The Ripple Effect: How Hallux Valgus Deformity Influences Ankle and Knee Joint Kinematics During Gait.

Hallux valgus (HV) is described as a lateral deviation of the great toe at the first metatarsophalangeal joint (MTP), which is a very common foot deformity in the clinic. This deformity extends beyond localized foot mechanics to affect the entire lower extremity kinetic chain, potentially increasing dynamic instability during locomotion. This study aimed to characterize the kinematics of ankle and knee joints during walking in HV patients compared to controls. In total, 23 patients with bilateral HV and matched healthy controls were recruited. The 6-DOF kinematics data of ankles and knees were collected using a joint motion function analysis system while level walking at adaptive speed. HV patients demonstrated significant kinematic alterations in the ankle joint at IC, including decreased varus by 2.87° ( < 0.001), decreased internal rotation by 1.77° ( = 0.035), and decreased plantarflexion by 4.39° ( < 0.001) compared with healthy subjects. Concurrent compensatory changes in the knee joint included increased varus rotation by 1.41° ( = 0.023), reduced anterior translation by 0.84 mm ( < 0.001), and increased lateral translation by 0.26 mm ( = 0.036). HV patients showed increased ankle dorsiflexion of 3.61° ( = 0.06) and decreased ankle internal rotation of 2.69° ( = 0.043), with concurrent increased knee internal rotation of 2.59° ( = 0.009) at SPF. The ripple effect during walking in the HV population may elevate the risk of knee pathologies. These findings may inform both conservative management strategies and post-surgical rehabilitation regimens.