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100   $a20220622d2021      uy             0
101 0 $aeng
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181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aTranscranial direct current stimulation in neuropsychiatric disorders $eclinical principles and management /$fedited by Andre? R. Brunoni, Michael A. Nitsche, and Colleen K. Loo
205   $aSecond edition.
210  1$aCham, Switzerland :$cSpringer,$d[2021]
210  4$d©2021
215   $a1 online resource (779 pages)
300   $aIncludes index.
311   $a3-030-76135-5 
327   $aIntro -- Foreword to the Second Edition -- Reference -- Foreword to the First Edition -- References -- Preface to the Second Edition -- Preface to the First Edition -- Contents -- Contributors -- Part I: Introduction and Mechanisms of Action -- 1: Historical Aspects of Transcranial Electric Stimulation -- 1.1  The First Clinical-Therapeutic Electrical Applications: The Electric Fish -- 1.2  Transcranial Electrical Stimulation: From Electrostatic Machines to Volta's Pile -- 1.3  The Reappraisal of Transcranial Direct Current Stimulation (tDCS) from 1960 Onward -- 1.4  Concluding Remarks -- References -- 2: Basic Mechanisms of Transcranial Alternating Current and Random Noise Stimulation -- 2.1  Introduction -- 2.2  Neurophysiological Effects -- 2.3  Evidence in Humans -- 2.4  Distinct tACS Variants -- 2.5  Clinical Applications -- 2.6  Conclusion -- References -- 3: Physiology of Transcranial Direct and Alternating Current Stimulation -- 3.1  Introduction -- 3.2  tDCS -- 3.2.1  tDCS Protocols and Effects -- Electrode Position/Configuration/Current Direction -- Current Intensity/Density -- Stimulation Duration/Interval -- 3.2.2  tDCS Physiology -- Regional Effects of tDCS -- Acute Alteration of Cortical Excitability -- Sustained Change of Cortical Excitability and Activity -- Pharmacology of tDCS -- tDCS Effect on Cortical Regions Other than M1 -- Inter-Regional Effects of tDCS -- 3.3  tACS -- 3.3.1  tACS Protocols and Effects -- Physiological Effects of tACS -- tACS Effects on Cognition and Behaviour -- 3.4  General Remarks -- References -- 4: Animal Models of tES: Methods, Techniques, and Safety -- 4.1  Methods -- 4.2  Modes of Noninvasive Electrical Brain Stimulation -- 4.3  Stimulation Artifact in Recording -- 4.4  Safety -- 4.4.1  Dose-Response and Safety -- 4.4.2  Safety Limits for Tissue Injury -- 4.5  The Quasi-Uniform Assumption.
327   $a4.6  Dose Translation and Meaningful Animal Studies -- References -- 5: Animal Studies on the Mechanisms of Low-Intensity Transcranial Electric Stimulation -- 5.1  Neuronal Polarization and Need for Amplification -- 5.1.1  The Somatic Doctrine -- 5.1.2  Early Evidence on Modulation of Excitability, Polarity-Specific Effects -- 5.1.3  Polarization of Nonsomatic Components -- 5.1.4  Membrane Polarization and Coupling Constants -- 5.1.5  Amplification Through Both Timing and Rate -- 5.1.6  Seizure Threshold and Modulation -- 5.2  Synaptic Processing and Plasticity -- 5.2.1  Paradigms for Modulation of Synaptic Plasticity by Electric Stimulation -- 5.2.2  Effects of Direct Current Stimulation on LTP and LTD In Vitro -- 5.2.3  Molecular Mechanisms of tES-Induced Effects on Synaptic Plasticity -- 5.3  Morphological Changes -- 5.4  Network Effects -- 5.5  Interneurons and Nonneuronal Effects -- 5.5.1  Interneurons -- 5.5.2  Glia -- 5.5.3  Inflammation, Angiogenesis, and Apoptosis -- 5.6  Applications to Clinical Pathologies -- 5.6.1  Stroke -- 5.6.2  Addiction -- 5.6.3  Alzheimer's Disease -- 5.6.4  Chronic Stress and Depression -- 5.7  Prospects for Animal Research in tDCS/tACS Informing Ongoing Human Trials -- References -- Part II: Research Methods -- 6: TMS-Evoked EEG Response in Neuropsychiatric Disorders -- 6.1  Introduction -- 6.2  Technical Aspects -- 6.2.1  General Issues -- 6.2.2  EEG Artifacts -- 6.2.3  Outcome Measures -- 6.3  Physiology -- 6.4  Neuropsychiatry -- 6.4.1  Attention-Deficit/Hyperactivity Disorder (ADHD) -- 6.4.2  Schizophrenia -- 6.4.3  Mood Disorders -- 6.4.4  Substance Abuse Disorders -- 6.4.5  Alzheimer's Disease (AD) -- 6.5  Future Directions -- References -- 7: Multimodal Association of tDCS with Electroencephalography -- 7.1  Introduction: A Brief Picture of the Present State of Research.
