Flow correlated percolation during vascular remodeling in growing tumors
A theoretical model based on the molecular interactions between a growing tumor and a
dynamically evolving blood vessel network describes the transformation of the regular
vasculature in normal tissues into a highly inhomogeneous tumor specific capillary network.
The emerging morphology, characterized by the compartmentalization of the tumor into
several regions differing in vessel density, diameter, and necrosis, is in accordance with
experimental data for human melanoma. Vessel collapse due to a combina<? format?> tion …
dynamically evolving blood vessel network describes the transformation of the regular
vasculature in normal tissues into a highly inhomogeneous tumor specific capillary network.
The emerging morphology, characterized by the compartmentalization of the tumor into
several regions differing in vessel density, diameter, and necrosis, is in accordance with
experimental data for human melanoma. Vessel collapse due to a combina<? format?> tion …
A theoretical model based on the molecular interactions between a growing tumor and a dynamically evolving blood vessel network describes the transformation of the regular vasculature in normal tissues into a highly inhomogeneous tumor specific capillary network. The emerging morphology, characterized by the compartmentalization of the tumor into several regions differing in vessel density, diameter, and necrosis, is in accordance with experimental data for human melanoma. Vessel collapse due to a combina<?format ?>tion of severely reduced blood flow and solid stress exerted by the tumor leads to a correlated percolation process that is driven towards criticality by the mechanism of hydrodynamic vessel stabilization.
American Physical Society以上显示的是最相近的搜索结果。 查看全部搜索结果