Data and results for `VESSEL COLLAPSE` simulations. Simulations of cancerous cells in tissue context with realistic vasculature (single root with two arteries and two veins). Different variations of the vasculature are produced using random seeds 0 - 9 and assigned letters from A - J, respectively. Each condition is run for 22 days (31680 ticks) with 10 replicates (random seeds 0 - 9) for each of the 10 vasculature variations, for 100 total simulations per parameter value. Cancerous cells (max_height x 1.5, meta_pref x 1.5, migra_threshold x 0.5) are introduced to the center of the environment after a 1 day delay. Snapshots are taken every 0.5 days (720 ticks). Parameters (degradation rate and stabilization fraction) are varied from 0.0 to...
Computer models allow the mechanistically detailed study of tumour proliferation and its dependency ...
We develop an off-lattice, agent-based model to describe vasculogenesis, the de novo formation of bl...
Agent-based models (ABMs) represent a novel approach to study and simulate complex mechano-chemo-bio...
Data and results for `VASCULAR FUNCTION` simulations. Simulations of cancerous cells in colony and ...
Data and results for `VASCULAR DAMAGE` simulations. Simulations of cancerous cells in colony and ti...
Data and results for `EXACT HEMODYNAMICS` simulations. Simulations of cancerous cells in colony and...
Data and results for `ESTIMATED HEMODYNAMICS` simulations. Simulations of cancerous cells in colony...
Data and results for `SITE ARCHITECTURE` simulations. Simulations of cancerous cells in colony and ...
Over a number of years a multiscale model for vascular tissue has been developed and extended. The m...
<div><p>Vascular development is a complex process regulated by dynamic biological networks that vary...
The dataset comprises the output of several simulations of a model of tumor growth with different pa...
The widespread incidence of cardiovascular diseases and associated mortality and morbidity, along wi...
An existing multiscale model is extended to study the response of a vascularised tumour to treatment...
Computer models allow the mechanistically detailed study of tumour proliferation and its dependency ...
Computer models allow the mechanistically detailed study of tumour proliferation and its dependency ...
We develop an off-lattice, agent-based model to describe vasculogenesis, the de novo formation of bl...
Agent-based models (ABMs) represent a novel approach to study and simulate complex mechano-chemo-bio...
Data and results for `VASCULAR FUNCTION` simulations. Simulations of cancerous cells in colony and ...
Data and results for `VASCULAR DAMAGE` simulations. Simulations of cancerous cells in colony and ti...
Data and results for `EXACT HEMODYNAMICS` simulations. Simulations of cancerous cells in colony and...
Data and results for `ESTIMATED HEMODYNAMICS` simulations. Simulations of cancerous cells in colony...
Data and results for `SITE ARCHITECTURE` simulations. Simulations of cancerous cells in colony and ...
Over a number of years a multiscale model for vascular tissue has been developed and extended. The m...
<div><p>Vascular development is a complex process regulated by dynamic biological networks that vary...
The dataset comprises the output of several simulations of a model of tumor growth with different pa...
The widespread incidence of cardiovascular diseases and associated mortality and morbidity, along wi...
An existing multiscale model is extended to study the response of a vascularised tumour to treatment...
Computer models allow the mechanistically detailed study of tumour proliferation and its dependency ...
Computer models allow the mechanistically detailed study of tumour proliferation and its dependency ...
We develop an off-lattice, agent-based model to describe vasculogenesis, the de novo formation of bl...
Agent-based models (ABMs) represent a novel approach to study and simulate complex mechano-chemo-bio...