Comparison of the inertial properties and forces required to initiate movement for three gait trainers |
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| Authors: | Ginny Paleg Morris Huang Stephanie C. Vasquez Gabela Stephen Sprigle Roslyn Livingstone |
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| Affiliation: | 1. Montgomery County Infants and Toddlers Program, Rockville, Maryland, USA;2. Rehabilitation Engineering &3. Applied Research Laboratory, Georgia Institute of Technology, Atlanta, Georgia, USA;4. Sunny Hill Health Centre for Children, Vancouver, BC, Canada |
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| Abstract: | The purpose of this study was to evaluate the inertial properties and forces required to initiate movement on two different surfaces in a sample of three commonly prescribed gait trainers. Tests were conducted in a laboratory setting to compare the Prime Engineering KidWalk, Rifton Pacer, and Snug Seat Mustang with and without a weighted anthropometric test dummy configured to the weight and proportions of a 4-year-old child. The Pacer was the lightest and the KidWalk the heaviest while footprints of the three gait trainers were similar. Weight was borne fairly evenly on the four casters of the Pacer and Mustang while 85% of the weight was borne on the large wheels of the mid-wheel drive KidWalk. These differences in frame style, wheel, and caster style and overall mass impact inertial properties and forces required to initiate movement. Test results suggest that initiation forces on tile were equivalent for the Pacer and KidWalk while the Mustang had the highest initiation force. Initiation forces on carpet were lowest for the KidWalk and highest for the Mustang. This initial study of inertia and movement initiation forces may provide added information for clinicians to consider when selecting a gait trainer for their clients. |
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| Keywords: | assistive devices children with physical disabilities mobility neuromotor disorder physical disability |
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