Cross-scale, cross-pathway evaluation using an agent-based non-small cell lung cancer model
We present a multiscale agent-based non-small cell lung cancer model that consists of a 3D
environment with which cancer cells interact while processing phenotypic changes. At the …
environment with which cancer cells interact while processing phenotypic changes. At the …
[引用][C] Cross-scale, cross-pathway evaluation using an agent-based non-small cell lung cancer model
Z WANG, CM BIRCH, J SAGOTSKY… - Bioinformatics …, 2009 - pascal-francis.inist.fr
Cross-scale, cross-pathway evaluation using an agent-based non-small cell lung cancer
model CNRS Inist Pascal-Francis CNRS Pascal and Francis Bibliographic Databases Simple …
model CNRS Inist Pascal-Francis CNRS Pascal and Francis Bibliographic Databases Simple …
Cross-scale, cross-pathway evaluation using an agent-based non-small cell lung cancer model
Z Wang, CM Birch, J Sagotsky, TS Deisboeck - Bioinformatics, 2009 - dl.acm.org
We present a multiscale agent-based non-small cell lung cancer model that consists of a 3D
environment with which cancer cells interact while processing phenotypic changes. At the …
environment with which cancer cells interact while processing phenotypic changes. At the …
[HTML][HTML] Cross-scale, cross-pathway evaluation using an agent-based non-small cell lung cancer model
Z Wang, CM Birch, J Sagotsky, TS Deisboeck - Bioinformatics, 2009 - ncbi.nlm.nih.gov
We present a multiscale agent-based non-small cell lung cancer model that consists of a 3D
environment with which cancer cells interact while processing phenotypic changes. At the …
environment with which cancer cells interact while processing phenotypic changes. At the …
Cross-scale, cross-pathway evaluation using an agent-based non-small cell lung cancer model.
Z Wang, CM Birch, J Sagotsky… - Bioinformatics, 2009 - search.ebscohost.com
We present a multiscale agent-based non-small cell lung cancer model that consists of a 3D
environment with which cancer cells interact while processing phenotypic changes. At the …
environment with which cancer cells interact while processing phenotypic changes. At the …
[PDF][PDF] Cross-scale, cross-pathway evaluation using an agent-based non-small cell lung cancer model
Z Wang, CM Birch, J Sagotsky, TS Deisboeck - 2009 - researchgate.net
We present a multiscale agent-based non-small cell lung cancer model that consists of a 3D
environment with which cancer cells interact while processing phenotypic changes. At the …
environment with which cancer cells interact while processing phenotypic changes. At the …
Cross-scale, cross-pathway evaluation using an agent-based non-small cell lung cancer model
Z Wang, CM Birch, J Sagotsky… - Bioinformatics …, 2009 - pubmed.ncbi.nlm.nih.gov
We present a multiscale agent-based non-small cell lung cancer model that consists of a 3D
environment with which cancer cells interact while processing phenotypic changes. At the …
environment with which cancer cells interact while processing phenotypic changes. At the …
Cross-scale, cross-pathway evaluation using an agent-based non-small cell lung cancer model.
Z Wang, CM Birch, J Sagotsky… - Bioinformatics (Oxford …, 2009 - europepmc.org
We present a multiscale agent-based non-small cell lung cancer model that consists of a 3D
environment with which cancer cells interact while processing phenotypic changes. At the …
environment with which cancer cells interact while processing phenotypic changes. At the …
[PDF][PDF] Cross-scale, cross-pathway evaluation using an agent-based non-small cell lung cancer model
Z Wang, CM Birch, J Sagotsky, TS Deisboeck - 2009 - researchgate.net
We present a multiscale agent-based non-small cell lung cancer model that consists of a 3D
environment with which cancer cells interact while processing phenotypic changes. At the …
environment with which cancer cells interact while processing phenotypic changes. At the …
Cross-scale, cross-pathway evaluation using an agent-based non-small cell lung cancer model.
Z Wang, CM Birch, J Sagotsky… - Bioinformatics (Oxford …, 2009 - europepmc.org
We present a multiscale agent-based non-small cell lung cancer model that consists of a 3D
environment with which cancer cells interact while processing phenotypic changes. At the …
environment with which cancer cells interact while processing phenotypic changes. At the …