The future: Monitoring cellular energetics

Keyphrases

• Dysoxia 100%
• Cellular Energetics 100%
• Electronic Equipment 33%
• Ischemia 33%
• Sepsis 33%
• Magnetic Field 33%
• NMR Spectroscopy 33%
• Monitoring Technology 33%
• Critically Ill Patients 33%
• Organ Perfusion 33%
• Hypoxemia 33%
• Tissue Perfusion 33%
• Metabolically Active 33%
• Tissue Level 33%
• Technical Factors 33%
• Oxygen Consumption 33%
• Oxygen Limitation 33%
• Current Monitoring 33%
• Organ Level 33%
• Hemodilution 33%
• Consumption Level 33%
• NIR Spectroscopy 33%
• Mitochondrial Turnover 33%
• Lactate Level 33%
• Patient Use 33%
• Global Parameters 33%

Biochemistry, Genetics and Molecular Biology

• Magnetic Field 100%
• Energy Transfer 100%
• Mitochondrial Dynamics 100%
• Oxygen Consumption 100%
• Organ Perfusion 100%
• Cell Energy 100%
• Tissue Level 100%
• Tissue Perfusion 100%

Nursing and Health Professions

• NMR Spectroscopy 100%
• Turnover Rate 50%
• Tissue Perfusion 50%
• Patient Monitor 50%
• Organ Perfusion 50%
• Tissue Level 50%
• near Infrared Spectroscopy 50%
• Ischemia 50%
• Lactic Acid 50%
• Hemodilution 50%
• Hypoxemia 50%
• Sepsis 50%