Abstract
Osteoarthritis (OA) is a degenerative disease of the connective tissue and progresses with age in the older population or develops in young athletes following sports-related injury. The articular cartilage is especially vulnerable to damage and has poor potential for regeneration because of the absence of vasculature within the tissue. Normal load-bearing capacity and biomechanical properties of thinning cartilage are severely compromised during the course of disease progression. Although surgical and pharmaceutical interventions are currently available for treating OA, restoration of normal cartilage function has been difficult to achieve. Since the tissue is composed primarily of chondrocytes distributed in a specialized extracellular matrix bed, bone marrow stromal cells (BMSCs), also known as bone marrow-derived 'mesenchymal stem cells' or 'mesenchymal stromal cells', with inherent chondrogenic differentiation potential appear to be ideally suited for therapeutic use in cartilage regeneration. BMSCs can be easily isolated and massively expanded in culture in an undifferentiated state for therapeutic use. Owing to their potential to modulate local microenvironment via anti-inflammatory and immunosuppressive functions, BMSCs have an additional advantage for allogeneic application. Moreover, by secreting various bioactive soluble factors, BMSCs can protect the cartilage from further tissue destruction and facilitate regeneration of the remaining progenitor cells in situ. This review broadly describes the advances made during the last several years in BMSCs and their therapeutic potential for repairing cartilage damage in OA.
Highlights
Osteoarthritis (OA) is a degenerative disease of the connective tissue and progresses with age in the older population or develops in young athletes following sports-related injury
E main structural feature contributing to the whitish glassy appearance of the tissue is due to the extracellular matrix (ECM) known as hyaline cartilage [2]. e ECM is composed of a dense framework of collagen fibers of mainly type II with small amounts of other subtypes of collagen. is unique biomechanical and structural composition of cartilage enables the tissue to balance its mechanical sturdiness and flexibility that are essential for normal tissue function
A comparative study using mesenchymal stem cell (MSC) obtained from various tissue sources reported that synovium-derived MSCs exhibited maximum chondro genesis potential followed by bone marrow-derived MSCs [20]. These results suggest that bone marrowderived MSCs can be used as a cell source for cartilage repair, the mechanism of hypertrophic differen tiation of MSC-derived cartilaginous structures to bone after transplantation remains to be elucidated [19]
Summary
ICRS Cartilage Injury cohort study n = 36; Chondrocytes: Evaluation Package n = 36. IRB-approved Autologous BM-MSCs Walking time for the pain to Walking time for pain improved in 3 patients study (8 to 9 million) appear and VAS pain score VAS decreased in all patients [44]. Arthroscopy: Good defect fill, stiffness, and incorporation to the adjacent cartilage
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