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Non-invasive Brain Stimulation (NIBS) in Neurodevelopmental Disorders, Volume 264 presents the latest updates on recent techniques used to examine the potential treatment of psychiatric and neurological disorders in adults. In this special issue, the book's authors and contributors provide a unique focus on the potential effects of non-invasive brain stimulation. Topics cover a range of reviews, opinions, methodologies, original research articles, and suggestions on how to better translate scientific knowledge into practice. This new release will help guide basic research and the development of therapeutic interventions for children and adolescents who suffer from neurodevelopmental disorders. Covers the effects of brain stimulation on different neurodevelopmental disorders Includes experimental studies in humans, animals and associated theoretical reviews Provides the most accurate and up-to-date coverage from selected international experts
Noninvasive brain stimulation (including Transcranial Magnetic Stimulation (TMS) and Transcranial Current Brain Stimulation (TCS)) can be used both experimentally and therapeutically. In the experimental domain TMS can be applied in single pulses to depolarize a small population of neurons in a targeted brain region. This protocol can be used, for example, to map cortical motor outputs, study central motor conduction time, or evaluate the cortical silent period (a measure of intracortical inhibition) all of which are relevant to neurodevelopment. TMS can also be applied in pairs of pulses (paired pulse stimulation, ppTMS) where two pulses are presented in rapid succession to study intracortical inhibition and facilitation. Trains of repeated TMS (rTMS) pulses can be applied at various stimulation frequencies and patterns to modulate local cortical excitability beyond the duration of the stimulation itself. Depending on the parameters of stimulation the excitability can be either facilitated or suppressed. TCS (including Transcranial Direct Current Stimulation (tDCS), alternating current (tACS), and random noise current stimulation (tRNS) also have the potential to modulate cortical excitability and have also been used to study and modulate cortical activity in healthy and patient populations. The after-effects of rTMS and TCS are thought to be related to changes in efficacy (in either the positive or negative direction) of synaptic connections of the neurons being stimulated, thus these techniques have been used to study and modulate cortical plasticity mechanisms in a number of populations. Recently, researchers have begun to apply these techniques to the study of neurodevelopmental mechanisms as well as the pathophysiology and development of novel treatments for neurodevelopmental disorders. Though there is much promise, caution is warranted given the vulnerability of pediatric and clinical populations and the potential that these techniques have to modify circuit development in a cortex that is in a very dynamic state. This Research Topic hopes to provide an opportunity to share ideas across areas (human and animal researchers, clinicians and basic scientists). We are particularly interested in papers that address issues of choosing a protocol (intensity, frequency, location, coil geometry etc.), populations where noninvasive brain stimulation may have direct impact on diagnostics and treatment, as well as the safety and ethics of applying these techniques in pediatric populations. As many may not be aware of the potential and limitations of noninvasive brain stimulation and its use for research and treatment in this area, this Research Topic promises to have broad appeal. Submissions for all Frontiers article types are encouraged.
This book includes state-of-the art reviews, written by research leaders, of Non-Invasive Brain-Stimulation (NIBS) techniques for the cognitive rehabilitation of disorders of memory, language, perception, attention and executive functions.
Stroke is the major cause of long-term disability worldwide, with impaired manual dexterity being a common feature. In the past few years, noninvasive brain stimulation (NIBS) techniques, such as transcranial magnetic stimulation (TMS) and transcranial direct current stimulation (tDCS), have been investigated as adjuvant strategies to neurorehabilitative interventions. These NIBS techniques can be used to modulate cortical excitability during and for several minutes after the end of the stimulation period. Depending on the stimulation parameters, cortical excitability can be reduced (inhibition) or enhanced (facilitation). Differential modulation of cortical excitability in the affected and unaffected hemisphere of patients with stroke may induce plastic changes within neural networks active during functional recovery. The aims of this chapter are to describe results from these proof-of-principle trials and discuss possible putative mechanisms underlying such effects. Neurophysiological and neuroimaging changes induced by application of NIBS are reviewed briefly.
Neurotechnology and Brain Stimulation in Pediatric Psychiatric and Neurodevelopmental Disorders provides a comprehensive overview of neurotechnological devices as potential treatments for psychiatric and neurodevelopmental disorders in children and adolescents. Many neuropsychiatric disorders are covered such as Autism Spectrum Disorder, ADHD, Depression, Tourette’s Syndrome, and OCD. Different device-based treatments are discussed such as Transcranial Magnetic Stimulation, Transcranial Direct Current Stimulation, Deep Brain Stimulation, Chronotherapy, and Neurofeedback. Provides an overview of neuromodulatory devices as potential treatments for psychiatric and neurodevelopmental disorders in children and adolescents Gives evidence-based recommendations for non-drug interventions that may be effective for treatment options Discusses different neuromodulatory treatment options, including TMS, tDCS, DBS, chronotherapy and neurofeedback
The potential efficacy of non-invasive brain stimulation procedures for the management of specific symptoms in diverse neurological and psychiatric conditions has been tested in the past decade or so. For example, repetitive transcranial magnetic stimulation (rTMS) over prefrontal areas has been extensively investigated as a treatment for patients with medication-resistant depression and has been shown to be associated with improvement of mood. Similarly, non-invasive stimulation techniques have been applied to various symptoms of Parkinson's disease such as bradykinesia and dyskinesias, with variables degrees of success reported. However, attempts to expand previously observed clinical improvements to other neurological disorders (e.g. Tourette's syndrome, autism, epilepsy) has been controversial. In trying to bypass potential confounding elements, researchers aim to target neural populations altered in disease to either increase or decrease their corrupted baseline activity. In addition, a complementary approach is to extend stimulation protocols that results enhanced behavior in healthy participants. This Frontiers Research Topic on non-invasive brain stimulation and enhancement of function tries to combine a series of articles from researchers who used non-invasive brain stimulation to aim improvement of either a motoric, cognitive or behavioral nature investigated behaviorally, physiologically or using brain imaging techniques in clinical populations. Investigation of the relation between enhancement of function in healthy populations and clinical improvement in patients with neurological or psychiatric disorders needs further consideration.
Author : Jean Paul Buu Cuong Nguyen Publisher : Frontiers Media SA Page : 105 pages File Size : 11,84 MB Release : 2024-07-23 Category : Medical ISBN : 2832551874
Numerous publications have attested to the therapeutic efficacy of non-invasive brain stimulation (NIBS) techniques, such as repetitive transcranial magnetic stimulation (rTMS) and low-intensity transcranial electrical stimulation (tES). These methods have been used in the treatment of various neurological-related conditions, such as chronic pain, cognitive disorders, movement disorders, or stroke rehabilitation. Across these different fields, evidence suggests therapeutic efficacy could be improved when combining NIBS technique in combination with another type of more commonly utilized therapeutic approaches (e.g., motor and/or cognitive training, pharmacological, physical and neurorehabilitation).
This book presents the state of the art regarding the use of non-invasive brain stimulation (TMS and tDCS) in the research and treatment of neuropsychiatric disorders. The contributions, all of which were prepared by internationally recognized experts in the field, are divided into two main sections (for TMS and tDCS, respectively) across diagnoses, following an introductory section on the mechanisms of action and neurophysiological background. Neuropsychological perspectives and approaches are provided as well. The book is ultimately intended to offer a unique, integrated approach to the use of non-invasive brain stimulation across the clinical neurosciences, providing a comprehensive and updated perspective that will benefit psychiatrists, neurologists, clinical psychologists and neurophysiologists alike.