The ability to predict how far a drug will penetrate into the tumour microenvironment within its pharmacokinetic (PK) lifespan would provide valuable information about therapeutic response. As the PK profile is directly related to the route and schedule of drug administration, an in silico tool that can predict the drug administration schedule that results in optimal drug delivery to tumours would streamline clinical trial design. This paper investigates the application of mathematical and computational modelling techniques to help improve our understanding of the fundamental mechanisms underlying drug delivery, and compares the performance of a simple model with more complex approaches. Three models of drug transport are developed, all bas...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
A cancer drug's effectiveness is contingent upon on its ability to reach all parts of the tumor. The...
Drug delivery to solid tumour involves multiple physiological, biochemical and biophysical processes...
The ability to predict how far a drug will penetrate into the tumour micro-environment within its ph...
The ability to predict how far a drug will penetrate into the tumour micro- environment within its p...
The ability to predict how far a drug will penetrate into the tumour microenvironment within its pha...
The ability to predict how far a drug will penetrate into the tumour microenvironment within its pha...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
YesThe tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
A cancer drug's effectiveness is contingent upon on its ability to reach all parts of the tumor. The...
Drug delivery to solid tumour involves multiple physiological, biochemical and biophysical processes...
The ability to predict how far a drug will penetrate into the tumour micro-environment within its ph...
The ability to predict how far a drug will penetrate into the tumour micro- environment within its p...
The ability to predict how far a drug will penetrate into the tumour microenvironment within its pha...
The ability to predict how far a drug will penetrate into the tumour microenvironment within its pha...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
YesThe tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
The tumour vasculature and microenvironment is complex and heterogeneous, contributing to reduced de...
A cancer drug's effectiveness is contingent upon on its ability to reach all parts of the tumor. The...
Drug delivery to solid tumour involves multiple physiological, biochemical and biophysical processes...