Evolution of cell motility in an individual-based model of tumour growth. - Wikidata - wikimedia - TriplyDB

Evolution of cell motility in an individual-based model of tumour growth.

Evolution of cell motility in an individual-based model of tumour growth.

http://www.wikidata.org/entity/Q37252013

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Bridging scales in cancer progression: mapping genotype to phenotype using neural networks Integrated PK-PD and agent-based modeling in oncology In silico modelling of tumour margin diffusion and infiltration: review of current status.Multiple types of data are required to identify the mechanisms influencing the spatial expansion of melanoma cell colonies.Solving the puzzle of metastasis: the evolution of cell migration in neoplasms.Using DNA methylation patterns to infer tumor ancestry.Simulating cancer growth with multiscale agent-based modeling Hybrid models of tumor growth.Is cooperation viable in mobile organisms? Simple Walk Away rule favors the evolution of cooperation in groups.Current measures of metabolic heterogeneity within cervical cancer do not predict disease outcome.Toward an Ising model of cancer and beyond Modeling drug- and chemical-induced hepatotoxicity with systems biology approaches.Tumor evolution in space: the effects of competition colonization tradeoffs on tumor invasion dynamics.Dealing with diversity in computational cancer modeling.Evolving homeostatic tissue using genetic algorithms.Multiscale models of breast cancer progression Multiscale cancer modeling Interactions between the immune system and cancer: a brief review of non-spatial mathematical models.Collective behavior of brain tumor cells: the role of hypoxia.Cross-scale, cross-pathway evaluation using an agent-based non-small cell lung cancer model.Blood vessel tortuosity selects against evolution of aggressive tumor cells in confined tissue environments: A modeling approach.A computational multiscale agent-based model for simulating spatio-temporal tumour immune response to PD1 and PDL1 inhibition.Discovering Molecular Targets in Cancer with Multiscale Modeling Mathematical models of cytotoxic effects in endpoint tumor cell line assays: critical assessment of the application of a single parametric value as a standard criterion to quantify the dose-response effects and new unexplored proposal formats.A multilayer grow-or-go model for GBM: effects of invasive cells and anti-angiogenesis on growth.Immunoexpression of growth factors and receptors in polymorphous low-grade adenocarcinoma.

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Evolution of cell motility in an individual-based model of tumour growth.

http://www.wikidata.org/entity/Q37252013

description

article científic

@ca

article scientifique

@fr

articolo scientifico

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artigo científico

@pt

bilimsel makale

@tr

scientific article published on 12 March 2009

@en

vedecký článok

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vetenskaplig artikel

@sv

videnskabelig artikel

@da

vědecký článek

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name

Evolution of cell motility in an individual-based model of tumour growth.

@en

Evolution of cell motility in an individual-based model of tumour growth.

@nl

type

label

Evolution of cell motility in an individual-based model of tumour growth.

@en

Evolution of cell motility in an individual-based model of tumour growth.

@nl

prefLabel

Evolution of cell motility in an individual-based model of tumour growth.

@en

Evolution of cell motility in an individual-based model of tumour growth.

@nl

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J.JTBI.2009.03.005

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Journal of Theoretical Biology

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Evolution of cell motility in an individual-based model of tumour growth

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P2860

Cancer as an evolutionary and ecological process

The Hallmarks of Cancer

Integrins: versatility, modulation, and signaling in cell adhesion

Tumor cell interactions with the extracellular matrix during invasion and metastasis

Exploiting tumour hypoxia in cancer treatment

The clonal evolution of tumor cell populations

Why do cancers have high aerobic glycolysis?

Tumour-cell invasion and migration: diversity and escape mechanisms

Migration of tumor cells in 3D matrices is governed by matrix stiffness along with cell-matrix adhesion and proteolysis

Mathematical modelling of cancer cell invasion of tissue: local and non-local models and the effect of adhesion.

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