Numerical study of the mechanical behavior of model Bi-material samples of biological tissues under shock-wave loading

Degenerative diseases, injuries of the musculoskeletal system significantly reduce the quality of human life. Shock-wave loading is used to treat degraded bone tissue. This paper presents the results of numerical simulation of shock-wave loading of two-layer model samples of healthy biological tissu...

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Hauptverfasser:	Chirkov, Artem O., Eremina, Galina M., Smolin, Alexey Yu, Eremin, Mikhail O.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Arthritis Biological models (mathematics) Biomedical materials Cartilage Injury prevention Mechanical properties Musculoskeletal system Tissues
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creator	Chirkov, Artem O. Eremina, Galina M. Smolin, Alexey Yu Eremin, Mikhail O.
description	Degenerative diseases, injuries of the musculoskeletal system significantly reduce the quality of human life. Shock-wave loading is used to treat degraded bone tissue. This paper presents the results of numerical simulation of shock-wave loading of two-layer model samples of healthy biological tissues and those affected by osteoarthritis and osteoporotic arthritis. It was found that low-intensity acoustic exposure of the cortical tissue creates conditions for the treatment of osteoporotic phenomena. The application of a load in the area of cartilage promotes the generation of bone and biological tissues at great depths from the loading source.
doi_str_mv	10.1063/5.0084304
format	Conference Proceeding
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Shock-wave loading is used to treat degraded bone tissue. This paper presents the results of numerical simulation of shock-wave loading of two-layer model samples of healthy biological tissues and those affected by osteoarthritis and osteoporotic arthritis. It was found that low-intensity acoustic exposure of the cortical tissue creates conditions for the treatment of osteoporotic phenomena. 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subjects	Arthritis Biological models (mathematics) Biomedical materials Cartilage Injury prevention Mechanical properties Musculoskeletal system Tissues
title	Numerical study of the mechanical behavior of model Bi-material samples of biological tissues under shock-wave loading
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