Requirement of a complex motor task to identify neuroplastic changes in motor control of the lower extremity in patients with anterior cruciate ligament reconstruction: a fNIRS study
Ke Liu, Qin Zhu, Weidong Xu

TL;DR
This study used brain imaging to show that patients recovering from ACL surgery have altered brain activity during complex leg movements, suggesting challenges in adapting to difficult tasks.
Contribution
The study introduces a novel approach using complex motor tasks and fNIRS to detect neuroplastic changes in ACLR patients.
Findings
ACLR patients showed reduced activation in the somatosensory cortex during affected limb tasks.
Brain activation increased with task difficulty, but ACLR patients adapted less well than healthy controls.
Compensatory brain activity was observed during contralateral limb tasks in ACLR patients.
Abstract
Neuromuscular control is a crucial component in restoring dynamic joint stability following anterior cruciate ligament reconstruction (ACLR). The central nervous system, as the primary control center, is known to exhibit neuroplastic changes. However, motor tasks used to assess brain function in ACLR are often limited to simple and static movements. The current study aimed to compare brain activation between patients with ACLR (ACLR group) and healthy controls (CONT group) during both simple and complex motor tasks and to examine the relationship between brain activity and clinical functions to explore the underlying mechanisms of neuroplasticity. A total of 35 patients with ACLR and 25 healthy controls participated in this study. Functional near-infrared spectroscopy was used to capture real-time brain activation during knee flexion-extension (K-FE) and single-leg squat (SLS) tasks.…
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Taxonomy
TopicsKnee injuries and reconstruction techniques · Muscle activation and electromyography studies · Shoulder Injury and Treatment
