Out of Lab Longitudinal Gait Assessment of Participants Pre and Post Anterior Cruciate Ligament Reconstruction Surgery: An Observational Longitudinal Study
To evaluate the longitudinal changes in knee sagittal kinematics pre- and post-anterior cruciate ligament reconstruction (ACLR) during varying walking speeds in non-laboratory environments. A secondary objective describing the hip and ankle joint kinematics. Longitudinal observational study. Hospital. Forty ACLR patients and 17 healthy matched controls were recruited. Knee joint sagittal kinematics measured using seven inertial measurement units at pre-surgery, three-, and five-months post-surgery while walking at slow, normal, and fast speeds. At pre-surgery, compared to the contralateral limb, the injured knee exhibited greater minimum flexion during normal and fast walking (p≤.008) and exhibited less knee flexion at the first peak (p=.006). SPM revealed significant differences throughout the gait cycle at all speeds (p≤.033). Compared to controls, the injured knee had greater minimum flexion during normal and slow walking (p≤.025). At three months, compared to the contralateral limb, the injured knee showed increased minimum flexion across all speeds (p≤.005) and exhibited less knee flexion at the first peak during fast walking (p<.001). SPM indicated significant differences throughout the gait cycle at all speeds (p≤.028). Compared to controls, the injured knee remained more flexed at the minimum angle across all speeds (p<.001) and exhibited less knee flexion at the first peak during slow walking (p=.031). At five months, differences between limbs were reduced, with significant differences in minimum flexion at all speeds (p≤.027). SPM differences were limited to specific gait cycle portions during normal and fast walking (p≤.011). Compared to controls, the injured knee remained more flexed at the minimum angle during slow and normal walking (p≤.005). Lastly, hip adaptations resolved while ankle asymmetries persisted during terminal stance. ACLR patients demonstrated progressive improvements in knee sagittal kinematics, indicating a recovery trend. However, the recovery was non-linear across different walking speeds.Abstract
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Contributor Notes
Tomer Yona, tomeryona@campus.technion.ac.il
Bezalel Peskin, b_peskin@rambam.health.gov.il
Declarations of interest: None