Affiliations: [a] Federal Research and Clinical Centre of Russia’s Federal Medical-Biological Agency (FNKC FMBA), Moscow, Russia | [b] Pirogov Russian National Research Medical University (RNRMU), Moscow, Russia | [c] Department of Traumatology and Orthopedics, Academy of Postgraduate Education, Federal Research and Clinical Centre of Russia’s Federal Medical-Biological Agency (FNKC FMBA), Moscow, Russia
Correspondence:
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Corresponding author: Dmitry Skvortsov, Pirogov Russian National Research Medical University (RNRMU), Moscow 117997, Russia. E-mail: skvortsov.biom@gmail.com.
Abstract: BACKGROUND: This study on gait biomechanics is based on a functional test (FT) performed at free and fast walking speeds. OBJECTIVE: We investigated the pattern of changes in gait biomechanical parameters and the knee function in patients after anterior cruciate ligament (ACL) injury or its reconstruction. METHODS: The study included 51 patients (33 males, 18 females) with a confirmed recent or old history of ACL tear, before or after reconstruction (26 patients). Mocap data was obtained using an inertial system. All patients were divided into three groups: 41 patients with physiological response (compensation), 6 patients with signs of decompensation, and 4 non-assessable patients. RESULTS: Increase in gait speed was associated with decrease in the walking cycle duration, stance and double support phases. In the compensation group, the physiological response of the knee was manifested in increased amplitudes. In the decompensation group, the amplitudes remained unchanged or decreased. In the compensation group, there were increases in the symmetrical muscle activity. The decompensation group was characterized by electromyography asymmetry. CONCLUSION: The observed universal physiological mechanism limiting the load on the damaged joint can be used for accurate assessment of the knee functional state in various periods of rehabilitation.
