Jeanne Langan scite author profile

Older adults show less lateralized task-related brain activity than young adults. One potential mechanism of this increased activation is that age-related degeneration of the corpus callosum (CC) may alter the balance of inhibition between the two hemispheres. To determine whether age differences in interhemispheric connectivity affect functional brain activity in older adults, we used magnetic resonance imaging (MRI) to assess resting functional connectivity and functional activation during a simple motor task. We found that older adults had smaller CC area compared to young adults. Older adults exhibited greater recruitment of ipsilateral primary motor cortex (M1), which was associated with longer reaction times. Additionally, recruitment of ipsilateral M1 in older adults was correlated with reduced resting interhemispheric connectivity and a larger CC. We suggest that reduced interhemispheric connectivity reflects a loss of the ability to inhibit the non-dominant hemisphere during motor task performance for older adults, which has a negative impact on performance.

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Tracking the recovery of visuospatial attention deficits in mild traumatic brain injury

Halterman

et al. 2005

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The goal of the current investigation was to probe the deficits in the alerting, orienting and executive components of visuospatial attention in individuals who have recently suffered a mild traumatic brain injury (mTBI) and to assess the rate and degree of recovery for each of these components over a month post-injury. A group design was employed to assess and compare the performance of participants (12 males, 8 females; mean age: 21 +/- 1.74 years) identified with mTBI relative to control subjects matched for gender, age, height, weight and activity level. Participants performed the attentional network test, designed to isolate the constituents of attention into alerting, orienting and executive components. Reaction times (RTs) and response accuracy were the main dependent variables. The results showed that the orienting and executive components were significantly affected by mTBI immediately after the injury, whereas the alerting component was not. Furthermore, participants with mTBI recovered from the deficits in the orienting component of attention within a week of their injury, whereas the deficits in the executive component remained throughout the month post-injury. In addition, the RT cost to generate accurate compared with inaccurate responses was significantly larger in participants with mTBI than in controls, and this difference was maintained throughout the 1 month testing period. These findings indicate that the regions of the brain associated with the orienting and executive components of visuospatial attention may be most susceptible to neural damage resulting from mTBI. Moreover, the lack of recovery in the executive component indicates that the degree and time course for recovery may be regionally specific.

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An intensive massed practice approach to retraining balance post-stroke

Vearrier¹,

Langan²,

Shumway-Cook³

et al. 2005

Gait & Posture

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Home-based telerehabilitation shows improved upper limb function in adults with chronic stroke: A pilot study

et al. 2013

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Objective This pilot study investigates the use of telerehabilitation to improve upper limb performance in chronic stages of stroke recovery. Design Intervention study with pre/post/one month follow-up tests. Methods Seven adults with chronic stroke participated in the study. Tests consisted of lab-based clinical and kinematic assessments. Participants completed the Upper Limb Training and Assessment (ULTrA) program at home. Training was 5 days/week, 60 min/day for 6 weeks with intermittent supervision of participants. Results Participants showed improvements in the training program tasks as well as clinical and kinematic assessments. Results also suggest there may be auxiliary benefits in cognitive function. Conclusions A home-based telerehabilitation program is a viable approach to provide rehabilitation in chronic stages of stroke.

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The Influence of Hand Dominance on the Response to a Constraint-Induced Therapy Program Following Stroke

Langan

Donkelaar

2008

Neurorehabil Neural Repair

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Jeanne Langan

Functional implications of age differences in motor system connectivity

Tracking the recovery of visuospatial attention deficits in mild traumatic brain injury

An intensive massed practice approach to retraining balance post-stroke

Home-based telerehabilitation shows improved upper limb function in adults with chronic stroke: A pilot study

The Influence of Hand Dominance on the Response to a Constraint-Induced Therapy Program Following Stroke

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