Collective behavior of brain tumor cells: the role of hypoxia.
about
Oxygen levels and the regulation of cell adhesion in the nervous system: a control point for morphogenesis in development, disease and evolution?Design and interpretation of cell trajectory assays.Multiple types of data are required to identify the mechanisms influencing the spatial expansion of melanoma cell colonies.Estimating cell diffusivity and cell proliferation rate by interpreting IncuCyte ZOOM™ assay data using the Fisher-Kolmogorov model.The impact of phenotypic switching on glioblastoma growth and invasion.Minimization of thermodynamic costs in cancer cell invasion.Efficient coarse simulation of a growing avascular tumor.Hemoglobin regulates the migration of glioma cells along poly(ε-caprolactone)-aligned nanofibers.Tumor proliferation and diffusion on percolation clusters.Models of collective cell behaviour with crowding effects: comparing lattice-based and lattice-free approaches.How much information can be obtained from tracking the position of the leading edge in a scratch assay?Density-Dependent Regulation of Glioma Cell Proliferation and Invasion Mediated by miR-9.Interpreting scratch assays using pair density dynamics and approximate Bayesian computation.Lattice-free models of cell invasion: discrete simulations and travelling waves.Nonlinear subdiffusive fractional equations and the aggregation phenomenon.The biology and mathematical modelling of glioma invasion: a review.Velocity-jump models with crowding effects.Bright solitary waves in malignant gliomas.Pinning-depinning transition in a stochastic growth model for the evolution of cell colony fronts in a disordered medium.Spontaneous formation of large clusters in a lattice gas above the critical point.Lattice-free descriptions of collective motion with crowding and adhesion.Exclusion processes: short-range correlations induced by adhesion and contact interactions.Modelling cell migration and adhesion during development.Macroscopic limits of individual-based models for motile cell populations with volume exclusion.Mean-field descriptions of collective migration with strong adhesion.Non-Markovian models for migration-proliferation dichotomy of cancer cells: anomalous switching and spreading rate.Building macroscale models from microscale probabilistic models: a general probabilistic approach for nonlinear diffusion and multispecies phenomena.Migration of adhesive glioma cells: front propagation and fingering.
P2860
Q26824421-73601314-0306-43F3-AC1F-6FA97EAC8E6CQ30547380-68D8BE6E-CC7F-45A7-8517-0D527282AC87Q30713275-F7F95367-8807-49AF-B516-752F55DC6AA6Q30981360-2AD03EB1-90C0-4233-8D96-7900B6703F66Q34311536-2ECEC42C-0C59-4D70-8142-A031A2D698A6Q36583159-55EF6DBB-A32B-45F4-ADB4-57EB2021A784Q37323720-81F1CA00-0A36-48B0-BA55-1D1B9A6808FDQ38973418-1CF13B8C-E159-4EC8-862F-9DFFCE2D4E48Q39345298-CCD37E9A-B77E-4800-ADD4-F4B30777D469Q41771636-98651522-CC14-4C38-8772-6E8050C9784BQ41956020-B76AC990-B202-4FA1-A2BB-ACA1D7E3CF52Q42328087-7C908AFD-D077-4EE0-95FF-58CE919079F3Q42681424-3CD86550-3F2B-47AF-AA08-AB0DB66E4906Q45084682-C5BF6207-E4EA-4AB9-AE40-CD6635B0337BQ46583030-AB8D13AB-6C04-49F6-8792-BE040149D0DDQ47124238-925E9AD2-8644-46F4-9080-30B3D184FE4CQ48011743-1EDDC289-7E35-4DD6-89D4-DE2B3B3A9997Q48891442-2133DFFC-1098-4314-B28C-17A6A73D7C0AQ50534655-849E5444-2678-486F-9C57-CC6D9B98B378Q50971596-E04FD25A-9E60-4E41-91EA-A06117F8BABDQ51117406-4AA7EE9B-21BD-48E6-B2B1-CDC125FE2062Q51257507-74E339CF-A9DD-4D28-A6FB-FC5EEF35B598Q51308626-B9CC2F77-9DEA-4AD0-9A3E-EEC047689C50Q51315065-DD6D4C92-3655-4BC1-88EB-81585E550B9CQ51320056-B92FD88E-D3F6-4431-AC44-A82A17B7BC45Q51431053-7C216DCE-7D1A-47DE-8E30-469EFEB10D74Q51470576-C56766E2-BEAE-43E1-BF77-0168893544A2Q55461953-E9DCE8E1-9290-4ADE-AEC6-5AE3B0E99C61
P2860
Collective behavior of brain tumor cells: the role of hypoxia.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Collective behavior of brain tumor cells: the role of hypoxia.
@en
Collective behavior of brain tumor cells: the role of hypoxia.
@nl
type
label
Collective behavior of brain tumor cells: the role of hypoxia.
@en
Collective behavior of brain tumor cells: the role of hypoxia.
@nl
prefLabel
Collective behavior of brain tumor cells: the role of hypoxia.
@en
Collective behavior of brain tumor cells: the role of hypoxia.
@nl
P2093
P2860
P1433
P1476
Collective behavior of brain tumor cells: the role of hypoxia.
@en
P2093
Alexandra Szalad
Evgeniy Khain
Feng Jiang
Mark Katakowski
Michael Chopp
Scott Hopkins
Xuguang Zheng
P2860
P304
P356
10.1103/PHYSREVE.83.031920
P407
P433
P577
2011-03-29T00:00:00Z