Your search keyword '"Isaac O. Afara"' showing total 3 results

1. Optical properties of articular cartilage in the near-Infrared spectral range are related to its proteoglycan content

Author

Isaac O. Afara, Iman Kafian-Attari, Juha Töyräs, Markku Hauta-Kasari, Dmitry V. Semenov, and Ervin Nippolainen

Subjects

biology, medicine.diagnostic_test, Chemistry, Cartilage, Arthroscopy, Type II collagen, Connective tissue, Osteoarthritis, medicine.disease, Extracellular matrix, medicine.anatomical_structure, Proteoglycan, medicine, biology.protein, Absorption (electromagnetic radiation), Biomedical engineering

Abstract

Articular cartilage is a connective tissue that enables smooth movements between bones in articulating joints. Cartilage consists of extracellular matrix (ECM) and chondrocytes – the cells responsible for synthesis of the ECM. The ECM consists of type II collagen, proteoglycans, water, and some other minor components. Cartilage is prone to degenerative joint conditions, such as osteoarthritis, due to its weak repair capacity resulting from a lack of vascular, neural, and lymphatic networks. Osteoarthritis causes erosion of the cartilage matrix and therefore inhibits its function, resulting in joint pain, loss of mobility, and significant global socioeconomic burden. Currently, surgical treatment of cartilage pathologies is carried out during arthroscopy with variable outcomes. This variability occurs due to the subjective nature of arthroscopy, which relies on manual palpation and visual evaluation of the tissue surface. Diffuse optical spectroscopy in the near-infrared spectral region probes tissue structure and composition via a relationship with its optical properties (the absorption and reduced scattering coefficients). Due to its avascular nature, healthy cartilage is translucent. It thus has low absorption in the near-infrared region, providing the necessary conditions for light to traverse deep into the tissue. This research reports, for the first time, cartilage absorption and reduced scattering coefficients in the near-infrared spectral range and assess their capacity for characterizing the depth-wise profile of cartilage proteoglycan content. The results revealed that cartilage optical properties are strong predictors of its proteoglycan content. The best performance was observed with the prediction of the proteoglycan content by the absorption coefficient.

Published

2020

2. Mid-infrared fiber spectroscopy for detection of cartilage degeneration in osteoarthritis (Conference Presentation)

Author

Markus Nägele, Julian Haas, Harold Brommer, Michael Pleyer, Isaac O. Afara, Johannes Koeth, Valeria Belikova, Boris Mizaikoff, Iskander Usenov, Olga Bibikova, Vesa Virtanen, Viacheslav Artyushenko, Elena Feliksberger, Ervin Nippolainen, Juha Töyräs, Alexey Bocharnikov, Tatiana Sakharova, René van Weeren, Valentin Mironovich, Lassi Rieppo, and Anastasia Surkova

Subjects

Optical fiber, Materials science, medicine.diagnostic_test, Cartilage, Arthroscopy, Mid infrared, Osteoarthritis, medicine.disease, law.invention, medicine.anatomical_structure, law, medicine, Fiber, Spectroscopy, Cartilage degeneration, Biomedical engineering

Abstract

Combination of FTIR spectroscopy with fiber optics provides a powerful diagnostic tool for diagnosing of human diseases, including osteoarthritis. To detect cartilage degradation, an arthroscopic probe based on polycrystalline fibers was developed and evaluated on equine cartilage specimen. The hook shape allows reaching a significant portion of the articular surface; the flat tip ensures avoidance of tissue destruction. Efficient QCL-coupling and stable transmission of PIR fibers under bending allows the assembling of effective thin arthroscopy probes and customized multispectral systems for medical diagnostic applications. The presented work was performed within the MIRACLE project (Grant Agreement No 780598, Horizon 2020).

Published

2020

3. Multi-spectral fiber spectroscopy methods as solutions for label-free medical diagnostics (Conference Presentation)

Author

Ervin Nippolainen, Isaac O. Afara, Boris Mizaikoff, René van Weeren, Viacheslav Artyushenko, Sonata Adomaviciute, Julian Haas, Olga Bibikova, Olaf Minet, Lasi Rieppo, Juha Töyräs, Harold Brommer, Valdas Sablinskas, Valeria Belikova, Anastasija Melenteva, Vesa Virtanen, and Urszula Zabarylo

Subjects

Presentation, Medical diagnostic, Optics, Fiber (mathematics), Computer science, business.industry, media_common.quotation_subject, Spectroscopy methods, Multi spectral, business, media_common, Label free

Published

2019