprehensive analysis on the estimation of volume of distribution at steady s...
Volume of distribution and fraction unbound are two key parameters in pharmacokinetics. The fraction...
The focus of CNS drug pharmacokinetics programs has recently shifted from determining the total conc...
Although computational predictions of pharmacokinetics (PK) are desirable at the drug design stage, ...
Several machine learning techniques were evaluated for the prediction of parameters relevant in phar...
We developed a hybrid method for predicting plasma concentration-time curves in humans by integratin...
Background: Volume of distribution is an important pharmacokinetic property that indicates the exten...
A comprehensive analysis on the prediction of human clearance based on intravenous pharmacokinetic d...
Predicting the fraction unbound in plasma provides a good understanding of the pharmacokinetic prope...
The prediction of the total human plasma clearance of novel chemical entities continues to be of par...
Variability of the unbound fraction in plasma (f(u)) between labs, methods and conditions is known t...
Volume of distribution and fraction unbound are two key parameters in pharmacokinetics. The fraction...
Drug distribution in blood, defined as drug blood-to-plasma concentration ratio (R-b), is a fundamen...
The free fraction of a xenobiotic in plasma (<i>F</i><sub>ub</sub>) is an important determinant of c...
Background: Plasma protein binding is a key component in drug therapy as it affects the pharmacokine...
The authors present a comprehensive analysis on the estimation of volume of distribution at steady s...
Volume of distribution and fraction unbound are two key parameters in pharmacokinetics. The fraction...
The focus of CNS drug pharmacokinetics programs has recently shifted from determining the total conc...
Although computational predictions of pharmacokinetics (PK) are desirable at the drug design stage, ...
Several machine learning techniques were evaluated for the prediction of parameters relevant in phar...
We developed a hybrid method for predicting plasma concentration-time curves in humans by integratin...
Background: Volume of distribution is an important pharmacokinetic property that indicates the exten...
A comprehensive analysis on the prediction of human clearance based on intravenous pharmacokinetic d...