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Cardiovascular effects of exercise: Role of endothelial shear stress
Josef Niebauer,
John P. Cooke
Department of Cardiovascular Sciences
Academic Institute
Center for Cardiovascular Regeneration
DeBakey Heart & Vascular Center
Houston Methodist Hospital
Houston Methodist
Weill Cornell Medical College
Research output
:
Contribution to journal
›
Article
›
peer-review
371
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Scopus citations
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Keyphrases
Shear Stress
100%
Cardiovascular Effects
100%
Endothelial Shear Stress
100%
Exercise Effect
100%
Blood Flow
66%
Exercise-induced
66%
Blood Shear
66%
Flow Stress
66%
Cardiovascular Morbidity
33%
Beneficial Effects
33%
Vascular Structure
33%
Endothelium-dependent Vasodilation
33%
Atherogenesis
33%
Nitric Oxide Release
33%
Cardiovascular Disease
33%
Prostacyclin
33%
Heart Rate
33%
Blood Pressure
33%
Epidemiologic
33%
Restenosis
33%
Pressure Rate
33%
Vascular Function
33%
Lipoprotein Levels
33%
Cardiovascular Mortality
33%
Neurohormonal
33%
Physiological Variables
33%
Multiple Processes
33%
Regular Exercise
33%
Cardiovascular Remodeling
33%
Cardiovascular Health
33%
Physical Exercise
33%
Carbohydrate Intolerance
33%
Pharmacology, Toxicology and Pharmaceutical Science
Clinical Study
100%
Lipoprotein
100%
Nitric Oxide
100%
Cardiovascular Disease
100%
Atherogenesis
100%
Restenosis
100%
Prostacyclin
100%
Medicine and Dentistry
Cardiovascular System
100%
Cardiovascular Effect
100%
Blood Flow
66%
Clinical Study
33%
Lipoprotein
33%
Nitric Oxide
33%
Cardiovascular Disease
33%
Vasodilatation
33%
Atherogenesis
33%
Prostacyclin
33%
Blood Pressure
33%
Restenosis
33%
Carbohydrate Tolerance
33%
Immunology and Microbiology
Shear Stress
100%
Cardiovascular Effect
100%
Blood Flow
50%
Lipoprotein
25%
Blood Pressure
25%
Vasodilatation
25%
Prostacyclin
25%