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Author: Reiko Matsushita Publisher: ISBN: Category : Languages : en Pages :
Book Description
"Hemispheric asymmetries in processing of different acoustic features are well-known aspect of the auditory cortex. According to one model; the auditory cortex in the left hemisphere is tuned to process rapidly changing temporal information, which are abundant in human speech, and the auditory cortex in the right hemisphere play a dominant role in spectral processing hence significantly contributing to pitch processing. In the past, this spectral-temporal model of the auditory cortex has been addressed mainly using neuroimaging techniques, which inform us about correlational relationships between behaviors and brain activities. In the present thesis, we seek causal evidence that supports the spectral-temporal model, focusing on the right-hemisphere dominance in pitch processing, using transcranial direct current stimulation (tDCS).tDCS is a relatively new technique, which has potential to allow us to address the causal role of certain brain activities, to explore functional connectivity, and possibly to help different neurological and psychological conditions. However, little is known about the mechanisms of tDCS, especially in the auditory domain. We aimed to elucidate the mechanisms of tDCS in the human auditory system, and to develop a protocol to assess the right-hemisphere dominance in pitch processing and learning using tDCS.In the first study (chapter 2), we established a behavioural paradigm to test tDCS-induced effect on pitch processing using a pitch discrimination test called micromelody discrimination task. In this task short tone patterns using small (
Author: Reiko Matsushita Publisher: ISBN: Category : Languages : en Pages :
Book Description
"Hemispheric asymmetries in processing of different acoustic features are well-known aspect of the auditory cortex. According to one model; the auditory cortex in the left hemisphere is tuned to process rapidly changing temporal information, which are abundant in human speech, and the auditory cortex in the right hemisphere play a dominant role in spectral processing hence significantly contributing to pitch processing. In the past, this spectral-temporal model of the auditory cortex has been addressed mainly using neuroimaging techniques, which inform us about correlational relationships between behaviors and brain activities. In the present thesis, we seek causal evidence that supports the spectral-temporal model, focusing on the right-hemisphere dominance in pitch processing, using transcranial direct current stimulation (tDCS).tDCS is a relatively new technique, which has potential to allow us to address the causal role of certain brain activities, to explore functional connectivity, and possibly to help different neurological and psychological conditions. However, little is known about the mechanisms of tDCS, especially in the auditory domain. We aimed to elucidate the mechanisms of tDCS in the human auditory system, and to develop a protocol to assess the right-hemisphere dominance in pitch processing and learning using tDCS.In the first study (chapter 2), we established a behavioural paradigm to test tDCS-induced effect on pitch processing using a pitch discrimination test called micromelody discrimination task. In this task short tone patterns using small (
Author: André Brunoni Publisher: Springer ISBN: 3319339672 Category : Medical Languages : en Pages : 421
Book Description
The aim of this book is to provide a comprehensive review of the use of Transcranial Direct Current Stimulation (tDCS) in different psychiatric conditions. Here we review tDCS clinical studies employing different types of design (from single-session tDCS studies to randomized clinical trials) as well as studies evaluating the impact of tDCS in neurophysiological, behavioral and brain imaging outcomes. Although the understanding about physiological foundations and effectiveness of clinical therapies of psychiatric diseases has been considerably increased during the last decades, our knowledge is still limited, and consequently psychiatric diseases are still a major burden to the individual patient and society. Recently, interest in pathological alterations of neuroplasticity in psychiatric diseases as a critical condition for development, and amelioration of clinical symptoms increased, caused by the fact that new tools, such as functional imaging, and brain stimulation techniques do allow to monitor, and modulate these phenomena in humans. Especially non-invasive brain stimulation techniques evolved as an attractive potential new therapeutic tool. The interest in non-invasive brain stimulation has grown exponentially in the past 25 years, with the development of non-pharmacological, neuromodulatory techniques such as tDCS and repetitive transcranial magnetic stimulation (rTMS). TDCS, although even newer than rTMS, has attracted considerable attention in both basic and clinical research scenarios. In the context of clinical research, tDCS is being increasingly investigated as a novel treatment tool for several psychiatric disorders, such as major depression, schizophrenia and neurocognitive and substance abuse disorders. Transcranial Direct Current Stimulation in Neuropsychiatric Disorders – Clinical Principles and Management intends to serve as a practical guide on the field, attracting the interest of psychiatrists, neurologists and neuroscientists with little or no experience with tDCS, as well as those with a background on tDCS who want to increase their knowledge in any particular psychiatric condition.
