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Thomas S. Deisboeck

Identifiers

  • name variant Thomas S. Deisboeck 0.60 · backfill

Papers (21)

  1. Cancer Cell Motility: Optimizing Spatial Search Strategies q-bio.CB · 2008 · author #4
  2. Multi-Scale, Multi-Resolution Brain Cancer Modeling q-bio.CB · 2008 · author #3
  3. Cross-Scale Sensitivity Analysis of a Non-Small Cell Lung Cancer Model: Linking Molecular Signaling Properties to Cellular Behavior q-bio.QM · 2007 · author #3
  4. Simulating non-small cell lung cancer with a multiscale agent-based model q-bio.CB · 2007 · author #4
  5. Physical Aspects of Cancer Invasion physics.bio-ph · 2007 · author #4
  6. Analyzing the Dynamic Relationship between Tumor Growth and Angiogenesis in a Two Dimensional Finite Element Model q-bio.TO · 2007 · author #3
  7. Simulating Brain Tumor Heterogeneity with a Multiscale Agent-Based Model: Linking Molecular Signatures, Phenotypes and Expansion Rate q-bio.TO · 2006 · author #4
  8. Cancer Dissemination: A Consequence of limited Carrying Capacity? q-bio.TO · 2006 · author #1
  9. Morphological Instability and Cancer Invasion: A 'Splashing Water Drop' Analogy physics.med-ph · 2006 · author #3
  10. Development of a Three-Dimensional Multiscale Agent-Based Tumor Model: Simulating Gene-Protein Interaction Profiles, Cell Phenotypes & Multicellular Patterns in Brain Cancer q-bio.TO · 2006 · author #3
  11. Does Cancer Growth Depend on Surface Extension? q-bio.TO · 2006 · author #1
  12. Tumor growth instability and the onset of invasion physics.bio-ph · 2005 · author #3
  13. The Effects of EGF-Receptor Density on Multiscale Tumor Growth Patterns q-bio.CB · 2005 · author #2
  14. The Dynamic Evolution of the Power Exponent in a Universal Growth Model of Tumors q-bio.QM · 2005 · author #5
  15. Simulating the Impact of a Molecular 'Decision-Process' on Cellular Phenotype and Multicellular Patterns in Brain Tumors q-bio.CB · 2004 · author #3
  16. Scaling Laws in Cancer: The Dynamic Behaviour of the Power Exponent p q-bio.TO · 2004 · author #4
  17. Insights from a Novel Tumor Model: Indications for a Quantitative Link between Tumor Growth and Invasion physics.bio-ph · 2003 · author #1
  18. Simulating the time series of a selected gene expression profile in an agent-based tumor model nlin.AO · 2003 · author #2
  19. A Growth Model for Multicellular Tumor Spheroids physics.bio-ph · 2003 · author #6
  20. Does tumor growth follow a 'universal law'? physics.med-ph · 2003 · author #5
  21. Growth Patterns of Microscopic Brain Tumors physics.bio-ph · 2002 · author #2

Mentions

  • 0806.4154 #4 · backfill · confidence 0.70 Thomas S. Deisboeck
  • 0806.3980 #3 · backfill · confidence 0.70 Thomas S. Deisboeck
  • 0712.0367 #3 · backfill · confidence 0.70 Thomas S. Deisboeck
  • 0706.1568 #4 · backfill · confidence 0.70 Thomas S. Deisboeck
  • 0705.4416 #4 · backfill · confidence 0.70 Thomas S. Deisboeck

Frequent Coauthors