Subthreshold electrical noise alters walking balance control in individuals with cerebral palsy

• Published in: Gait & posture Vol. 106; pp. 47 - 52
• Main Authors: Sansare, Ashwini, Reimann, Hendrik, Crenshaw, Jeremy, Arcodia, Maelyn, Verma, Khushboo, Lee, Samuel C.K.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.09.2023
• Subjects: Fall risk; Gait; Locomotion; Postural control; Stochastic resonance; Locomotion; Fall risk; Stochastic resonance; Gait; Postural control
• ISSN: 0966-6362; 1879-2219; 1879-2219
• DOI: 10.1016/j.gaitpost.2023.08.008

Sensory deficits in individuals with cerebral palsy (CP) play a critical role in balance control. However, there is a lack of effective interventions that address sensory facilitation to improve walking balance. Stochastic Resonance (SR) stimulation involves delivering sub threshold noise to improve balance in patients with sensory deficits by enhancing the detection of sensory input. To investigate the immediate effects of SR on walking balance in individuals with and without CP. Thirty-four participants (17 CP, 17 age-and sex-matched typically developing controls or TD) between 8 and 24 years of age were recruited. SR stimulation was applied to the muscles and ligaments of ankle and hip joint. An optimal SR intensity during walking was determined for each subject. Participants walked on a self-paced treadmill for three trials of two minutes each using a random order of SR stimulation (SR) and no stimulation (noSR) control conditions. Our primary outcome measure was minimum lateral margin of stability (MOS). Secondary outcome measures include anterior MOS before heelstrike and spatiotemporal gait parameters. We performed two-way mixed ANOVAs with group (CP, TD) as between-subject and condition (noSR, SR) as within subject factors. Compared to walking without SR, there was a small but significant increase in the lateral and anterior MOS with SR stimulation, implying that a larger impulse was needed to become unstable, in turn implying higher stability. Step width and step ength decreased with SR for the CP group with SR stimulation. There were no significant effects for other spatiotemporal variables. Sub threshold electrical noise can slightly improve walking balance control in individuals with CP. SR stimulation, through enhanced proprioception, may have improved the CP group’s awareness of body motion during walking, thus leading them to adopt a more conservative stability strategy to prevent a potential fall. •We applied subthreshold electrical noise to lower limbs of individuals with and without cerebral palsy.•We tested the effects of noise on walking balance control by using margin of stability.•Individuals with cerebral palsy had small but significant increase in lateral and anterior margin of stability.•Individuals with CP employed a conservative stability strategy after noise application.