| scholarly article | Q13442814 |
| P50 | author | Alexander Anderson | Q63413745 |
| P2093 | author name string | David Basanta | |
| P2860 | cites work | The Hallmarks of Cancer | Q221226 |
| The role of IDH1 mutated tumour cells in secondary glioblastomas: an evolutionary game theoretical view | Q38304728 | ||
| A theoretical quantitative model for evolution of cancer chemotherapy resistance | Q40516956 | ||
| Cellular automata approaches to biological modeling | Q40896915 | ||
| Carcinoma-associated fibroblasts direct tumor progression of initiated human prostatic epithelium | Q40923257 | ||
| Evolutionary dynamics of cancer prevention | Q42555534 | ||
| Evolutionary game theory in an agent-based brain tumor model: exploring the 'Genotype-Phenotype' link. | Q51378835 | ||
| Evolutionary biology of cancer. | Q51727179 | ||
| Cancer stem cell tumor model reveals invasive morphology and increased phenotypical heterogeneity. | Q51760052 | ||
| Integrative mathematical oncology. | Q51893016 | ||
| Tumor morphology and phenotypic evolution driven by selective pressure from the microenvironment. | Q51928042 | ||
| Combination of p53 cancer vaccine with chemotherapy in patients with extensive stage small cell lung cancer | Q64378051 | ||
| A hybrid mathematical model of solid tumour invasion: the importance of cell adhesion | Q81552922 | ||
| The evolution of robust development and homeostasis in artificial organisms | Q21145380 | ||
| Cancer as an evolutionary and ecological process | Q22122026 | ||
| Hallmarks of Cancer: The Next Generation | Q22252312 | ||
| Evolution of cooperation among tumor cells | Q24671009 | ||
| Modeling evolutionary dynamics of epigenetic mutations in hierarchically organized tumors | Q27333860 | ||
| Intratumor Heterogeneity and Branched Evolution Revealed by Multiregion Sequencing | Q27860948 | ||
| Putting tumours in context | Q28207789 | ||
| Chemotherapy enhances tumor cell susceptibility to CTL-mediated killing during cancer immunotherapy in mice | Q30493889 | ||
| Plant diversity and ecosystem productivity: theoretical considerations | Q30945577 | ||
| A hybrid cellular automaton model of clonal evolution in cancer: the emergence of the glycolytic phenotype | Q33757776 | ||
| Evolutionary dynamics of biological games | Q34295025 | ||
| Unifying metastasis--integrating intravasation, circulation and end-organ colonization | Q34295326 | ||
| Modeling stromal-epithelial interactions in disease progression | Q34330033 | ||
| Adaptive therapy. | Q34984307 | ||
| Investigating prostate cancer tumour-stroma interactions: clinical and biological insights from an evolutionary game | Q35653826 | ||
| Exploiting evolution to treat drug resistance: combination therapy and the double bind | Q35885542 | ||
| Ecological therapy for cancer: defining tumors using an ecosystem paradigm suggests new opportunities for novel cancer treatments | Q36970516 | ||
| An evolutionary hybrid cellular automaton model of solid tumour growth | Q37119366 | ||
| Invasion emerges from cancer cell adaptation to competitive microenvironments: quantitative predictions from multiscale mathematical models | Q37182102 | ||
| Evolving homeostatic tissue using genetic algorithms. | Q37266969 | ||
| Microenvironmental independence associated with tumor progression | Q37439314 | ||
| P433 | issue | 4 | |
| P6104 | maintained by WikiProject | WikiProject Ecology | Q10818384 |
| P304 | page(s) | 20130020 | |
| P577 | publication date | 2013-08-01 | |
| P1433 | published in | Interface Focus | Q2031916 |
| P1476 | title | Exploiting ecological principles to better understand cancer progression and treatment | |
| P478 | volume | 3 |
| Q36074227 | A Big Bang model of human colorectal tumor growth |
| Q93384099 | An ecosystem framework for understanding and treating disease |
| Q48222041 | Big Bang and context-driven collapse |
| Q27005804 | Bridging scales in cancer progression: mapping genotype to phenotype using neural networks |
| Q26767415 | Cancer Evolution and the Limits of Predictability in Precision Cancer Medicine |
| Q92416656 | Cancer cell population growth kinetics at low densities deviate from the exponential growth model and suggest an Allee effect |
| Q37340907 | Cancer heterogeneity and multilayer spatial evolutionary games. |
| Q38943125 | Clonal cooperativity in heterogenous cancers |
| Q55333033 | Competition and niche construction in a model of cancer metastasis. |
| Q41214377 | Critical transitions in a game theoretic model of tumour metabolism |
| Q98946078 | Eco-oncology: Applying ecological principles to understand and manage cancer |
| Q98733541 | Evidence for hypoxia increasing the tempo of evolution in glioblastoma |
| Q26801710 | Evolutionary determinants of cancer |
| Q33808749 | Evolutionary game theory for physical and biological scientists. I. Training and validating population dynamics equations |
| Q99638395 | Histoecology: Applying Ecological Principles and Approaches to Describe and Predict Tumor Ecosystem Dynamics Across Space and Time |
| Q38910371 | Homeostasis Back and Forth: An Ecoevolutionary Perspective of Cancer |
| Q40093976 | Identification of neutral tumor evolution across cancer types. |
| Q27348042 | Impact of metabolic heterogeneity on tumor growth, invasion, and treatment outcomes. |
| Q26766238 | Learning about the Importance of Mutation Prevention from Curable Cancers and Benign Tumors |
| Q45778405 | Mathematics of the Integrative Cancer Biology Program. |
| Q37711597 | Metabolic origins of spatial organization in the tumor microenvironment. |
| Q43098253 | Microglia in the tumor microenvironment: taking their TOLL on glioma biology |
| Q92741302 | Mix and Match: Phenotypic Coexistence as a Key Facilitator of Cancer Invasion |
| Q54935991 | Modeling treatment-dependent glioma growth including a dormant tumor cell subpopulation. |
| Q38860529 | New paradigms in clonal evolution: punctuated equilibrium in cancer. |
| Q27331671 | Predictive computational modeling to define effective treatment strategies for bone metastatic prostate cancer |
| Q37687582 | Similarity and diversity of the tumor microenvironment in multiple metastases: critical implications for overall and progression-free survival of high-grade serous ovarian cancer |
| Q49922621 | Simulated ablation for detection of cells impacting paracrine signalling in histology analysis |
| Q36357436 | Simulation of avascular tumor growth by agent-based game model involving phenotype-phenotype interactions |
| Q54978324 | The complex ecosystem in non small cell lung cancer invasion. |
| Q46904792 | Turning ecology and evolution against cancer |
| Q41552673 | Understanding Resistance Mechanisms and Expanding the Therapeutic Utility of PARP Inhibitors. |
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