Osteochondral Tissue Engineering Dilemma: Scaffolding Trends in Regenerative Medicine.
Faiza RamzanAsmat SalimIrfan KhanPublished in: Stem cell reviews and reports (2023)
Orthopedic surgeons face a lot of difficulties in managing and repairing osteochondral defects. Damaged articular cartilage and the subchondral bone underneath are both present in osteochondral defects. The demands of the bone, cartilage, and the contact between the bone and the cartilage must be taken into consideration while repairing an osteochondral defect. Only palliative, not curative, therapeutic interventions are now available for the healing of osteochondral abnormalities. With its ability to successfully rebuild bone, cartilage, and the junction between bone and cartilage, tissue engineering has been recognized as an effective substitute. In correlation, mechanical stress and physical processes are commonly applied to the osteochondral area. Therefore, the ability of chondrocytes and osteoblasts to regenerate is influenced by bioactive molecules and the physicochemical characteristics of the surrounding matrix. The treatment of osteochondral disorders is said to benefit from the use of stem cells as an alternative intervention. In the field of tissue engineering, various approaches have been used such as the direct implantation of scaffolding materials at the site of tissue injury in patients, either alone or loaded with cells and bioactive molecules at the target site to imitate the natural extracellular matrix. Despite the extensive use and advancements of tissue-engineered biomaterials such as natural and synthetic polymer-based scaffolds, their repair capacity is limited due to challenges in combating antigenicity, designed to simulate in vivo microenvironment, and conducting mechanical or metabolic characteristics comparable to native organs/tissues. This study explores numerous osteochondral tissue engineering methodologies focusing on scaffold design, material varieties, manufacturing techniques, and functional features. This review is focused on recent breakthroughs in bioactive scaffolds that aid osteogenic and chondrogenic differentiation for bone and cartilage repair. The topic will cover fundamental anatomy, osteochondral repair methodologies and obstacles, cell selection, biochemical variables, and bioactive materials, as well as the design and manufacture of bioactive scaffolds. Additionally, we focus on the concept and construction of decellularized scaffolds, and the fabrication of dECM scaffolds in tissue engineering from various skin, bone, nerve, heart tissue, lung, liver, and kidney, and their application in osteochondral regeneration.
Keyphrases
- tissue engineering
- extracellular matrix
- bone mineral density
- platelet rich plasma
- stem cells
- soft tissue
- bone loss
- bone regeneration
- end stage renal disease
- mesenchymal stem cells
- mental health
- newly diagnosed
- induced apoptosis
- ejection fraction
- gene expression
- signaling pathway
- palliative care
- peritoneal dialysis
- chronic kidney disease
- oxidative stress
- rectal cancer
- combination therapy
- cell death
- cell proliferation
- heat stress