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Advances in Experimental Medicine and Biology
|
November 13, 2012
Cancer stem cells and tumor dormancy
Heiko Enderling
Bio Systems
|
February 14, 2024
Fractal calculus in tumor growth simulations: The proof is in the pudding
Heiko Enderling
Computer Methods and Programs in Biomedicine
|
March 6, 2020
Re: Numerical simulation of normal and cancer cells' populations with fractional derivative under radiotherapy
Heiko Enderling
Physics of Life Reviews
|
December 3, 2021
Mathematical oncology: A new frontier in cancer biology and clinical decision making: Comment on "Improving cancer treatments via dynamical biophysical models" by M. Kuznetsov, J. Clairambault & V. Volpert
Heiko Enderling
Integrative Biology : Quantitative Biosciences From Nano to Macro
|
November 1, 2014
Cancer stem cells: small subpopulation or evolving fraction?
Heiko Enderling
Journal of Theoretical Biology
|
January 19, 2026
Mathematical modeling of tumor-immune interactions in breast cancer must model tumor-immune interactions in breast cancer
Heiko Enderling
Frontiers in Oncology
|
December 19, 2013
Unveiling stem cell kinetics: prime time for integrating experimental and computational models
Heiko Enderling
Computational and Systems Oncology
|
February 15, 2021
Are all models wrong?
Heiko Enderling, Olaf Wolkenhauer
Applied Mathematics
|
October 28, 2014
A High-Performance Cellular Automaton Model of Tumor Growth with Dynamically Growing Domains
Jan Poleszczuk, Heiko Enderling
Stem Cells International
|
February 10, 2016
Cancer Stem Cell Plasticity as Tumor Growth Promoter and Catalyst of Population Collapse
Jan Poleszczuk, Heiko Enderling
Page
of 13
Search research articles
Search
Showing results (1-10 of 123) with videos related to
Sort By:
Page
of 13
Advances in Experimental Medicine and Biology
|
November 13, 2012
Cancer stem cells and tumor dormancy
Heiko Enderling
Bio Systems
|
February 14, 2024
Fractal calculus in tumor growth simulations: The proof is in the pudding
Heiko Enderling
Computer Methods and Programs in Biomedicine
|
March 6, 2020
Re: Numerical simulation of normal and cancer cells' populations with fractional derivative under radiotherapy
Heiko Enderling
Physics of Life Reviews
|
December 3, 2021
Mathematical oncology: A new frontier in cancer biology and clinical decision making: Comment on "Improving cancer treatments via dynamical biophysical models" by M. Kuznetsov, J. Clairambault & V. Volpert
Heiko Enderling
Integrative Biology : Quantitative Biosciences From Nano to Macro
|
November 1, 2014
Cancer stem cells: small subpopulation or evolving fraction?
Heiko Enderling
Journal of Theoretical Biology
|
January 19, 2026
Mathematical modeling of tumor-immune interactions in breast cancer must model tumor-immune interactions in breast cancer
Heiko Enderling
Frontiers in Oncology
|
December 19, 2013
Unveiling stem cell kinetics: prime time for integrating experimental and computational models
Heiko Enderling
Computational and Systems Oncology
|
February 15, 2021
Are all models wrong?
Heiko Enderling, Olaf Wolkenhauer
Applied Mathematics
|
October 28, 2014
A High-Performance Cellular Automaton Model of Tumor Growth with Dynamically Growing Domains
Jan Poleszczuk, Heiko Enderling
Stem Cells International
|
February 10, 2016
Cancer Stem Cell Plasticity as Tumor Growth Promoter and Catalyst of Population Collapse
Jan Poleszczuk, Heiko Enderling
Page
of 13