Stroke Clinical Trial
Official title:
My Scrivener® - Measuring Effectiveness and Dose Response in Children
This study will assess whether a computer haptic peripheral device programmed to provide repetitive motion training is as effective as the same repetitive motion training provided by a human being.
This study builds on a large body of neurological research that uses robot-guided repetitive
motion training to induce neuroplasticity and improvements in upper extremity motor skills
in adults and children. This research study is looking at handwriting, a fine-motor task
that is used daily.
In our study, we want to see if 3-dimensional robotic-assisted repetitive motion training
can be a safe and effective intervention for school-age children with fine motor deficits
arising from several different impairment origins. Our research construct is: Legible
handwriting = function of (tactile feedback, visual feedback, duration, and fine-motor
control).
Independent variables:
- Tactile feedback is a continuous variable of force-feedback measured in pounds of
force.
- Duration is a continuous variable measured in seconds and number of repetitions.
- Visual feedback is the letter scribed on the paper.
Dependent variable:
- Legible handwriting will be measured by scoring on the Test of Handwriting Skills and
the Print Toolâ„¢ evaluation.
- Fine motor deficit/control will be measured directly and objectively by quantifying the
error between the desired scribing task and the actual scribing task.
The robotic device is an affordable (<$200) computer haptic (the Falcon(R)) that currently
is approved by the FCC for home and office. It is *not* approved for medical use. This is an
investigational, nonsignificant risk device.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
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