Multicellular simulation predicts microvascular patterning and in silico tissue assembly.
about
Phenotypic transition maps of 3D breast acini obtained by imaging-guided agent-based modeling.Computational medicine: translating models to clinical careSystems biology of the microvasculatureA systems biology view of blood vessel growth and remodellingMultiscale models of cell signaling.A computational approach to understand in vitro alveolar morphogenesisTheoretical models for coronary vascular biomechanics: progress & challengesMulticell simulations of development and disease using the CompuCell3D simulation environmentApplications of computational models to better understand microvascular remodelling: a focus on biomechanical integration across scales.Integration of experimental and computational approaches to sprouting angiogenesis.Computational modeling of interacting VEGF and soluble VEGF receptor concentration gradients.Toward a multi-scale computational model of arterial adaptation in hypertension: verification of a multi-cell agent based model.Computational and mathematical modeling of angiogenesisHarnessing systems biology approaches to engineer functional microvascular networksMultiscale models of angiogenesisSystems analysis of small signaling modules relevant to eight human diseasesSystems biology of vascular endothelial growth factorsSustained release of sphingosine 1-phosphate for therapeutic arteriogenesis and bone tissue engineering.Multiscale computational analysis of Xenopus laevis morphogenesis reveals key insights of systems-level behavior.Elongation, proliferation & migration differentiate endothelial cell phenotypes and determine capillary sproutingAt the biological modeling and simulation frontier.Emergence of spatial structure in the tumor microenvironment due to the Warburg effectGenome scale modeling in systems biology: algorithms and resources.Agent-based models in translational systems biology.Module-based multiscale simulation of angiogenesis in skeletal muscleProof-of-principle investigation of an algorithmic model of adenosine-mediated angiogenesis.Emerging patterns of epigenomic variation.PROKARYO: an illustrative and interactive computational model of the lactose operon in the bacterium Escherichia coli.Systems-based approaches toward wound healing.Cell elongation is key to in silico replication of in vitro vasculogenesis and subsequent remodeling.Modeling structural adaptation of microcirculationAgent-based modeling of host-pathogen systems: The successes and challenges.Multiscale models of breast cancer progressionComputational Model-Based Analysis of Strategies to Enhance Scaffold Vascularization.The effects of cell compressibility, motility and contact inhibition on the growth of tumor cell clusters using the Cellular Potts Model.Virtual exploration of early stage atherosclerosis.A hybrid model of the role of VEGF binding in endothelial cell migration and capillary formation.Microcirculation and Hemorheology.Multi-scale, multi-resolution brain cancer modeling.VEGFR1 promotes cell migration and proliferation through PLCγ and PI3K pathways.
P2860
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P2860
Multicellular simulation predicts microvascular patterning and in silico tissue assembly.
description
2004 nî lūn-bûn
@nan
2004 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Multicellular simulation predicts microvascular patterning and in silico tissue assembly.
@ast
Multicellular simulation predicts microvascular patterning and in silico tissue assembly.
@en
type
label
Multicellular simulation predicts microvascular patterning and in silico tissue assembly.
@ast
Multicellular simulation predicts microvascular patterning and in silico tissue assembly.
@en
prefLabel
Multicellular simulation predicts microvascular patterning and in silico tissue assembly.
@ast
Multicellular simulation predicts microvascular patterning and in silico tissue assembly.
@en
P2093
P356
P1433
P1476
Multicellular simulation predicts microvascular patterning and in silico tissue assembly.
@en
P2093
Eric J Van Gieson
Shayn M Peirce
Thomas C Skalak
P304
P356
10.1096/FJ.03-0933FJE
P407
P577
2004-02-06T00:00:00Z