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Activity-Based Therapies For Repair Of The Corticospinal System Injured During Development, Kathleen M. Friel, Preston T. J. A. Williams, Najet Serradj, Samit Chakrabarty, John H. Martin
Activity-Based Therapies For Repair Of The Corticospinal System Injured During Development, Kathleen M. Friel, Preston T. J. A. Williams, Najet Serradj, Samit Chakrabarty, John H. Martin
Publications and Research
This review presents the mechanistic underpinnings of corticospinal tract (CST) development, derived from animal models, and applies what has been learned to inform neural activity-based strategies for CST repair.We first discuss that, in normal development, early bilateral CST projections are later refined into a dense crossed CST projection, with maintenance of sparse ipsilateral projections. Using a novel mouse genetic model, we show that promoting the ipsilateral CST projection produces mirror movements, common in hemiplegic cerebral palsy (CP), suggesting that ipsilateral CST projections become maladaptive when they become abnormally dense and strong.We next discuss howanimal studies support a developmental “competition rule” …
Motor Cortex Electrical Stimulation Augments Sprouting Of The Corticospinal Tract And Promotes Recovery Of Motor Function, Jason B. Carmel, John H. Martin
Motor Cortex Electrical Stimulation Augments Sprouting Of The Corticospinal Tract And Promotes Recovery Of Motor Function, Jason B. Carmel, John H. Martin
Publications and Research
The corticospinal system—with its direct spinal pathway, the corticospinal tract (CST) – is the primary system for controlling voluntary movement. Our approach to CST repair after injury in mature animals was informed by our finding that activity drives establishment of connections with spinal cord circuits during postnatal development. After incomplete injury in maturity, spared CST circuits sprout, and partially restore lost function. Our approach harnesses activity to augment this injury-dependent CST sprouting and to promote function. Lesion of the medullary pyramid unilaterally eliminates all CST axons from one hemisphere and allows examination of CST sprouting from the unaffected hemisphere. We …