Author: Danielle Impey Publisher: ISBN: Category : Languages : en Pages :
Book Description
Transcranial direct current stimulation (tDCS) is a non-invasive form of brain stimulation which uses a very weak constant current to temporarily excite or inhibit activity in the brain area of interest via electrodes placed on the scalp, depending on the polarity and strength of the current. Presently, tDCS is being used as a tool to investigate frontal cognition in healthy controls and to improve symptoms in neurological and psychiatric patients. Relatively little research has been conducted with respect to tDCS and the auditory cortex (AC). The primary aim of this thesis was to elucidate the effects of tDCS on auditory sensory discrimination, assessed with the mismatch negativity (MMN) event-related potential (ERP). In the first pilot study, healthy participants were assessed in a randomized, double-blind, sham-controlled design, in which participants received anodal tDCS over the primary AC (2 mA for 20 minutes) in one session and 'sham' stimulation (i.e. no stimulation) in the other. Pitch MMN was found to be enhanced after receiving anodal tDCS, with the effects being evidenced in individuals with relatively low (vs. high) baseline amplitudes. No significant effects were seen with sham stimulation. A second study examined the separate and interacting effects of anodal and cathodal tDCS on MMN measures. MMN was assessed pre- and post-tDCS (2 mA, 20 minutes) in 2 separate sessions, one involving sham stimulation, followed by anodal stimulation, and one involving cathodal stimulation, followed by anodal stimulation. Only anodal tDCS over the AC increased pitch MMN in baseline-stratified groups, and while cathodal tDCS decreased MMN, subsequent anodal stimulation did not significantly alter MMNs. As evidence has shown that tDCS lasting effects may be dependent on N-methyl-D-aspartate (NMDA) receptor activity, a pharmacological study investigated the use of dextromethorphan (DMO), an NMDA antagonist, to assess possible modulation of tDCS' effects on both MMN and working memory (WM) performance. The study involved four test sessions that compared pre- and post-anodal tDCS over the AC and sham stimulation with both DMO (50 mL) and placebo administration. MMN amplitude increases were only seen with anodal tDCS with placebo administration, not with sham stimulation, nor with DMO administration. In the sham condition, DMO decreased MMN amplitudes. Anodal tDCS improved WM performance in the active drug condition. Findings from this study contribute to the understanding of underlying neurobiological mechanisms mediating tDCS-sensory and memory improvements. As cognitive impairment has been proposed to be the core feature of schizophrenia disorder (Sz) and MMN is a putative biomarker of Sz, a pilot study was conducted to assess the effects of pre- and post-tDCS on MMN measures in 12 Sz patients, as well as WM performance. Temporal, frontal and sham tDCS were applied in separate sessions. Results demonstrated a trend for pitch MMNs to increase with anodal temporal tDCS, which was significant in a subgroup of Sz individuals with auditory hallucinations, who had low MMNs at baseline. Anodal frontal tDCS significantly increased WM performance, which was found to positively correlate with MMN-tDCS effects. The findings contribute to our understanding of tDCS effects for MMN-indexed sensory discrimination and WM performance in healthy participants and individuals with Sz disorder and may have implications for treatment of sensory processing deficits in neuropsychiatric illness.
Author: Helena Knotkova Publisher: Springer ISBN: 3319959484 Category : Medical Languages : en Pages : 651
Book Description
This book provides a comprehensive overview on Transcranial Direct Current Stimulation (tDCS) and the clinical applications of this promising technique. Separated into three parts, the book begins with basic principles, mechanisms and approaches of tDCS. This is followed by a step-by-step practicum, methodological considerations and ethics and professional conduct pertaining to this novel technique. Chapters are authored by renowned experts who also direct and plan tDCS educational events worldwide. Bridging the existing gap in instructional materials for tDCS while addressing growing interest in education in this field, professionals within a broad range of medical disciplines will find this text to be an invaluable guide.
