Publication | Open Access
Cell Growth Rate Dictates the Onset of Glass to Fluidlike Transition and Long Time Superdiffusion in an Evolving Cell Colony
64
Citations
59
References
2018
Year
EngineeringCytoskeletonCell GrowthSoft MatterCell DynamicsCellular PhysiologyCell-substrate InteractionsFluidlike TransitionNumerical SimulationsBiophysicsCell DivisionTumor DevelopmentEvolving Cell ColonyMorphogenesisCell BiomechanicsMulticellular SystemCell BiologyCell Growth RateBiologyPattern FormationDevelopmental BiologyCell MigrationCell MotilityCellular StructureSystems BiologyMedicineExtracellular Matrix
Numerical simulations describe cell dynamics in the early stages of tumor development and find surprising connections to soft glassy materials, providing insight that aids in understanding not just tumor growth but a host of abiotic systems evolving far from equilibrium.
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