Literature DB >> 20722719

A paradox: after stroke, the non-lesioned lower limb motor cortex may be maladaptive.

Sangeetha Madhavan1, Lynn M Rogers, James W Stinear.   

Abstract

What are the neuroplastic mechanisms that allow some stroke patients to regain high-quality control of their paretic leg, when others do not? One theory implicates ipsilateral corticospinal pathways projecting from the non-lesioned hemisphere. We devised a new transcranial magnetic stimulation protocol to identify ipsilateral corticospinal tract conductivity from the non-lesioned hemisphere to the paretic limb in chronic stroke patients. We also assessed corticospinal tract degeneration by diffusion tensor imaging, and used an ankle tracking task to assess lower limb motor control. We found greater tracking error during antiphase bilateral ankle movement for patients with strong conductivity from the non-lesioned hemisphere to the paretic ankle than for those with weak or no conductivity. These findings suggest that, instead of assisting motor control, contributions to lower limb motor control from the non-lesioned hemisphere of some stroke survivors may be maladaptive.
© 2010 The Authors. European Journal of Neuroscience © 2010 Federation of European Neuroscience Societies and Blackwell Publishing Ltd.

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Mesh:

Year:  2010        PMID: 20722719      PMCID: PMC2943014          DOI: 10.1111/j.1460-9568.2010.07364.x

Source DB:  PubMed          Journal:  Eur J Neurosci        ISSN: 0953-816X            Impact factor:   3.386


  25 in total

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2.  Phase transitions and postural deviations during bimanual kinesthetic tracking.

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3.  Organization of ipsilateral excitatory and inhibitory pathways in the human motor cortex.

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4.  fMRI analysis of ankle movement tracking training in subject with stroke.

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7.  Long-term changes in motor cortical organisation after recovery from subcortical stroke.

Authors:  M L Byrnes; G W Thickbroom; B A Phillips; F L Mastaglia
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8.  Focal and bi-directional modulation of lower limb motor cortex using anodal transcranial direct current stimulation.

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10.  Diffusion tensor imaging can detect and quantify corticospinal tract degeneration after stroke.

Authors:  D J Werring; A T Toosy; C A Clark; G J Parker; G J Barker; D H Miller; A J Thompson
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  40 in total

1.  Non-invasive brain stimulation enhances fine motor control of the hemiparetic ankle: implications for rehabilitation.

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Review 2.  Motor Cortex and Motor Cortical Interhemispheric Communication in Walking After Stroke: The Roles of Transcranial Magnetic Stimulation and Animal Models in Our Current and Future Understanding.

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3.  Timing-dependent priming effects of tDCS on ankle motor skill learning.

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4.  Recumbent stepping aerobic exercise in amyotrophic lateral sclerosis: a pilot study.

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5.  Characterizing differential poststroke corticomotor drive to the dorsi- and plantarflexor muscles during resting and volitional muscle activation.

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6.  Corpus callosum and experimental stroke: studies in callosotomized rats and acallosal mice.

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7.  Downregulating Aberrant Motor Evoked Potential Synergies of the Lower Extremity Post Stroke During TMS of the Contralesional Hemisphere.

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8.  Ipsilateral Motor Pathways and Transcallosal Inhibition During Lower Limb Movement After Stroke.

Authors:  Brice T Cleland; Sangeetha Madhavan
Journal:  Neurorehabil Neural Repair       Date:  2021-03-11       Impact factor: 3.919

9.  Atypical cortical drive during activation of the paretic and nonparetic tibialis anterior is related to gait deficits in chronic stroke.

Authors:  Jacqueline A Palmer; Alan R Needle; Ryan T Pohlig; Stuart A Binder-Macleod
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Review 10.  The use of transcranial magnetic stimulation to evaluate cortical excitability of lower limb musculature: Challenges and opportunities.

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