The discovery of small molecules targeted to specific oncogenic pathways has revolutionized anti-cancer therapy. However, such therapy often fails due to the evolution of acquired resistance. One long-standing question in clinical cancer research is the identification of optimum therapeutic administration strategies so that the risk of resistance is minimized. In this paper, we investigate optimal drug dosing schedules to prevent, or at least delay, the emergence of resistance. We design and analyze a stochastic mathematical model describing the evolutionary dynamics of a tumor cell population during therapy. We consider drug resistance emerging due to a single (epi)genetic alteration and calculate the probability of resistance arising duri...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...
Most aggressive cancers are incurable due to their fast evolution of drug resistance. We model cance...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...
Anti-cancer drugs targeted to specific oncogenic pathways have shown promising therapeutic results i...
The advent of targeted therapy for cancer treatment has brought about a paradigm shift in the clinic...
International audienceResistance to chemotherapies, particularly to anticancer treatments, is an inc...
The advent of targeted therapy for cancer treatment has brought about a paradigm shift in the clinic...
This document can be treated as Final Thesis Report for the project titled "Multi-Drug Resistance on...
Aggressive cancers are typically incurable because of drug resistance development. We model cancer g...
Background. Drug-induced drug resistance in cancer has been attributed to diverse biological mechani...
Abstract: Acquired drug resistance is a major limitation for successful treatment of cancer. Resista...
Quantitative characterization of evolving tumor resistance under targeted treatment could help ident...
The mechanism of resistance of tumor cells to chemotherapeutic agents is explored using probabilisti...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...
Most aggressive cancers are incurable due to their fast evolution of drug resistance. We model cance...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...
Anti-cancer drugs targeted to specific oncogenic pathways have shown promising therapeutic results i...
The advent of targeted therapy for cancer treatment has brought about a paradigm shift in the clinic...
International audienceResistance to chemotherapies, particularly to anticancer treatments, is an inc...
The advent of targeted therapy for cancer treatment has brought about a paradigm shift in the clinic...
This document can be treated as Final Thesis Report for the project titled "Multi-Drug Resistance on...
Aggressive cancers are typically incurable because of drug resistance development. We model cancer g...
Background. Drug-induced drug resistance in cancer has been attributed to diverse biological mechani...
Abstract: Acquired drug resistance is a major limitation for successful treatment of cancer. Resista...
Quantitative characterization of evolving tumor resistance under targeted treatment could help ident...
The mechanism of resistance of tumor cells to chemotherapeutic agents is explored using probabilisti...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...
Most aggressive cancers are incurable due to their fast evolution of drug resistance. We model cance...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...