Biomedical Photonics for Diabetes Research (eBook, PDF)
Redaktion: Dunaev, Andrey; Tuchin, Valery
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Biomedical Photonics for Diabetes Research (eBook, PDF)
Redaktion: Dunaev, Andrey; Tuchin, Valery
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This book provides an introduction to methods of biomedical photonics. The chapters, written by world-leading experts, cover a wide range of issues, including the theoretical basis of different biophotonics methods and practical issues concerning the conduction of experimental studies to diagnose disorders associated with diabetes.
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This book provides an introduction to methods of biomedical photonics. The chapters, written by world-leading experts, cover a wide range of issues, including the theoretical basis of different biophotonics methods and practical issues concerning the conduction of experimental studies to diagnose disorders associated with diabetes.
Dieser Download kann aus rechtlichen Gründen nur mit Rechnungsadresse in A, B, BG, CY, CZ, D, DK, EW, E, FIN, F, GR, HR, H, IRL, I, LT, L, LR, M, NL, PL, P, R, S, SLO, SK ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Seitenzahl: 278
- Erscheinungstermin: 31. Oktober 2022
- Englisch
- ISBN-13: 9781000735611
- Artikelnr.: 65653877
- Verlag: Taylor & Francis
- Seitenzahl: 278
- Erscheinungstermin: 31. Oktober 2022
- Englisch
- ISBN-13: 9781000735611
- Artikelnr.: 65653877
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
Andrey V. Dunaev is a Professor and a Leading Researcher at the Research and Development Center of Biomedical Photonics at Orel State University (Orel, Russia). His research interests are devoted to multimodal optical diagnostics of microcirculatory-tissue systems, including methodological and metrological support of diagnostic systems. He is a member of SPIE. Professor Dunaev is an Honorary Worker of Science and High Technologies of the Russian Federation. He is an author of more than 100 papers in peer-reviewed journals, 5 monographs and has over 10 patents. Valery V. Tuchin is a corresponding member of the Russian Academy of Sciences, Professor, Head of the Department of Optics and Biophotonics and Director of the Science Medical Center of Saratov State University. He is also Head of the Laboratory for Laser Diagnostics of Technical and Living Systems at the Institute of Precision Mechanics and Control, FRC "Saratov Scientific Center of the Russian Academy of Sciences." His research interests include biophotonics, biomedical optics, tissue optics, laser medicine, tissue optical clearing, and nanobiophotonics. He is a member of SPIE, OSA, and IEEE, Visiting Professor at HUST (Wuhan) and Tianjin Universities in China, and an Adjunct Professor at the University of Limerick (Ireland) and the National University of Ireland (Galway). Professor Tuchin is elected Fellow SPIE and OSA (OPTICA), he was awarded many titles and awards, including Honored Scientist of the Russian Federation, Honored Professor of SSU, Honored Professor of Finland (FiDiPro), SPIE Educational Award, Chime Bell Award of Hubei province (China), Joseph Goodman Award (OSA / SPIE) for Outstanding Monograph (2015), Michael Feld Award (OSA) for Pioneering Research in Biophotonics (2019), the Medal of the D.S. Rozhdestvensky Optical Society (2018) and the A.M. Prokhorov medal of the Academy of Engineering Sciences named after A.M. Prokhorov (2021). He is the author of over 1000 articles, 30 monographs, and textbooks, has over 60 patents, his works have been cited over 33,800 times.
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.
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.
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.
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.