Upon further analysis of bilateral WN it was found that the individuals with hemiplegia exhibited much stronger topological connections compared to healthy adults characterized by increased C and decr

After conducting further analysis of bilateral WN, it was discovered that individuals with hemiplegia exhibited stronger topological connections than healthy adults. This was characterized by increased C and decreased L, suggesting abnormal similarity and synchronization of muscle activation during quiet standing. This finding is consistent with previous research indicating that post-stroke patients with lower motor function exhibit greater coordination in muscle activation. Following a stroke, the parts of the brain that control movement may become damaged, leading to interrupted descending motor paths and common motoneuronal drive. However, through neuroplasticity, the brain can transfer the function previously controlled by the injured area to other, undamaged regions. This results in joint response and movement, leading to increased similarity and synchronization among bilateral muscles in hemiplegic survivors. However, this pathological control can limit motor diversity and lower motor complexity, ultimately leading to maladaptive movement patterns