Heiko Enderling
Heiko Enderling
Associate Professor, Integrated Mathematical Oncology, Moffitt Cancer Center, Tampa FL, USA
Verified email at - Homepage
Cited by
Cited by
A mathematical model of breast cancer development, local treatment and recurrence
H Enderling, MAJ Chaplain, ARA Anderson, JS Vaidya
Journal of theoretical biology 246 (2), 245-259, 2007
Paradoxical Dependencies of Tumor Dormancy and Progression on Basic Cell KineticsTumor Dormancy and Progression
H Enderling, ARA Anderson, MAJ Chaplain, A Beheshti, L Hlatky, ...
Cancer research 69 (22), 8814-8821, 2009
Mathematical modeling of tumor growth and treatment
H Enderling, M AJ Chaplain
Current pharmaceutical design 20 (30), 4934-4940, 2014
The future of personalised radiotherapy for head and neck cancer
JJ Caudell, JF Torres-Roca, RJ Gillies, H Enderling, S Kim, A Rishi, ...
The Lancet Oncology, 2017
Acute and Fractionated Irradiation Differentially Modulate Glioma Stem Cell Division KineticsIrradiation Modulates Glioma Stem Cell Division Kinetics
X Gao, JT McDonald, L Hlatky, H Enderling
Cancer research 73 (5), 1481-1490, 2013
Migration rules: tumours are conglomerates of self-metastases
H Enderling, L Hlatky, P Hahnfeldt
British journal of cancer 100 (12), 1917-1925, 2009
Mathematical modelling of radiotherapy strategies for early breast cancer
H Enderling, ARA Anderson, MAJ Chaplain, AJ Munro, JS Vaidya
Journal of Theoretical Biology 241 (1), 158-171, 2006
The 2019 mathematical oncology roadmap
RC Rockne, A Hawkins-Daarud, KR Swanson, JP Sluka, JA Glazier, ...
Physical biology 16 (4), 041005, 2019
The tumor growth paradox and immune system-mediated selection for cancer stem cells
T Hillen, H Enderling, P Hahnfeldt
Bulletin of mathematical biology 75 (1), 161-184, 2013
A proliferation saturation index to predict radiation response and personalize radiotherapy fractionation
S Prokopiou, EG Moros, J Poleszczuk, J Caudell, JF Torres-Roca, K Latifi, ...
Radiation Oncology 10 (1), 1-8, 2015
Abscopal Benefits of Localized Radiotherapy Depend on Activated T-cell Trafficking and Distribution between Metastatic LesionsT-cell Trafficking in Abscopal Response
JT Poleszczuk, KA Luddy, S Prokopiou, M Robertson-Tessi, EG Moros, ...
Cancer research 76 (5), 1009-1018, 2016
Mathematical models of cancer: when to predict novel therapies, and when not to
R Brady, H Enderling
Bulletin of mathematical biology 81 (10), 3722-3731, 2019
Dependence of invadopodia function on collagen fiber spacing and cross-linking: computational modeling and experimental evidence
H Enderling, NR Alexander, ES Clark, KM Branch, L Estrada, C Crooke, ...
Biophysical journal 95 (5), 2203-2218, 2008
Quantitative modeling of tumor dynamics and radiotherapy
H Enderling, MAJ Chaplain, P Hahnfeldt
Acta biotheoretica 58 (4), 341-353, 2010
Evolution and phenotypic selection of cancer stem cells
J Poleszczuk, P Hahnfeldt, H Enderling
PLoS computational biology 11 (3), e1004025, 2015
Breaking the ‘harmony’of TNF-α signaling for cancer treatment
SP Sasi, X Yan, H Enderling, D Park, HY Gilbert, C Curry, C Coleman, ...
Oncogene 31 (37), 4117-4127, 2012
Cancer stem cells in solid tumors: Is ‘evading apoptosis’a hallmark of cancer?
H Enderling, P Hahnfeldt
Progress in biophysics and molecular biology 106 (2), 391-399, 2011
Cancer stem cells: a minor cancer subpopulation that redefines global cancer features
H Enderling, L Hlatky, P Hahnfeldt
Frontiers in oncology 3, 76, 2013
The importance of spatial distribution of stemness and proliferation state in determining tumor radioresponse
H Enderling, D Park, L Hlatky, P Hahnfeldt
Mathematical Modelling of Natural Phenomena 4 (3), 117-133, 2009
Cancer stem cells: small subpopulation or evolving fraction?
H Enderling
Integrative Biology 7 (1), 14-23, 2015
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