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Literature DB >> 9870133

Lesion-induced plasticity as a potential mechanism for recovery and rehabilitative training.

Abstract

Brain lesions not only cause a functional deficit in the lesion area, but also affect the structurally intact brain network connected to the lesion. In brain areas surrounding the lesion, as well as those remote from it, the structural and functional plasticity of the brain is increased because of an alteration of transmitter receptor expression and membrane properties of neurones. Within the penumbra of brain ischaemia, as well as after trauma, an additional perilesional dysfunctional zone is found that contributes to the neurological deficit. The lesion-induced plasticity can be used for adaptation, which also may restore function in the perilesional zone, if adequate rehabilitative training is performed.

Entities: Disease

Mesh：

Year: 1998 PMID： 9870133 DOI： 10.1097/00019052-199812000-00008

Source DB: PubMed Journal: Curr Opin Neurol ISSN： 1350-7540 Impact factor: 5.710

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Cited

28 in total

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Review 2. Motor enrichment and the induction of plasticity before or after brain injury.

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3. Predictability of motor outcome according to the time of diffusion tensor imaging in patients with cerebral infarct.

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4. The cerebrovascular response to traditional acupuncture after stroke.

Authors: J D Lee; J S Chon; H K Jeong; H J Kim; M Yun; D Y Kim; D I Kim; C I Park; H S Yoo
Journal: Neuroradiology Date: 2003-08-27 Impact factor: 2.804

5. Recovery of an injured corticospinal tract by subcortical peri-lesional reorganization in a patient with intracerebral hemorrhage.

Authors: Sung Ho Jang; Woo Hyuk Jang
Journal: Neural Regen Res Date: 2016-07 Impact factor: 5.135

6. Corticospinal tract compression by hematoma in a patient with intracerebral hemorrhage: a diffusion tensor tractography and functional MRI study.

Authors: Sung-Ho Jang; Yong-Hyun Kwon; Mi Young Lee; Sang Ho Ahn; Joong Hwi Kim; Dong-Hoon Jeong; Byung Yeun Choi; Dong Gyu Lee
Journal: Yonsei Med J Date: 2006-02-28 Impact factor: 2.759

10. Collagen scaffolds populated with human marrow stromal cells reduce lesion volume and improve functional outcome after traumatic brain injury.

Authors: Dunyue Lu; Asim Mahmood; Changsheng Qu; Xin Hong; David Kaplan; Michael Chopp
Journal: Neurosurgery Date: 2007-09 Impact factor: 4.654