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Three-Dimensional Analysis of Normal Ankle and Foot Mobility

Department of Orthopedics,Mayo Clinic and Mayo Foundation, Rochester, Minnesota

Zong Ping Luo, PhD

Biomechanics Laboratory,Mayo Clinic and Mayo Foundation, Rochester, Minnesota

Kai-Nan An, PhD

Biomechanics Laboratory,Mayo Clinic and Mayo Foundation, Rochester, Minnesota

We defined foot and ankle motion with respect to the neutral position. Thirteen normal fresh-frozen speci mens of the human foot were used. The foot was placed in the extreme positions of pronation, supina tion, dorsiflexion, and plantar flexion, and positions of multiple bones were monitored simultaneously with a magnetic tracking device to determine rotation of the talocrural, subtalar, metatarsal-navicular, and talo navicular joints under the various conditions. In prona tion, the most rotation occurred at the metatarsal-na vicular level, followed by the navicular-talar, talar-tibial, and calcaneal-talar levels. In supination, most rotation occurred at the navicular-talar level, followed by the calcaneal-talar, talar-tibial, and metatarsal-navicular levels. In dorsiflexion, most rotation occurred at the talar-tibial level, followed by the navicular-talar, calca neal-talar, and metatarsal-navicular levels. In plantar flexion, most rotation occurred at the talar-tibial level, but there was considerable motion at the navicular- talar, metatarsal-navicular, and calcaneal-talar levels. Understanding the specific joint motions that occur with various positions of the foot and ankle is important because measurements of joint mobility may assist in establishing diagnoses, monitoring clinical conditions, determining indications for operative treatment, as sessing results of treatment, and following the progress of rehabilitation.

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