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Robotic resistance treadmill training improves locomotor function in human spinal cord injury: a pilot study. Arch Phys Med Rehabil 2012 May;93(5):782-9

Date

03/31/2012

Pubmed ID

22459697

DOI

10.1016/j.apmr.2011.12.018

Abstract

OBJECTIVE: To determine whether cable-driven robotic resistance treadmill training can improve locomotor function in humans with incomplete spinal cord injury (SCI).

DESIGN: Repeated assessment of the same patients with crossover design.

SETTING: Research units of rehabilitation hospitals in Chicago.

PARTICIPANTS: Patients with chronic incomplete SCI (N=10) were recruited to participate in this study.

INTERVENTIONS: Subjects were randomly assigned to 1 of 2 groups. One group received 4 weeks of assistance training followed by 4 weeks of resistance training, while the other group received 4 weeks of resistance training followed by 4 weeks of assistance training. Locomotor training was provided by using a cable-driven robotic locomotor training system, which is highly backdrivable and compliant, allowing patients the freedom to voluntarily move their legs in a natural gait pattern during body weight supported treadmill training (BWSTT), while providing controlled assistance/resistance forces to the leg during the swing phase of gait.

MAIN OUTCOME MEASURES: Primary outcome measures were evaluated for each participant before training and after 4 and 8 weeks of training. Primary measures were self-selected and fast overground walking velocity and 6-minute walking distance. Secondary measures included clinical assessments of balance, muscle tone, and strength.

RESULTS: A significant improvement in walking speed and balance in humans with SCI was observed after robotic treadmill training using the cable-driven robotic locomotor trainer. There was no significant difference in walking functional gains after resistance versus assistance training, although resistance training was more effective for higher functioning patients.

CONCLUSIONS: Cable-driven robotic resistance training may be used as an adjunct to BWSTT for improving overground walking function in humans with incomplete SCI, particularly for those patients with relatively high function.

Author List

Wu M, Landry JM, Schmit BD, Hornby TG, Yen SC

Author

Brian Schmit PhD Professor in the Biomedical Engineering department at Marquette University




MESH terms used to index this publication - Major topics in bold

Adult
Analysis of Variance
Exercise Test
Female
Humans
Male
Middle Aged
Muscle Strength
Muscle, Skeletal
Pilot Projects
Postural Balance
Resistance Training
Robotics
Spinal Cord Injuries
Walking