Publications (2)8.99 Total impact
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Article: Impaired grip force modulation in the ipsilesional hand after unilateral middle cerebral artery stroke.
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ABSTRACT: Understanding grasping control after stroke is important for relearning motor skills. The authors examined 10 individuals (5 males; 5 females; ages 32-86) with chronic unilateral middle cerebral artery (MCA) stroke (4 right lesions; 6 left lesions) when lifting a novel test object using skilled precision grip with their ipsilesional ("unaffected") hand compared to healthy controls (n = 14; 6 males; 8 females; ages 19-86). All subjects possessed normal range of motion, cutaneous sensation, and proprioception in the hand tested and had no apraxia or cognitive deficits. Subjects lifted the object 10 times at each object weight (260 g, 500 g, 780 g) using a moderately paced self-selected lifting speed. The normal horizontal ("grip") force and vertical tangential ("lift") force were separately measured at the thumb and index finger. Regardless of the object weight or stroke location, the stroke group generated greater grip forces at liftoff of the object (> or =39%; P < or = 0.05) and across the dynamic (P < or = 0.05) and static portions (P < or = 0.05) of the lifts compared to the healthy group. Peak lift forces were equivalent between groups, suggesting accurate load force information processing occurred. These results warrant further investigation of altered sensorimotor processing or compensatory biomechanical strategies that may lead to inaccurate grip force execution after strokes.Neurorehabilitation and neural repair 01/2006; 19(4):338-49. · 4.49 Impact Factor -
Article: Gains in distance walking in a 3-month follow-up poststroke: what changes?
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ABSTRACT: Distance walking remains compromised for many adults poststroke. The purpose of this study was to examine if the amelioration of stroke-related neuromuscular impairments, improved cardiovascular fitness, or better balance contributed to gains in distance walking. The authors gathered baseline data of 92 adults at an average of 75 days poststroke and again 3 months later. Participants performed a bicycle ergometry stress test, a 6-min walk, and a Fugl-Meyer assessment for motor control, strength, and balance testing. The gain in walk distance was modeled using multiple regression with the variables of gains in peak VO2, lower limb control, plantar flexion strength, and balance. Separate analyses were done for poor performers, that is, participants who walked less than the median distance (213 m) at baseline and good performers, that is, participants who walked more than 213 m. For poor performers, the gain in balance was the only significant predictor of the gain in distance walking and accounted for 16% of the variance. For good performers, gains in peak VO2 and the lower limb Fugl-Meyer score were significant predictors and accounted for 28% of the variance. These results suggest that rehabilitation efforts to improve distance walking should focus on different factors depending on initial distance walked.Neurorehabilitation and neural repair 04/2004; 18(1):30-6. · 4.49 Impact Factor
