Cognitive effect of passively induced kinesthetic perception associated with virtual body augmentation modulates spinal reflex.

The virtual movement of an augmented body, perceived as part of oneself, forms the basis of kinesthetic perception induced by visual stimulation (KINVIS). KINVIS is a visually induced virtual kinesthetic perception that clinically suppresses spasticity. The present study hypothesized that central neural network activity during KINVIS affects subcortical neural circuits. The present study aimed to elucidate whether reciprocal and presynaptic inhibition occurs during KINVIS. Seventeen healthy participants were recruited (mean age: 27.9 ± 3.6 yr), and their soleus Hoffmann-reflexes (H-reflexes) were recorded by peripheral nerve stimulation while perceiving the dorsiflexion kinesthetic illusion in the right-side foot (seated in a comfortable chair). Two control conditions were set to observe the same foot video without the kinesthetic illusion while focusing on the static foot image. Unconditioned H-reflex and two types of conditioned H-reflexes were measured: Ia (reciprocal inhibition) and D1 (presynaptic inhibition). Reciprocal Ia and D1 inhibition of the soleus muscle was significantly enhanced during the kinesthetic illusion compared with the condition without kinesthetic illusion (a post hoc analysis using the Bonferroni test: Ia inhibition, = 0.002; D1 inhibition, = 0.049). This study indicates that kinesthetic illusion elicits an inhibitory effect on the monosynaptic reflex loop of Ia afferents, potentially inhibiting the hyperexcitability of the stretch reflex. These findings demonstrate that brain activity associated with visually induced kinesthetic illusions acts on spinal inhibition circuits. These insights may be valuable in clinical rehabilitation practice, specifically for the treatment of spasticity. Neural effects in visual-induced kinesthetic illusion expand into the spinal reflex. Kinesthetic illusion inhibits the monosynaptic reflex in an antagonistic muscle via reciprocal and presynaptic inhibition. Visually induced kinesthetic illusion is a suitable treatment for spasticity in patients with stroke.