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Related Concept Videos

Cerebral Hemispheres01:05

Cerebral Hemispheres

394
The human brain, a complex organ, is functionally divided into two cerebral hemispheres—left and right. These hemispheres are interconnected by a structure of paramount importance, the corpus callosum. This substantial bundle of neural fibers is not just a bridge between the hemispheres but a crucial element for the brain's comprehensive functioning. It enables efficient communication between the two hemispheres, allowing each side of the brain to control and receive sensory and motor...
394

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Related Experiment Video

Updated: Jul 24, 2025

Author Spotlight: Using Motor Imagery Brain-Computer Interface to Improve Motor and Cognitive Function in Stroke Patients
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Interhemispheric Structural Connectivity Underlies Motor Recovery after Stroke.

Theresa Paul1,2, Valerie M Wiemer1,2, Lukas Hensel1

  • 1Medical Faculty, University of Cologne, and Department of Neurology, University Hospital Cologne, Cologne, Germany.

Annals of Neurology
|July 4, 2023
PubMed
Summary
This summary is machine-generated.

Cortico-cortical connections, not just the corticospinal tract (CST), aid motor control after stroke. Specific pathways support basal movements, offering new biomarkers for stroke recovery.

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Area of Science:

  • Neuroscience
  • Neurology
  • Rehabilitation Medicine

Background:

  • The corticospinal tract (CST) is crucial for motor recovery post-stroke, but cortico-cortical connections' role remains unclear.
  • These connections may offer a structural reserve for motor network reorganization.

Purpose of the Study:

  • To investigate if cortico-cortical connections facilitate motor control, especially when the CST is damaged.
  • To differentiate the roles of structural connectivity in basal versus complex motor control.

Main Methods:

  • Used diffusion spectrum imaging (DSI) to quantify structural connectivity in chronic stroke patients.
  • Employed a novel compartment-wise analysis for detailed connectivity assessment.
  • Assessed basal and complex motor control performance.

Main Results:

  • Both basal and complex motor performance correlated with specific cortico-cortical connections.
  • Complex motor skills depended on CST integrity.
  • Basal motor control strongly associated with M1-to-M1 connectivity, independent of CST integrity, particularly in recovered patients.

Conclusions:

  • Distinct cortico-cortical connections support different aspects of motor control after stroke.
  • Basal motor recovery may utilize alternative pathways involving the contralesional M1.
  • Cortico-cortical connectivity shows potential as a biomarker for motor recovery.