Predictive Estimates of Short-Term and Long-Term Results for Regenerative Rehabilitation of Local Articular Cartilage Defects in Synovial Joints

Predictive Estimates of Short-Term and Long-Term Results for Regenerative Rehabilitation of Local Articular Cartilage Defects in Synovial Joints

Osteoarthritis is a serious disease of the synovial joints, accompanied by a degenerative lesion of the articular cartilage, often resulting in disability for a large number of people, since even modern methods of treatment in the late stages in most cases do not lead to positive results. Certain pr...

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Bibliographic Details
Published in:Lubricants Vol. 11; no. 3; p. 116
Main Authors: Poliakov, Aleksandr M, Pakhaliuk, Vladimir I
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-03-2023
Subjects:
Antiarthritic agents
Arthritis
articular cartilage
articular stem cell implantation technology
autologous chondrocyte implantation technology
Biomechanics
Blood vessels
Care and treatment
Cartilage
Defects
Finite element method
Friction
Homeostasis
In vivo methods and tests
mechanical tissue stimulation
New technology
Nutrients
Osteoarthritis
Quality assessment
Rehabilitation
Stimulation
synovial joint
Synovial joints
Tissue engineering
Tissues
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Summary:Osteoarthritis is a serious disease of the synovial joints, accompanied by a degenerative lesion of the articular cartilage, often resulting in disability for a large number of people, since even modern methods of treatment in the late stages in most cases do not lead to positive results. Certain prospects for the development of effective strategies for the treatment of osteoarthritis are associated with the development of new technologies for the regenerative rehabilitation of articular cartilage, involving the parallel use of regenerative and rehabilitation medicine procedures. The main goal of this study is to predict in silico short-term and long-term results of the regenerative rehabilitation process for articular cartilage based on a mathematical model that considers the diffusion of cells and nutrients into the defect area when implementing cell technologies and tissue engineering structures under conditions of explant mechanical stimulation. Numerical experiments were performed in the Matlab environment using the finite element method. On the whole, their results do not contradict those previously obtained by other authors, but they are more accurate. In the experiments, an indirect assessment of the mechanical stimulation effect for the explant and the developing cartilage tissue was made, while for the first time, the effect of a physiologically justified delay in rehabilitation procedures on the course of the regenerative process was evaluated. The results obtained can be used to assess the quality of rehabilitation procedures and plan protocols for experimental studies in vivo.
ISSN:2075-4442
2075-4442
DOI:10.3390/lubricants11030116