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A Hybrid Model of Tumor-Stromal Interactions in Breast Cancer
Yangjin Kim,
Hans G. Othmer
School of Mathematics
Research output
:
Contribution to journal
›
Article
›
peer-review
61
Scopus citations
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Dive into the research topics of 'A Hybrid Model of Tumor-Stromal Interactions in Breast Cancer'. Together they form a unique fingerprint.
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Keyphrases
Breast Cancer
100%
Tumor Cells
100%
Growth Factors
100%
Tumor-stroma Interaction
100%
Stromal Cells
100%
Hybrid Model
100%
Extracellular Matrix
66%
Ductal Carcinoma in Situ
66%
Cell Growth
33%
Tumor
33%
Tumor Growth
33%
Cell Proliferation
33%
Signaling Pathway
33%
Epigenetic Modification
33%
Mathematical Model
33%
Tumor Progression
33%
Early Development
33%
Tumor Invasion
33%
Invasive Breast Cancer
33%
Mechanical Interaction
33%
Tumor Microenvironment
33%
Mechanical Properties
33%
Biochemical Interactions
33%
Epithelial Cells
33%
Tumor Evolution
33%
Epithelium
33%
Feedback Device
33%
Cellular Factors
33%
Transformed Cells
33%
Most Common Form
33%
Mechanical State
33%
TGF Signaling
33%
State Influence
33%
Comedo
33%
Invasive Ductal Carcinoma
33%
EGF Signaling
33%
Epithelial Lining Fluid
33%
Extracellular Matrix Signaling
33%
Tumor Stage
33%
Milk Duct
33%
Medicine and Dentistry
Breast Cancer
100%
Tumor Cell
100%
Extracellular Matrix
100%
Stromal Tumor
100%
Growth Factor
100%
Neoplasm
66%
Tumor Progression
66%
Intraductal Carcinoma
66%
Cell Growth
33%
Tumor Microenvironment
33%
Cell Signaling Pathway
33%
Epithelial Cell
33%
Stroma
33%
Cell Proliferation
33%
down Regulation
33%
Upregulation
33%
Breast Carcinoma
33%
Stromal Cell
33%
Lactiferous Duct
33%
Transformed Cell
33%
Comedo
33%
Tumor Invasion
33%
Immunology and Microbiology
Growth Factor
100%
Tumor Cell
100%
Extracellular Matrix
100%
Cell Proliferation
33%
down Regulation
33%
Upregulation
33%
Stroma
33%
Transformed Cell
33%
Comedo
33%
Cell Growth
33%
Biochemistry, Genetics and Molecular Biology
Growth Factor
100%
Tumor Progression
66%
Epigenetics
33%
Stromal Cell
33%
Upregulation
33%
down Regulation
33%
Cell Proliferation
33%
Cell Growth
33%