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Biophotonics for tissue oxygenation analysis
Chia-Wei Sun
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*
Corresponding author for this work
Department of Photonics
Research output
:
Chapter in Book/Report/Conference proceeding
›
Chapter
›
peer-review
2
Scopus citations
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Keyphrases
Biophotonics
100%
Tissue Oxygenation
100%
Oxygen Molecule
66%
Lung
66%
Cardiovascular System
33%
Patients with Heart Failure
33%
Carbon Dioxide
33%
Dissolved Oxygen
33%
Oxygen Saturation
33%
Critical Patient
33%
Transporting Materials
33%
Vital Signs Monitoring
33%
Material Product
33%
Septic Shock
33%
Blood Circulation
33%
Cerebral Ischemia
33%
Erythrocytes
33%
Relative Measure
33%
Cardiovascular Insufficiency
33%
Oxygen in Tissues
33%
Waste Products
33%
Body Fluids
33%
Oxygen Delivery
33%
Medicine and Dentistry
Biophotonics
100%
Lung
100%
Cardiovascular System
50%
Oxygen Saturation
50%
Brain Ischemia
50%
Circulation
50%
Septic Shock
50%
Vital Sign
50%
Erythrocyte
50%
Congestive Heart Failure
50%
Cardiovascular System
50%
Carbon Dioxide
50%
Dissolved Oxygen
50%
Pharmacology, Toxicology and Pharmaceutical Science
Congestive Heart Failure
100%
Brain Ischemia
100%
Septic Shock
100%
Carbon Dioxide
100%
Dissolved Oxygen
100%
Nursing and Health Professions
Tissue Oxygenation
100%
Biophotonics
100%
Brain Ischemia
33%
Vital Sign
33%
Septic Shock
33%
Oxygen Saturation
33%
Congestive Heart Failure
33%
Dissolved Oxygen
33%
Cardiovascular System
33%
Carbon Dioxide
33%
Biochemistry, Genetics and Molecular Biology
Tissue Oxygenation
100%
Circulation
33%
Liquid
33%
Oxygen Saturation
33%
Blood Plasma
33%