RecruitingNot ApplicableNCT05899153

Gait Adaptation and Biofeedback for Cerebral Palsy

Quantifying Patient-specific Changes in Neuromuscular Control in Cerebral Palsy: Adaptation and Biofeedback During Gait

Sponsor

University of Washington

Enrollment

36 participants

Start Date

Nov 28, 2023

Study Type

INTERVENTIONAL

Conditions

Cerebral Palsy

Summary

This research aims to evaluate walking function in children with cerebral palsy (CP). The researchers want to understand how children with CP adapt and learn new ways of moving. They have previously found that measuring how a person controls their muscles is important for assessing walking ability and response to interventions. In these studies, they will adjust the treadmill belt speeds and/or provide real-time feedback to evaluate how a child can alter their movement. The feedback will include a wearable exoskeleton that provides resistance to the ankle and audio and visual cues based on sensors that record muscle activity. This research will investigate three goals: first, to measure how children with CP adapt their walking; second, to see if either repeated training or orthopedic surgery can improve adaptation rates; and third, to determine if individual differences in adaptation relate to improvements in walking function after treatment. This research will help develop better treatments to enhance walking capacity and performance for children with CP.

Eligibility

Min Age: 7 YearsMax Age: 18 Years

Plain Language Summary

Simplified for easier understanding

This clinical trial is studying a medical device called Audiovisual Biofeedback, a medical device called Biomotum Spark: Robotic ankle resistance, and others for people with cerebral palsy. The study is currently recruiting participants at 1 location. People eligible for this study include aged 7 Years to 18 Years.

This summary was AI-generated to explain the trial in plain language. It is not medical advice. Always discuss eligibility with your doctor before enrolling in a clinical trial.

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Interventions

DEVICEBiomotum Spark: Robotic ankle resistance

Robotic ankle exoskeleton that provides resistance to ankle plantarflexion.

DEVICEAudiovisual Biofeedback

Electromyography recordings from the plantarflexor muscles are used to provide audio feedback via a sound that plays when muscle activity is above target and a visual bar that displays real-time muscle activity.

PROCEDUREMultilevel Orthopedic Surgery

Musculoskeletal surgeries to address alignment, contracture, and other lower-extremity impairments. This study does not impact surgical decision making but evaluates changes in gait before and after surgery.

Locations(1)

Gillette Children's

Saint Paul, Minnesota, United States

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