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Response to Mechanical Properties and Physiological Challenges of Fascia: Diagnosis and Rehabilitative Therapeutic Intervention for Myofascial System Disorders

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Fascial

Bioengineering (Basel).2023 Apr 14;10(4):474

Authors:

Yuya Kodama, Shin Masuda, Toshinori Ohmori, Akihiro Kanamaru, Masato Tanaka, Tomoyoshi Sakaguchi, Masami Nakagawa

Abstract.

Damage to the fascia can cause significant performance deficits in high-performance sports and recreational exercise and may contribute to the development of musculoskeletal disorders and persistent potential pain. The fascia is widely distributed from head to toe, encompassing muscles, bones, blood vessels, nerves, and internal organs and comprising various layers of different depths, indicating the complexity of its pathogenesis. It is a connective tissue composed of irregularly arranged collagen fibers, distinctly different from the regularly arranged collagen fibers found in tendons, ligaments, or periosteum, and mechanical changes in the fascia (stiffness or tension) can produce changes in its connective tissue that can cause pain. While these mechanical changes induce inflammation associated with mechanical loading, they are also affected by biochemical influences such as aging, sex hormones, and obesity. Therefore, this paper will review the current state of knowledge on the molecular level response to the mechanical properties of the fascia and its response to other physiological challenges, including mechanical changes, innervation, injury, and aging; imaging techniques available to study the fascial system; and therapeutic interventions targeting fascial tissue in sports medicine. This article aims to summarize contemporary views.

Publication Date: 

2023 Apr

OEID: 

6958

Kodama, Y., Masuda, S., Ohmori, T., Kanamaru, A., Tanaka, M., Sakaguchi, T., Nakagawa, M. (2023) 'Response to Mechanical Properties and Physiological Challenges of Fascia: Diagnosis and Rehabilitative Therapeutic Intervention for Myofascial System Disorders', Bioengineering (Basel).2023 Apr 14;10(4):474

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