Reprint

Optical Diagnostics in Human Diseases

Edited by
September 2021
184 pages
  • ISBN978-3-0365-1617-2 (Hardback)
  • ISBN978-3-0365-1618-9 (PDF)

This book is a reprint of the Special Issue Optical Diagnostics in Human Diseases that was published in

Medicine & Pharmacology
Public Health & Healthcare
Summary

Optical technologies provide unique opportunities for the diagnosis of various pathological disorders. The range of biophotonics applications in clinical practice is considerably wide given that the optical properties of biological tissues are subject to significant changes during disease progression. Due to the small size of studied objects (from μm to mm) and despite some minimum restrictions (low-intensity light is used), these technologies have great diagnostic potential both as an additional tool and in cases of separate use, for example, to assess conditions affecting microcirculatory bed and tissue viability. This Special Issue presents topical articles by researchers engaged in the development of new methods and devices for optical non-invasive diagnostics in various fields of medicine. Several studies in this Special Issue demonstrate new information relevant to surgical procedures, especially in oncology and gynecology. Two articles are dedicated to the topical problem of breast cancer early detection, including during surgery. One of the articles is devoted to urology, namely to the problem of chronic or recurrent episodic urethral pain. Several works describe the studies in otolaryngology and dentistry. One of the studies is devoted to diagnosing liver diseases. A number of articles contribute to the studying of the alterations caused by diabetes mellitus and cardiovascular diseases. The results of all the presented articles reflect novel innovative research and emerging ideas in optical non-invasive diagnostics aimed at their wider translation into clinical practice.

Format
  • Hardback
License
© by the authors
Keywords
chemoresistance; cisplatin; gray-level co-occurrence matrix; ovarian adenocarcinoma; optical densitometry; liver diagnosis; indocyanine green; liver functional reserve; optical density; plasma disappearance rate; cross-polarization optical coherence tomography (CP OCT); ultrasound; urethral pain syndrome; epithelial atrophy; epithelial hyperplasia; inflammation; fibrosis; image evaluation; liver cancer; endogenous fluorescence; laser Doppler flowmetry; blood perfusion; minimally invasive interventions; machine learning; raman spectroscopy; optical diagnostic; periodontitis; tooth tissues; biophotonics; calculus; zebrafish; embryonic development; cardiovascular system; in vivo imaging; optical mapping; non-invasive measurements; shortwave-infrared light; near-infrared light; visible light; fluorescence; breast cancer; duct; visible human project; Monte Carlo simulation; voxelized media; breast cancer; cross-polarization optical coherence tomography (CP-OCT); compressional optical coherence elastography (C-OCE); image assessment; optical properties; scattering theories; circulatory system; blood rheology; red blood cell aggregation; laser tweezers; laser aggregometry; digital capillaroscopy; coronary heart disease; diabetes mellitus; optical diagnostics; digital diaphanoscopy; magnetic resonance imaging; paranasal sinuses; inflammatory diseases; Monte Carlo simulation; laser Doppler flowmetry; non-invasive optical diagnostics; cumulative sum; power spectrum; heating test; diabetes mellitus type 2; wearable blood flow sensors; blood perfusion; laser Doppler flowmetry; ortostatic test; postural changes; body position; blood perfusion in forehead; blood perfusion in wrists; blood perfusion in shins; blood perfusion oscillations; vasomotions; biophotonics; optics; spectroscopy; imaging; diagnostics