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White Matter Neuroplasticity: Motor Learning Activates the Internal Capsule and Reduces Hemodynamic Response Variability

Tory O. Frizzell, Lukas A. Grajauskas, Careesa C. Liu, Sujoy Ghosh Hajra, Xiaowei Song, Ryan C.N. D’Arcy

2020Frontiers in Human Neuroscience28 citationsDOIOpen Access PDF

Abstract

investigations of white matter function. One method that has gained recent prominence is the application of blood oxygen level dependent (BOLD) fMRI to white matter, with high-field scanners now being able to better detect the smaller hemodynamic changes present in this tissue type compared to those in the gray matter. However, fMRI techniques have yet to be applied to investigations of neuroplastic change with motor learning in white matter. White matter function represents an unexplored component of neuroplasticity and is essential for gaining a complete understanding of learning-based changes occurring throughout the whole brain. Twelve healthy, right-handed participants completed fine motor and gross motor tasks with both hands, using an MRI compatible computer mouse. Using a crossover design along with a prior analysis approach to establish WM activation, participants received a baseline scan followed by 2 weeks of training, returning for a midpoint and endpoint scan. The motor tasks were designed to be selectively difficult for the left hand, leading to a training effect only in that condition. Analysis targeted the comparison and detection of training-associated right vs left hand changes. A statistically significant improvement in motor task score was only noted for the left-hand motor condition. A corresponding change in the temporal characteristics of the white matter hemodynamic response was shown within only the right corticospinal tract. The hemodynamic response exhibited a reduction in the dispersion characteristics after the training period. To our knowledge, this is the first report of MRI detectable functional neuroplasticity in white matter, suggesting that modifications in temporal characteristics of white matter hemodynamics may underlie functional neuroplasticity in this tissue.

Topics & Concepts

NeuroplasticityMotor learningHaemodynamic responseInternal capsuleNeurosciencePsychologyWhite matterMedicineInternal medicineMagnetic resonance imagingHeart rateRadiologyBlood pressureAdvanced Neuroimaging Techniques and ApplicationsFunctional Brain Connectivity StudiesNeonatal and fetal brain pathology