Demonstrates how red cells expand until they fill the vascular cage, then turn white and die, sending signals for new red stem cells to start dividing.
View SimulationWatch as red, green, and yellow stem cell clones take turns being active, creating a continuous cycle that maintains tumour population. This is the main simulation for the project.
View SimulationExplore how tumours maintain a constant cell population through balanced division and death rates, even as individual clones rise and fall.
View SimulationSee how the cage expands dynamically based on actual cell pressure, simulating how tissues grow in response to internal forces.
View SimulationObserve how cells divide realistically with physical constraints, pushing neighboring cells and adapting to available space.
View SimulationCells exhibit natural movement patterns with gentle cohesion forces and realistic physical interactions.
View SimulationWhat happens when cells can divide without limits? This simulation removes division constraints to demonstrate uncontrolled growth.
View SimulationCells behave more like fluid particles in this simulation, with reduced friction and increased mobility.
View SimulationCells are packed extremely tightly in this simulation, demonstrating the effects of high pressure on cell behavior and division.
View Simulation