Cancer biology involves complex, dynamic interactions between cancer cells and their tissue microenvironments. Single-cell effects are critical drivers of clinical progression. Chemical and mechanical communication between tumor and stromal cells can co-opt normal physiologic processes to promote growth and invasion. Cancer cell heterogeneity increases cancer’s ability to test strategies to adapt to microenvironmental stresses. Hypoxia and treatment can select for cancer stem cells and drive invasion and resistance. Cell-based computational models (also known as discrete models, agent-based models, or individual-based models) simulate individual cells as they interact in virtual tissues, which allows us to explore how single-cell behaviors ...
Abstract. A multiscale model for vascular tumour growth is presented which includes systems of ordin...
In this paper, we present two mathematical models related to different aspects and scales of cancer ...
The therapeutic control of a solid tumour depends critically on the responses of the individual cell...
The recent discovery of cancer stem cells (CSCs), or tumor initiating cells (TICs), in a variety of ...
The recent tumor research has lead scientists to recognize the central role played by cancer stem ce...
Computational models in the field of cancer research have focused primarily on estimates of biologic...
Microfluidic tumors‐on‐chips models have revolutionized anticancer therapeutic research by creating ...
Computational models in the field of cancer research have focused primarily on estimates of biologic...
Computational models aiming at the spatio-temporal description of cancer evolution are a suitable fr...
Background: Recent reports indicate that a subgroup of tumor cells named cancer stem cells (CSCs) or...
Objectives: Computational modeling of biological systems is a powerful tool to clarify diverse proc...
The term cancer covers a multitude of bodily diseases, broadly categorised by having cells which do ...
Abstract. We use a systems approach to develop a predictive model that medical researchers can use t...
Cutting-edge cancer treatments like immunotherapy and engineered microbes are examples of current an...
Despite a growing wealth of available molecular data, the growth of tumors, invasion of tumors into ...
Abstract. A multiscale model for vascular tumour growth is presented which includes systems of ordin...
In this paper, we present two mathematical models related to different aspects and scales of cancer ...
The therapeutic control of a solid tumour depends critically on the responses of the individual cell...
The recent discovery of cancer stem cells (CSCs), or tumor initiating cells (TICs), in a variety of ...
The recent tumor research has lead scientists to recognize the central role played by cancer stem ce...
Computational models in the field of cancer research have focused primarily on estimates of biologic...
Microfluidic tumors‐on‐chips models have revolutionized anticancer therapeutic research by creating ...
Computational models in the field of cancer research have focused primarily on estimates of biologic...
Computational models aiming at the spatio-temporal description of cancer evolution are a suitable fr...
Background: Recent reports indicate that a subgroup of tumor cells named cancer stem cells (CSCs) or...
Objectives: Computational modeling of biological systems is a powerful tool to clarify diverse proc...
The term cancer covers a multitude of bodily diseases, broadly categorised by having cells which do ...
Abstract. We use a systems approach to develop a predictive model that medical researchers can use t...
Cutting-edge cancer treatments like immunotherapy and engineered microbes are examples of current an...
Despite a growing wealth of available molecular data, the growth of tumors, invasion of tumors into ...
Abstract. A multiscale model for vascular tumour growth is presented which includes systems of ordin...
In this paper, we present two mathematical models related to different aspects and scales of cancer ...
The therapeutic control of a solid tumour depends critically on the responses of the individual cell...