Gait Pattern Analysis After Arthroscopic Treament of Osteochondral Defects of Talus

Osteochondral defects (OCDs) of the talus are lesions that extend into the subchondral bone. They most commonly occur after ankle fractures, dislocations, or other ankle injuries. Spontaneous necrosis, systemic vascular disorders, and metabolic diseases have also been implicated in the development of talar OCD.

Current treatment strategies-selected according to lesion size, location, and patient characteristics-range from conservative modalities (weight-bearing restriction, NSAIDs, immobilization) to arthroscopic debridement, bone marrow-stimulating techniques such as microfracture or nanofracture combined with biologic scaffolds, autologous chondrocyte-based procedures (ACI, MACI, AMIC), autologous osteochondral transfers (mosaicplasty/OAT), and more recently, biologic augmentations with platelet-rich plasma (PRP) or bone marrow aspirate concentrate (BMAC).

The microfracture technique is usually performed arthroscopically. Perforation of the subchondral plate recruits mesenchymal stem cells that drive cartilage repair. Concomitant use of a biologic scaffold has been shown to enhance cartilage regeneration and improve functional scores. While microfracture provides an initial stimulus for defect filling, biologic cartilage scaffolds support cell adhesion and foster the formation of hyaline-like tissue. Autologous osteochondral transfers are preferred for larger lesions, and among autologous chondrocyte-based techniques, no meaningful short-term clinical differences have been demonstrated.

Plantar pressure analysis (pedobarography) yields objective information on foot and ankle biomechanics during gait and is widely used to detect changes after orthopedic surgery. By quantifying plantar pressure distribution, pedobarography enables detailed assessment of foot and ankle loading patterns. In patients with talar OCD, gait analyses have shown that the ankle tends to assume a valgus position during walking; medial talar lesions are associated with reduced plantarflexion at the Lisfranc joint, whereas lateral talar lesions demonstrate increased midfoot peak pressure.

This study will evaluate postoperative changes in gait biomechanics-measured by pedobarography-in patients with talar OCD treated arthroscopically with microfracture and a biologic cartilage scaffold. We hypothesize that the abnormal plantar pressure distribution observed preoperatively will normalize after surgery, bringing gait biomechanics closer to those of healthy individuals.