Although motor deficits affect patients with Alzheimer's disease (AD) only at later stages, recent studies demonstrated that primary motor cortex is precociously affected by neuronal degeneration. It is conceivable that neuronal loss is compensated by reorganization of the neural circuitries, thereby maintaining motor performances in daily living. Effectively several transcranial magnetic stimulation (TMS) studies have demonstrated that cortical excitability is enhanced in AD and primary motor cortex presents functional reorganization. Although the best hypothesis for the pathogenesis of AD remains the degeneration of cholinergic neurons in specific regions of the basal forebrain, the application of specific TMS protocols pointed out a role of other neurotransmitters. The present paper provides a perspective of the TMS techniques used to study neurophysiological aspects of AD showing also that, based on different patterns of cortical excitability, TMS may be useful in discriminating between physiological and pathological brain aging at least at the group level. Moreover repetitive TMS might become useful in the rehabilitation of AD patients. Finally integrated approaches utilizing TMS together with others neuro-physiological techniques, such as high-density EEG, and structural and functional imaging as well as biological markers are proposed as promising tool for large-scale, low-cost, and noninvasive evaluation of at-risk populations. Copyright © 2011 Andrea Guerra et al.

Transcranial magnetic stimulation studies in Alzheimer's disease / Guerra, Andrea; Assenza, Federica; Bressi, Federica; Scrascia, Federica; Del Duca, Marco; Ursini, Francesca; Vollaro, Stefano; Trotta, Laura; Tombini, Mario; Chisari, Carmelo; Ferreri, Florinda. - In: INTERNATIONAL JOURNAL OF ALZHEIMER'S DISEASE. - ISSN 2090-0252. - 2011:(2011), p. 263817. [10.4061/2011/263817]

Transcranial magnetic stimulation studies in Alzheimer's disease

GUERRA, Andrea;
2011

Abstract

Although motor deficits affect patients with Alzheimer's disease (AD) only at later stages, recent studies demonstrated that primary motor cortex is precociously affected by neuronal degeneration. It is conceivable that neuronal loss is compensated by reorganization of the neural circuitries, thereby maintaining motor performances in daily living. Effectively several transcranial magnetic stimulation (TMS) studies have demonstrated that cortical excitability is enhanced in AD and primary motor cortex presents functional reorganization. Although the best hypothesis for the pathogenesis of AD remains the degeneration of cholinergic neurons in specific regions of the basal forebrain, the application of specific TMS protocols pointed out a role of other neurotransmitters. The present paper provides a perspective of the TMS techniques used to study neurophysiological aspects of AD showing also that, based on different patterns of cortical excitability, TMS may be useful in discriminating between physiological and pathological brain aging at least at the group level. Moreover repetitive TMS might become useful in the rehabilitation of AD patients. Finally integrated approaches utilizing TMS together with others neuro-physiological techniques, such as high-density EEG, and structural and functional imaging as well as biological markers are proposed as promising tool for large-scale, low-cost, and noninvasive evaluation of at-risk populations. Copyright © 2011 Andrea Guerra et al.
2011
Aging; Neurology; Neurology (clinical); Cognitive Neuroscience; Cellular and Molecular Neuroscience; Behavioral Neuroscience
01 Pubblicazione su rivista::01a Articolo in rivista
Transcranial magnetic stimulation studies in Alzheimer's disease / Guerra, Andrea; Assenza, Federica; Bressi, Federica; Scrascia, Federica; Del Duca, Marco; Ursini, Francesca; Vollaro, Stefano; Trotta, Laura; Tombini, Mario; Chisari, Carmelo; Ferreri, Florinda. - In: INTERNATIONAL JOURNAL OF ALZHEIMER'S DISEASE. - ISSN 2090-0252. - 2011:(2011), p. 263817. [10.4061/2011/263817]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/969271
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