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City Princeton / Boston / Charlestown / / Company IBM / / Currency USD / / / Facility Massachusetts General Hospital / Princeton Materials Institute / #Brain ¹umor Center / / IndustryTerm proliferative algorithm / simulation tool / proliferative growth algorithm / computational algorithm / lattice site / / MedicalCondition fatal tumor / tumor / simulated tumors / initial tumor / as yet untreated tumor / idealized tumor / large tumor / Tumors / disease / strain / glioblastoma multiforme / single simulated tumor / monoclonal tumor / real heterogeneous tumors / heterogeneous tumors / simulated tumor / entire tumor / high-grade malignant neuroepithelial tumors / rapidly growing tumor / single tumor / proliferative tumor / small tumor / Each tumor / macroscopic tumor / COMPUTATIONAL MODEL OF CLONAL EMERGENCE tumor / Malignant brain tumors / GBM tumors / glioma cell clones / R tumor / brain tumor / previously homogeneous tumor / individual tumor / primary tumor / / MedicalTreatment chemotherapy / / NaturalFeature MT KSR / KSR MT / / Organization #Brain ¹umor Center / Harvard Medical School / ANeurosurgical Service / Massachusetts General Hospital / Princeton Materials Institute / Department of Chemical Engineering / / Position Author / physician / / ProvinceOrState New Jersey / Montana / Massachusetts / / Technology proliferative growth algorithm / gene expression / chemotherapy / proliferative algorithm / simulation / computational algorithm / / URL http / SocialTag 
J. theor. Biol, 431}441 doi:jtbi, available online at http://www.idealibrary.com on Emergence of a Subpopulation in a Computational Model of Tumor Growth A. R. KANSAL*, S. TORQUATO-?, E. A.