Add to ORKGNeoplasms change over time through a process of cell-level evolution, driven by genetic and epigenetic alterations. However, the ecology of the microenvironment of a neoplastic cell determines which changes provide adaptive benefits. There is widespread recognition of the importance of these evolutionary and ecological processes in cancer, but to date, no system has been proposed for drawing clinically relevant distinctions between how different tumours are evolving. On the basis of a consensus conference of experts in the fields of cancer evolution and cancer ecology, we propose a framework for classifying tumours that is based on four relevant components. These are the diversity of neoplastic cells (intratumoural heterogeneity) and change...
International audienceSince the mid 1970s, cancer has been described as a process of Darwinian evolu...
The utility of intratumour heterogeneity as a prognostic biomarker is the subject of ongoing clinica...
Cancer therapy exerts a strong selection pressure that shapes tumor evolution, yet our knowledge of ...
Neoplasms change over time through a process of cell-level evolution, driven by genetic and epigenet...
Neoplasms change over time through a process of cell-level evolution, driven by genetic and epigenet...
Purpose: In this paper, we provide an overview of a life history theory and how it applies to cancer...
Ecology and Evolution of Cancer is a timely work outlining ideas that not only represent a substanti...
Forty years ago, scientists started to describe the genetic cascade of events leading to cancer as s...
Since the mid 1970s, cancer has been described as a process of Darwinian evolution, with somatic cel...
Early AccessInternational audienceThe application of evolutionary and ecological principles to cance...
The application of evolutionary and ecological principles to cancer prevention and treatment, as wel...
The development of cancer begins with cells transitioning from their multicellular nature to a state...
Cancer therapy exerts a strong selection pressure that shapes tumor evolution, yet our knowledge of ...
International audienceSince the mid 1970s, cancer has been described as a process of Darwinian evolu...
The utility of intratumour heterogeneity as a prognostic biomarker is the subject of ongoing clinica...
Cancer therapy exerts a strong selection pressure that shapes tumor evolution, yet our knowledge of ...
Neoplasms change over time through a process of cell-level evolution, driven by genetic and epigenet...
Neoplasms change over time through a process of cell-level evolution, driven by genetic and epigenet...
Purpose: In this paper, we provide an overview of a life history theory and how it applies to cancer...
Ecology and Evolution of Cancer is a timely work outlining ideas that not only represent a substanti...
Forty years ago, scientists started to describe the genetic cascade of events leading to cancer as s...
Since the mid 1970s, cancer has been described as a process of Darwinian evolution, with somatic cel...
Early AccessInternational audienceThe application of evolutionary and ecological principles to cance...
The application of evolutionary and ecological principles to cancer prevention and treatment, as wel...
The development of cancer begins with cells transitioning from their multicellular nature to a state...
Cancer therapy exerts a strong selection pressure that shapes tumor evolution, yet our knowledge of ...
International audienceSince the mid 1970s, cancer has been described as a process of Darwinian evolu...
The utility of intratumour heterogeneity as a prognostic biomarker is the subject of ongoing clinica...
Cancer therapy exerts a strong selection pressure that shapes tumor evolution, yet our knowledge of ...