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Mechanobiological Implications of Cancer Progression in Space
Hyondeog Kim
, Yun Shin
,
Dong Hwee Kim
*
*
Corresponding author for this work
Research output
:
Contribution to journal
›
Review article
›
peer-review
13
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Citations (Scopus)
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Keyphrases
Cancer Cells
100%
Cancer Progression
100%
Mechanobiological
100%
Space Environment
66%
Mechanical Cues
66%
Cellular Response
33%
Gene Expression
33%
Interleukin-6
33%
Phenotypic Change
33%
Homeostasis
33%
Human Health
33%
Tumor Microenvironment
33%
Human Body
33%
Cell Response
33%
In Vivo Experiment
33%
Cancer Cell Proliferation
33%
Cytokine Expression
33%
Terrestrial Environment
33%
Physical Changes
33%
Decompression
33%
Extracellular Microenvironment
33%
Active Interaction
33%
Space Conditions
33%
Simulated Space
33%
Spaceflight
33%
Cancer Malignancy
33%
Tumor Survival
33%
Mechanobiology
33%
Space Biology
33%
Actual Space
33%
Tumor Growth Factor
33%
Space Irradiation
33%
Space Microgravity
33%
Medicine and Dentistry
Cancer Cell
100%
Cancer Growth
100%
Malignant Neoplasm
50%
Cytokine
50%
Cell Proliferation
25%
Neoplasm
25%
Secretion (Process)
25%
Homeostasis
25%
Public Health
25%
Gene Expression
25%
Cancer
25%
Interleukin 6
25%
Tumor Microenvironment
25%
Mechanobiology
25%
Cancer Growth Factor
25%
Engineering
Progression
100%
Microenvironments
100%
Review Article
50%
Cellular Response
50%
Human Health
50%
Cell Response
50%
Decompression
50%
Spaceflight
50%
Immunology and Microbiology
Cancer Cell
100%
Cytokine
50%
Secretion (Process)
25%
Gene Expression
25%
Cell Proliferation
25%
Homeostasis
25%
Interleukin 6
25%
Microgravity
25%
Decompression
25%
Cancer Growth Factor
25%
Biochemistry, Genetics and Molecular Biology
Cancer Cell
100%
Cytokine
50%
Cell Proliferation
25%
Secretion (Process)
25%
Gene Expression
25%
Homeostasis
25%
Interleukin 6
25%
Decompression
25%
Microgravity
25%
Cancer Growth Factor
25%
Material Science
Tumor
100%
Gene Expression
33%
Cell Proliferation
33%