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Modern Developments in Transcranial Magnetic Stimulation (TMS) - Applications and Perspectives in Clinical Neuroscience

Transcranial magnetic stimulation (TMS) is being increasingly used in neuroscience and clinics. Modern advances include but are not limited to the combination of TMS with precise neuronavigation as well as the integration of TMS into a multimodal environment, e.g., by guiding the TMS application usi...

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Bibliographic Details
Main Author: Sollmann, Nico
Other Authors: Julkunen, Petro
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2022
Subjects:
Hippocampus
Aging
Eloquent Cortex
Fiber Tractography
Motor Threshold
Repetition Suppression
Brain Tumor
Icu
Neuromodulation
Medical Equipment And Techniques / Bicssc
A1r
Gray Matter
Neuroplasticity
Meg
Electric Field
Navigated Transcranial Magnetic Stimulation
N/a
Mild Cognitive Impairment
Case Report
Preoperative Mapping
Connectivity
Language Mapping
Memory
Evoked And Induced Gamma Oscillations
Object Naming
Motor Evoked Potentials
Neuronavigation
Source Reconstruction
Bilingual
Aphasia
Neurocritical Care
Primary Motor Cortex
Transcranial Magnetic Stimulation
Oddball Task
Alpha Oscillations
Itbs
Bihemispheric
Functional Connectivity
Cd73
Repetitive Transcranial Magnetic Stimulation
Reaction Time
Plasticity
Neuroinflammation
Adenosine
Chronic Pain
Intensive Care
Motor Mapping
Excitability
Rehabilitation
Eeg State-dependent Tms
Purinergic Signaling
Neuromonitoring
Fmri
Brain Networks
Eeg
Language
Picture Naming
Action Naming
Functional Mapping
Stroke
A2ar
Low Back Pain
Rtms
Non-invasive Brain Stimulation
Dorsolateral Prefrontal Cortex
Brain Stimulation
Tms
Presurgical Evaluation
Aberrant And Repetitive Behaviors
Alzheimer's Disease
Glioblastoma Multiforme
Autism Spectrum Disorder
Ntms
Theta-burst Stimulation
Paired Associative Stimulation
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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653 |a neuromodulation 
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653 |a A1R 
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653 |a MEG 
653 |a electric field 
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653 |a n/a 
653 |a mild cognitive impairment 
653 |a case report 
653 |a preoperative mapping 
653 |a connectivity 
653 |a language mapping 
653 |a memory 
653 |a evoked and induced gamma oscillations 
653 |a object naming 
653 |a motor evoked potentials 
653 |a neuronavigation 
653 |a source reconstruction 
653 |a bilingual 
653 |a aphasia 
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653 |a primary motor cortex 
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653 |a oddball task 
653 |a alpha oscillations 
653 |a iTBS 
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653 |a functional connectivity 
653 |a CD73 
653 |a repetitive transcranial magnetic stimulation 
653 |a reaction time 
653 |a plasticity 
653 |a neuroinflammation 
653 |a adenosine 
653 |a chronic pain 
653 |a intensive care 
653 |a motor mapping 
653 |a excitability 
653 |a rehabilitation 
653 |a EEG state-dependent TMS 
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653 |a neuromonitoring 
653 |a fMRI 
653 |a brain networks 
653 |a EEG 
653 |a language 
653 |a picture naming 
653 |a action naming 
653 |a functional mapping 
653 |a stroke 
653 |a A2AR 
653 |a low back pain 
653 |a rTMS 
653 |a non-invasive brain stimulation 
653 |a dorsolateral prefrontal cortex 
653 |a brain stimulation 
653 |a TMS 
653 |a presurgical evaluation 
653 |a aberrant and repetitive behaviors 
653 |a Alzheimer's disease 
653 |a glioblastoma multiforme 
653 |a Autism spectrum disorder 
653 |a nTMS 
653 |a theta-burst stimulation 
653 |a paired associative stimulation 
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520 |a Transcranial magnetic stimulation (TMS) is being increasingly used in neuroscience and clinics. Modern advances include but are not limited to the combination of TMS with precise neuronavigation as well as the integration of TMS into a multimodal environment, e.g., by guiding the TMS application using complementary techniques such as functional magnetic resonance imaging (fMRI), electroencephalography (EEG), diffusion tensor imaging (DTI), or magnetoencephalography (MEG). Furthermore, the impact of stimulation can be identified and characterized by such multimodal approaches, helping to shed light on the basic neurophysiology and TMS effects in the human brain. Against this background, the aim of this Special Issue was to explore advancements in the field of TMS considering both investigations in healthy subjects as well as patients. 

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