We propose a model with two types of cancer cells differentiated by their defense mechanisms against the immune system. “Selfish”cancer cells develop defense mechanisms that benefit the individual cell, whereas “cooperative”cells deploy countermeasures that increase the chance of survival of every cell. Our phenotypes capture the two main features of the tumor’s efforts to avoid immune destruction, crypticity against immune cells for the selfish cells, and tumor-induced immunosuppression for the cooperative cells. We identify steady states of the system and show that only homogeneous tumors can be stable in both size and composition. We show that under generic parameter values, a tumor of selfish cells is more benign than a tumor of coopera...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...
The capacity of immune system to control and shape cancer, that is, cancer immunoediting, is the res...
A mathematical model of the interactions between a growing tumor and the immune system is presented....
We propose a model with two types of cancer cells differentiated by their defense mechanisms against...
We propose a model with two types of cancer cells differentiated by their defense mechanisms against...
We propose a model with two types of cancer cells differentiated by their defense mechanisms against...
We propose a model with two types of cancer cells differentiated by their defense mechanisms against...
We propose a model with two types of cancer cells differentiated by their defense mechanisms against...
We propose a model with two types of cancer cells differentiated by their defense mechanisms against...
It can be expected that adequate immune response should be able to annihilate cancer at a very early...
Disseminated non-dividing (dormant) cancer cells as well as those in equilibrium with the immune res...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...
Interactions between the immune system and tumors have been among the highlights of present immunolo...
<p>The figure shows a schematic of the mathematical model. Initially, there is only a single type of...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...
The capacity of immune system to control and shape cancer, that is, cancer immunoediting, is the res...
A mathematical model of the interactions between a growing tumor and the immune system is presented....
We propose a model with two types of cancer cells differentiated by their defense mechanisms against...
We propose a model with two types of cancer cells differentiated by their defense mechanisms against...
We propose a model with two types of cancer cells differentiated by their defense mechanisms against...
We propose a model with two types of cancer cells differentiated by their defense mechanisms against...
We propose a model with two types of cancer cells differentiated by their defense mechanisms against...
We propose a model with two types of cancer cells differentiated by their defense mechanisms against...
It can be expected that adequate immune response should be able to annihilate cancer at a very early...
Disseminated non-dividing (dormant) cancer cells as well as those in equilibrium with the immune res...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...
Interactions between the immune system and tumors have been among the highlights of present immunolo...
<p>The figure shows a schematic of the mathematical model. Initially, there is only a single type of...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...
Increasing experimental evidence suggests that epigenetic and microenvironmental factors play a key ...
The capacity of immune system to control and shape cancer, that is, cancer immunoediting, is the res...
A mathematical model of the interactions between a growing tumor and the immune system is presented....