Biomedical Photonics for Diabetes Research
portes grátis
Biomedical Photonics for Diabetes Research
Dunaev, Andrey; Tuchin, Valery
Taylor & Francis Ltd
10/2024
262
Mole
9780367630911
15 a 20 dias
Descrição não disponível.
Chapter 1. Optical and Structural Properties of Biological Tissues under Simulated Diabetes Mellitus Conditions. Chapter 2. Optical Methods in Diabetic Foot Ulcer Screening. Chapter 3. The use of capillaroscopy and aggregometry methods to diagnose the alterations of microcirculation and microrheology in diabetes . Chapter 4. Diagnostics of functional abnormalities in the microcirculation system using laser Doppler flowmetry Chapter 5. Wearable sensors for blood perfusion monitoring in patients with diabetes mellitus. Chapter 6. Optical angiography at diabetes. Chapter 7. Noninvasive sensing of serum sRAGE and glycated hemoglobin by skin UV-induced fluorescence. Chapter 8. Hyperspectral imaging of diabetes mellitus skin complications. Chapter 9. Fluorescent technology in the assessment of metabolic disorders in diabetes. Chapter 10. Terahertz time-domain spectroscopy in the assessment of diabetic complications. Chapter 11. Noninvasive photonic sensing of glucose in blood stream.
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biomedical optics;optics;mellitus;diabetes;T2 Dm;T1 Dm;RBC Aggregation;Skin Autofluorescence;Skin Fluorescence;Oxygen Saturation;Blood Oxygen Saturation;RBC Aggregate;Microcirculatory Bed;Diabetic Foot;Blood Microcirculation;Diabetic Foot Ulcers;THz TDS;Distal Phalanx;Laser Speckle Imaging;sRAGE Levels;Con Group;Age Fluorescence;GK Rat;THz Pulse;THz Time Domain Spectroscopy;Speckle Pattern;THz Radiation;Collimated Transmittance;Enhance BBB Permeability
Chapter 1. Optical and Structural Properties of Biological Tissues under Simulated Diabetes Mellitus Conditions. Chapter 2. Optical Methods in Diabetic Foot Ulcer Screening. Chapter 3. The use of capillaroscopy and aggregometry methods to diagnose the alterations of microcirculation and microrheology in diabetes . Chapter 4. Diagnostics of functional abnormalities in the microcirculation system using laser Doppler flowmetry Chapter 5. Wearable sensors for blood perfusion monitoring in patients with diabetes mellitus. Chapter 6. Optical angiography at diabetes. Chapter 7. Noninvasive sensing of serum sRAGE and glycated hemoglobin by skin UV-induced fluorescence. Chapter 8. Hyperspectral imaging of diabetes mellitus skin complications. Chapter 9. Fluorescent technology in the assessment of metabolic disorders in diabetes. Chapter 10. Terahertz time-domain spectroscopy in the assessment of diabetic complications. Chapter 11. Noninvasive photonic sensing of glucose in blood stream.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
biomedical optics;optics;mellitus;diabetes;T2 Dm;T1 Dm;RBC Aggregation;Skin Autofluorescence;Skin Fluorescence;Oxygen Saturation;Blood Oxygen Saturation;RBC Aggregate;Microcirculatory Bed;Diabetic Foot;Blood Microcirculation;Diabetic Foot Ulcers;THz TDS;Distal Phalanx;Laser Speckle Imaging;sRAGE Levels;Con Group;Age Fluorescence;GK Rat;THz Pulse;THz Time Domain Spectroscopy;Speckle Pattern;THz Radiation;Collimated Transmittance;Enhance BBB Permeability