Robotic Pedaling Therapy for Targeted Neural Plasticity

Summary

The aim of this Pilot study is to determine whether robotically targeted lower-limb pedaling therapy can increase the extent of stroke recovery on behavioral measures and induce brain plasticity as measured by functional magnetic resonance imaging (fMRI). Forty (40) adult stroke patients and 80 healthy controls will be enrolled in this study. Of the 40 patients, half will be randomly assigned to the robotically-targeted training ("robotic") group and will receive training on the targeted training task. The other half of the patients will perform a duration-matched aerobic pedaling exercise ("control" group). All stroke patients will be scanned before and after their training program while performing or imagining simple motor tasks. Behavioral assessments of motor and cognitive capacities will be collected at each timepoint. Healthy control subjects enrolled for device testing (20) will receive up to 5 training sessions in a modified robotic paradigm and 1 fMRI scan, in order to investigate motor learning and brain activity in a novel motor control task. Additional healthy pilot subjects (up to 60) will test training protocols and assessments during preparatory design phases of the project.

Conditions

• Stroke

Interventions

DEVICE

Robotic therapy

The "Robotic" group will use a robotic training protocol to incentivize recovery of motor control by changing task demands throughout the training period. One or more target tasks will be chosen to mimic different sub-functions of gait, including some which are not normally excited in typical cycling behavior. Also, tasks may be designed to target non-gait motions such as hip ab/adduction. The required task may be changed periodically. This therapy protocol will occupy 30 minutes of each training session. Prior to testing, EMG electrodes will be placed on the major muscles of both legs, a procedure that takes roughly 15 minutes. Another 15 minutes is for changing clothes, briefing the subject, and other ancillary study activities. The total time per training session is 1 hour.

DEVICE

Aerobic therapy

The Control group protocol is identical to that of the Robotic group, except the robotically-incentivized exercise is replaced with an aerobic exercise. This intervention emulates a commercial motorized exercise bike to improve cardiovascular unfitness contributions to gait impairment. This therapy implements assist-as-needed and constant-velocity control. The patient's target pedaling speed (e.g. 20 rev/min (to be finalized through pilot tests) and power level (set by heart rate to require approximately 50-70% of maximal oxygen uptake) are set at the beginning of each session and a motor provides assistance or resistance to compensate for the performance of the patient. The exercise will be performed in this mode for 30 minutes per training session.

Sponsors & Collaborators

• National Center for Advancing Translational Sciences (NCATS)

  collaborator NIH

• University of Wisconsin, Madison

  lead OTHER

Principal Investigators

• Peter G Adamczyk, Ph.D. · University of Wisconsin, Madison

Study Design

Allocation

RANDOMIZED

Purpose

OTHER

Masking

NONE

Model

PARALLEL

Eligibility

Min Age

18 Years

Max Age

85 Years

Sex

ALL

Healthy Volunteers

Yes

Timeline & Regulatory

Start

2019-06-01

Primary Completion

2022-06-29

Completion

2022-06-29

Countries

• United States

Study Locations