Michelle Harris-Love scite author profile

Transcranial magnetic stimulation (TMS) was initially used to evaluate the integrity of the corticospinal tract in humans non-invasively. Since these early studies, the development of paired-pulse and repetitive TMS protocols allowed investigators to explore inhibitory and excitatory interactions of various motor and non-motor cortical regions within and across cerebral hemispheres. These applications have provided insight into the intracortical physiological processes underlying the functional role of different brain regions in various cognitive processes, motor control in health and disease and neuroplastic changes during recovery of function after brain lesions. Used in combination with neuroimaging tools, TMS provides valuable information on functional connectivity between different brain regions, and on the relationship between physiological processes and the anatomical configuration of specific brain areas and connected pathways. More recently, there has been increasing interest in the extent to which these physiological processes are modulated depending on the behavioural setting. The purpose of this paper is (a) to present an up-to-date review of the available electrophysiological data and the impact on our understanding of human motor behaviour and (b) to discuss some of the gaps in our present knowledge as well as future directions of research in a format accessible to new students and/or investigators. Finally, areas of uncertainty and limitations in the interpretation of TMS studies are discussed in some detail.

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Somatosensory Stimulation Enhances the Effects of Training Functional Hand Tasks in Patients With Chronic Stroke

Celnik

Hummel

Harris-Love

et al. 2007

Archives of Physical Medicine and Rehabilitation

204

216

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Intermanual Differences in Movement-related Interhemispheric Inhibition

et al. 2007

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Abstract& Interhemispheric inhibition (IHI) between motor cortical areas is thought to play a critical role in motor control and could influence manual dexterity. The purpose of this study was to investigate IHI preceding movements of the dominant and nondominant hands of healthy volunteers. Movement-related IHI was studied by means of a double-pulse transcranial magnetic stimulation protocol in right-handed individuals in a simple reaction time paradigm. IHI targeting the motor cortex contralateral (IHI c ) and ipsilateral (IHI i ) to each moving finger was determined. IHI c was comparable after the go signal, a long time preceding movement onset, in both hands. Closer to movement onset, IHI c reversed into facilitation for the right dominant hand but remained inhibitory for left nondominant hand movements.

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Hemiparetic Gait Parameters in Overground Versus Treadmill Walking

Harris-Love¹,

Forrester²,

Macko³

et al. 2001

Neurorehabil Neural Repair

136

113

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