Author: Steven J. Luck Publisher: MIT Press ISBN: 0262525852 Category : Science Languages : en Pages : 417
Book Description
An essential guide to designing, conducting, and analyzing event-related potential (ERP) experiments, completely updated for this edition. The event-related potential (ERP) technique, in which neural responses to specific events are extracted from the EEG, provides a powerful noninvasive tool for exploring the human brain. This volume describes practical methods for ERP research along with the underlying theoretical rationale. It offers researchers and students an essential guide to designing, conducting, and analyzing ERP experiments. This second edition has been completely updated, with additional material, new chapters, and more accessible explanations. Freely available supplementary material, including several online-only chapters, offer expanded or advanced treatment of selected topics. The first half of the book presents essential background information, describing the origins of ERPs, the nature of ERP components, and the design of ERP experiments. The second half of the book offers a detailed treatment of the main steps involved in conducting ERP experiments, covering such topics as recording the EEG, filtering the EEG and ERP waveforms, and quantifying amplitudes and latencies. Throughout, the emphasis is on rigorous experimental design and relatively simple analyses. New material in the second edition includes entire chapters devoted to components, artifacts, measuring amplitudes and latencies, and statistical analysis; updated coverage of recording technologies; concrete examples of experimental design; and many more figures. Online chapters cover such topics as overlap, localization, writing and reviewing ERP papers, and setting up and running an ERP lab.
Author: Huizhen Tang Publisher: ISBN: Category : Auditory cortex Languages : en Pages : 169
Book Description
Our ability to understand speech and other sounds relies crucially on the capacity to detect and perceive temporal amplitude fluctuations in the range of about 1-100 Hz. However, most individual neurons in auditory cortex are capable of precisely aligning their activities only to modulation rates at the lower end of this range. This raises the question of how higher modulation rates might be encoded, and of how the auditory cortex might be organised to accommodate the full range of perceptually relevant amplitude envelope modulations. Here we show, with noninvasive magnetoencephalography and electroencephalography measurements, that population oscillatory responses of human auditory cortex transition between a mode of strong phase locking to modulation rates below about 40-50 Hz, to a non phase-locked mode of responding at rates higher than about 50 Hz. Such dual response modes are predictable from the behaviours of single neurons in auditory cortex of non-human primates, but only the low rate phase locking mode has been previously observed in the neuronal population responses indexed in human MEG/EEG recordings. Taken together, the single neuron and MEG and EEG results from current thesis work suggest that two distinct types of neuronal encoding are required to represent the full range of temporal modulation rates that are relevant to everyday perception.
Author: Roi Cohen Kadosh Publisher: Elsevier ISBN: 0124047122 Category : Medical Languages : en Pages : 568
Book Description
The Stimulated Brain—which garnered an Honorable Mention for Biomedicine & Neuroscience at the 2015 PROSE Awards from the Association of American Publishers—presents the first integration of findings on brain stimulation from different research fields with a primary focus on Transcranial Electrical Stimulation (tES), one of the most frequently used noninvasive stimulation methods. The last decade has witnessed a significant increase in the amount of research exploring how noninvasive brain stimulation can not only modulate but also enhance cognition and brain functions. However, although Transcranial Magnetic Stimulation (TMS) and particularly tES have the potential to become more widely applicable techniques (as they come with none of the risks associated with deep brain stimulation) the reference literature on these neurotechnologies has been sparse. This resource provides a broad survey of current knowledge, and also marks future directions in cognitive and neuro-enhancement. It expands our understanding of basic research findings from animals and humans, including clear translational benefits for applied research and the therapeutic use of noninvasive brain stimulation methods. The book's coverage includes a primer that paves the way to a more advanced knowledge of tES and its physiological basis; current research findings on cognitive and neuro-enhancement in animals and typical and atypical human populations, such as neurological patients; and discussions of future directions, including specific neuroethical issues and pathways for collaboration and entrepreneurialism. The Stimulated Brain is the first book to provide a comprehensive understanding of different aspects of noninvasive brain stimulation that are critical for scientists, clinicians, and those who are interested in “stimulating their minds by exploring this fascinating field of research. Honorable Mention for Biomedicine & Neuroscience in the 2015 PROSE Awards from the Association of American Publishers The only reference on the market to focus on transcranial electrical stimulation (tES) Coverage across technical, historical, and application topics makes this the single, comprehensive resource for researchers and students Edited book with chapters authored by international leaders in the fields of medicine, neuroscience, psychology, and philosophy—providing the broadest, most expert coverage available
Author: Reiko Matsushita
Author: Reiko Matsushita
Author: Kai Heimrath
Author: André Brunoni
Author: Danielle Impey
Author: Helena Knotkova
Author: Steven J. Luck
Author: Feng Rong
Author: Huizhen Tang
Author: Roi Cohen Kadosh
Author: Alberto Priori