Remote ischemic conditioning (RIC) is a clinically feasible, non-invasive intervention that involves brief, sublethal periods of ischemia followed by reperfusion and has been shown to improve motor performance, strength, and balance when combined with training in healthy adults and individuals with neurological conditions. Evidence from animal and human studies suggests that RIC exerts neuroprotective effects through multifactorial mechanisms involving neural, metabolic, vascular, and humoral pathways, with emerging data indicating the involvement of peripheral and spinal pathways. Neuroplasticity in response to training is known to occur not only at the cortical level but also within spinal neural circuits, where altered spinal reflex excitability is associated with spasticity, balance impairments, and poor functional outcomes in children with cerebral palsy (CP). While balance and locomotor training have been shown to reduce spinal reflex excitability in this population, the effects of RIC on spinal reflex modulation remain largely unexplored. The specific aims of this study are to determine whether 1) RIC combined with balance training modulates spinal reflex excitability, as reflected by H-reflex measures, and 2) to examine whether RIC combined with balance training leads to greater improvements in balance performance compared to sham conditioning combined with training in children with CP.
In this study, 16 children with cerebral palsy (ages 8-17 years) will be recruited. They will be randomly allocated into two groups: (A) RIC and (B) Sham. The study will consist of five consecutive visits. During Visit 1, participants will undergo baseline testing of the soleus H-reflex using a DS8R stimulator. After baseline testing, they will complete the first training session, which will include one session of conditioning combined with balance training (15 trials per session) on a stability trainer (Lafayette, IN). Visits 2 to 5 will each consist of one session of conditioning and balance training (second to fifth training sessions). During Visit 5, following the training session, post-testing of the H-reflex will be conducted. The average of the first five trials of balance training on Visit 1 will be used as the pre-test balance performance, and the average of the last five trials of balance training on Visit 5 will be used as the post-test balance performance. Conditioning will be administered to the more affected lower extremity (thigh), and a pulse oximeter will be placed on the toe for monitoring.
It is hypothesized that, compared to sham conditioning, remote ischemic conditioning combined with balance training will result in greater reductions in H-reflex excitability and greater improvements in balance performance in children with cerebral palsy. This study will help clarify whether RIC induces spinal reflex modulations when paired with balance training, reflecting spinal-level neuroplasticity in children with CP. These findings may advance understanding of the spinal mechanisms underlying the therapeutic benefits of RIC and support its translation as an adjunct intervention in pediatric neurorehabilitation.
