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Laminar shear stress inhibits high glucose-induced migration and invasion in human bladder cancer cells
Yu Hsiang Lee
, Chien Hsuan Yeh
生醫科學與工程學系
研究成果
:
雜誌貢獻
›
期刊論文
›
同行評審
7
引文 斯高帕斯(Scopus)
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Medicine and Dentistry
Cancer Cell
100%
Cell Migration
100%
Bladder Cancer
100%
Hyperglycemia
75%
Metastatic Carcinoma
50%
Cell Motility
50%
Diabetes Mellitus
50%
Malignant Neoplasm
25%
Cell Invasion
25%
Protein Expression
25%
Pathophysiology
25%
Expression Analysis
25%
Lymph Duct
25%
Keyphrases
Human Bladder Cancer Cells
100%
Laminar Shear Stress
100%
High Glucose
100%
Hyperglycemia
37%
Motility
25%
Metastasis
25%
Diabetic
25%
Bladder Cancer
25%
Cell Migration
12%
Cancer Cells
12%
Cell Movement
12%
Fluid Flow
12%
Flow Effect
12%
Cell Wall Proteins
12%
Cell Motility
12%
Dominant Role
12%
Stress Stimuli
12%
Leading Causes of Death
12%
Cell Invasion
12%
Mechanical Force
12%
Bladder Cancer Cells
12%
Cancer Cell Motility
12%
Cancer Pathogenesis
12%
Pathogenic Role
12%
Lymphatic Fluid
12%
Protein Expression Analysis
12%
Engineering
Progression
100%
Fluid Flow
100%
Mechanical Force
100%
Generated Stress
100%
Biochemistry, Genetics and Molecular Biology
Cancer Cell
100%
Shear Stress
100%
Cell Migration
50%
Hyperglycemia
37%
Cell Motility
25%
Protein Expression
12%
Cell Invasion
12%
Expression Analysis
12%
Fluid Flow
12%
Cell Movement
12%
Immunology and Microbiology
Cancer Cell
100%
Shear Stress
100%
Cell Migration
50%
Cell Motility
25%
Protein Expression
12%
Expression Analysis
12%
Cell Invasion
12%
Fluid Flow
12%
Pharmacology, Toxicology and Pharmaceutical Science
Bladder Cancer
100%
Hyperglycemia
75%
Malignant Neoplasm
50%
Diabetes Mellitus
50%
Pathophysiology
25%