Aging, trauma, pathology, and poor natural tissue regeneration are the leading causes of osteoarthritis (OA), an articular cartilage disease. Electrospun scaffolds have gained attention as potential matrices for the treatment of OA because of their high degree of ECM mimicry, which suits chondrocyte migration, adhesion, and proliferation. However, none of the products recently introduced in the market are nanofiber-based. This study aimed to review the scope and tribology of nanofibrous articular cartilage scaffolds. Herein, we briefly discuss cartilage lubrication and strategies for promoting cell adhesion in electrospun materials. Next, we discuss the emerging need to study the biotribological properties of scaffolds. Finally, we review new perspectives on surface functionalization, surface segregation, Janus membranes, layer-by-layer fabrication, and nanofibrous composites. We conclude that cell adhesion and low-friction conciliation remain poorly explored in the recent literature. The topic intersection might create novelties in the field.
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