Clinical Potential of Cellular Material Sources in the Generation of iPSC-Based Products for the Regeneration of Articular Cartilage

Abstract: Inflammatory joint diseases, among which osteoarthritis and rheumatoid arthritis are the most common, are characterized by progressive degeneration of the cartilage tissue, resulting in the threat of limited or lost joint functionality in the absence of treatment. Currently, treating these diseases is difficult, and a number of existing treatment and prevention measures are not entirely effective and are complicated by the patients’ conditions, the multifactorial nature of the pathology, and an incomplete unde… Show more

“…One significant advantage of iPSCs is their ability to be produced from different donor categories, including both diseased and healthy individuals, making them clinically applicable without the ethical concerns associated with ESCs [ 64 ]. iPSC differentiation protocols are important to obtain cell cultures that are as close as possible to natural chondrocytes [ 65 ]. In recent years, many protocols for chondrogenic differentiation have been developed.…”

Advancements in tissue engineering for articular cartilage regeneration

“…One significant advantage of iPSCs is their ability to be produced from different donor categories, including both diseased and healthy individuals, making them clinically applicable without the ethical concerns associated with ESCs [ 64 ]. iPSC differentiation protocols are important to obtain cell cultures that are as close as possible to natural chondrocytes [ 65 ]. In recent years, many protocols for chondrogenic differentiation have been developed.…”

Advancements in tissue engineering for articular cartilage regeneration

Next generation approaches for cartilage repair and joint preservation

Study of the Biodistribution of a Tissue-Engineered Product Based on Human Chondrocytes of Various Sources After Implantation into Balb/c Nude Mice