Effects of movement predictability on cortical motor activation

Dassonville, Paul; Lewis, Scott M.; Zhu, Xiaohong; Uğurbil, Kâmil; Kim, Seong Gi; Ashe, James

doi:10.1016/s0168-0102(98)00064-9

Cited by 72 publications

(56 citation statements)

References 76 publications

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“…None explained the asymmetry found in the present study. We suggest that the lateralization may be a consequence of normal left hemisphere dominance in motor function [Dassonville et al, 1998;Kawashima et al, 1993].…”

Section: Discussionmentioning

confidence: 83%

STN‐stimulation in Parkinson's disease restores striatal inhibition of thalamocortical projection

Geday

Østergaard

Johnsen

et al. 2007

Human Brain Mapping

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Section: Discussionmentioning

confidence: 83%

STN‐stimulation in Parkinson's disease restores striatal inhibition of thalamocortical projection

Geday

Østergaard

Johnsen

et al. 2007

Human Brain Mapping

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“…The posterior boundary was halfway between the extension of the central and precentral sulci onto the medial surface, and the anterior boundary was defined by the vertical line drawn from the anterior commissure. 16 Because of a large within-subject variability in the BOLD signal, a normalized index, the laterality index (LI), was used to determine any shift in the symmetry of cortical activation between the 2 hemispheres for the ROIs as a function of intervention. 13,14 This index is expressed as (CϪI)/(CϩI), where C is the active voxel count for the ROIs in the hemisphere contralateral to the leg performing the movement and I is the active voxel count for the corresponding region in the hemisphere ipsilateral to the performing leg.…”

Section: You Et Al Virtual Reality-induced Cortical Reorganizationmentioning

confidence: 99%

Virtual Reality–Induced Cortical Reorganization and Associated Locomotor Recovery in Chronic Stroke

You

Jang

Kim

et al. 2005

Stroke

354

225

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Background and Purpose-Virtual reality (VR) is a new promising computer-assisted technology to promote motor recovery in stroke patients. VR-induced neuroplasticity supporting locomotor recovery is not known. We investigated the effects of VR intervention on cortical reorganization and associated locomotor recovery in stroke patients. Methods-Ten chronic stroke patients were assigned randomly to either the control group or the VR group. VR was designed to provide interactive real-life practice environments in which practice parameters can be individualized to optimize motor relearning. Laterality index (LI) in the regions of interests (ROIs) and locomotor recovery were measured before and after VR using functional MRI (fMRI) and standardized locomotor tests, respectively. The t test and nonparametric test were performed to compare the mean differences at PϽ0.05. Results-There was a significant difference in the interval change in the LI score for the primary sensorimotor cortex (SMC) between the groups (PϽ0.05), indicating that VR practice produced a greater increase in LI for the control group. However, the interval changes in the other ROIs were not significantly different (PϾ0.05). Motor function was significantly improved after VR (PϽ0.05). Conclusions-Our novel findings suggest that VR could induce cortical reorganization from aberrant ipsilateral to contralateral SMC activation. This enhanced cortical reorganization might play an important role in recovery of locomotor function in patients with chronic stroke. This is the first fMRI study in the literature that provides evidence for neuroplasticity and associated locomotor recovery after VR.

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“…Although the control of movement is one of the clearest hemispherically lateralized functions in the brain (Dassonville et al, 1998), human functional neuroimaging studies of hand motor control commonly report bilateral activation in the primary motor cortex (Hlustik et al, 2002;Solodkin et al, 2001). We also compared BOLD-fMRI responses at two different stimulation intensities and found that highintensity motor cortex stimulation (120% rMT) was associated with significantly increased activation compared to lower intensity (100% rMT) stimulation (Bohning et al, 2000), on the placebo day only.…”

Section: Bold Response To Tms Over the Motor Cortexmentioning

confidence: 94%

Interleaved Transcranial Magnetic Stimulation/Functional MRI Confirms that Lamotrigine Inhibits Cortical Excitability in Healthy Young Men

Tenebäck

Nahas

et al. 2004

Neuropsychopharmacol

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Little is known about how lamotrigine (LTG) works within brain circuits to achieve its clinical effects. We wished to determine whether the new technique of interleaved transcranial magnetic stimulation (TMS)/functional magnetic resonance imaging (fMRI) could be used to assess the effects of LTG on activated motor or prefrontal/limbic circuits. We carried out a randomized, double-blind, crossover trial involving two visits 1 week apart with TMS measures of cortical excitability and blood oxygen level-dependent TMS/fMRI. Subjects received either a single oral dose of 325 mg of LTG or placebo on each visit. In all, 10 subjects provided a complete data set that included interleaved TMS/fMRI measures and resting motor threshold (rMT) determinations under both placebo and LTG conditions. A further two subjects provided only rMT data under the two drug conditions. LTG caused a 14.979.6% (mean7SD) increase in rMT 3 h after the drug, compared with a 0.6710.9% increase 3 h after placebo (t ¼ 3.41, df ¼ 11, po0.01). fMRI scans showed that LTG diffusely inhibited cortical activation induced by TMS applied over the motor cortex. In contrast, when TMS was applied over the prefrontal cortex, LTG increased the TMS-induced activation of limbic regions, notably the orbitofrontal cortex and hippocampus. These results suggest that LTG, at clinically relevant serum concentrations, has a general inhibitory effect on cortical neuronal excitability, but may have a more complex effect on limbic circuits. Furthermore, the interleaved TMS/fMRI technique may be a useful tool for investigating regional brain effects of psychoactive compounds.

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Effects of movement predictability on cortical motor activation

Cited by 72 publications

References 76 publications

STN‐stimulation in Parkinson's disease restores striatal inhibition of thalamocortical projection

STN‐stimulation in Parkinson's disease restores striatal inhibition of thalamocortical projection

Virtual Reality–Induced Cortical Reorganization and Associated Locomotor Recovery in Chronic Stroke

Interleaved Transcranial Magnetic Stimulation/Functional MRI Confirms that Lamotrigine Inhibits Cortical Excitability in Healthy Young Men

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