327   $a7.2  Principles of Multimodal Association -- 7.3  Advantages of Combining tES with Other Methods -- 7.4  Technical Aspects for the Combined Use of tES and EEG -- 7.5  tDCS-EEG in Studying Cortical Excitability, Connectivity and Plasticity -- 7.6  Multimodal Imaging as a Diagnostic/Prognostic Tool in Neuropsychiatric Disorders -- 7.7  Conclusions and Final Remarks -- References -- 8: tDCS and Magnetic Resonance Imaging -- 8.1  Introduction -- 8.2  Combining tDCS and MRI -- 8.3  Functional Magnetic Resonance Imaging -- 8.4  BOLD Functional MRI -- 8.4.1  Resting-State fMRI -- tDCS Has Significant, but Somewhat Unclear, Effects on Resting Functional Connectivity -- tDCS As a Potential Tool to Understand the Basis of Resting Functional Connectivity -- 8.4.2  Task-Based fMRI -- Studies in Healthy Controls -- 8.4.3  Arterial Spin Labelling (ASL) -- 8.5  Magnetic Resonance Spectroscopy -- 8.5.1  1H-MRS -- Neurochemicals of Interest -- Glutamate -- GABA -- N-Acetylaspartic Acid and Creatine -- 8.5.2  31P-MRS -- 8.5.3  Combining tDCS with MRS -- 8.6  Current Density and Impedance Imaging -- 8.7  Conclusions and Future Directions -- References -- 9: tDCS and Functional Connectivity -- 9.1  Introduction -- 9.2  Motor Cortex -- 9.2.1  Effects of Anodal tDCS -- 9.2.2  Effects of Cathodal tDCS -- 9.2.3  Effects of Dual tDCS -- 9.3  Prefrontal tDCS -- 9.3.1  Prefrontal tDCS and Cognitive/Executive Functions -- 9.3.2  Prefrontal tDCS and Resting-State Network -- 9.4  Therapeutic Application of tDCS -- 9.4.1  Neurological Disorders -- Stroke -- Language Deficits -- 9.4.2  Psychiatric Disorders -- Schizophrenia -- Major Depressive Disorder -- 9.5  Effect Variability and Test-Retest Reliability of tDCS -- 9.6  Association Between Response Patterns and Baseline MRI Markers -- 9.7  Conclusions and Future Directions -- References.
327   $a10: The Value of Neuroimaging for Treating Depression with Brain Stimulation -- 10.1  Introduction -- 10.1.1  Non-invasive Brain Stimulation to Treat Depression -- 10.1.2  Network Theories of Depression -- 10.1.3  Why Combine NIBS and Neuroimaging? -- How Can NIBS Reach Deep Brain Regions? -- Contributions of Neuroimaging to the Clinical Application of NIBS -- 10.2  Does Neuroimaging-Guided Brain Target Localization Improve Treatment? -- 10.2.1  TMS -- Does Localization Accuracy Matter? -- 10.2.2  tDCS -- Neuroimaging Is Necessary to Test for Target Engagement -- 10.2.3  Summary -- 10.3  Mechanisms of NIBS Treatment -- 10.3.1  Effects on Brain Metabolism -- Physiological Effects of the Two Standard TMS Approaches -- Critical Assessment of the Reported Literature -- 10.3.2  Effects on Brain Networks in the Resting State -- TMS Effects on Resting-State Networks -- The Clinical Effect of TMS Is Associated with Connectivity Changes in the Subgenual ACC -- TMS Effects on the Three Major Resting-State Networks -- tDCS Effects on Resting-State Networks -- TDCS Effects on the Three Major Resting-State Networks -- Resting-State Analysis Suggests Alternative Target Regions -- 10.3.3  Physiological Effects During Concurrent NIBS and fMRI -- The Value of Measuring the Direct Physiological Effects of NIBS -- 10.3.4  Effects on Task fMRI -- 10.3.5  Structural Changes in Response to NIBS Treatment -- 10.3.6  Summary -- 10.4  Predictors of Treatment Response -- 10.4.1  Predictors Based on PET -- 10.4.2  Predictors Based on Resting-State Connectivity -- 10.4.3  Predictors Based on Task-Related Activity -- 10.4.4  Structural Predictors -- 10.4.5  Summary -- 10.5  Individualized Treatment -- 10.5.1  Adjusting the Target Region Based on Individual Anatomy -- 10.5.2  Categorization into Different Subtypes of Depression -- 10.5.3  Summary.
327   $a10.6  Conclusions and Challenges -- References -- 11: Target Engagement with Transcranial Current Stimulation -- 11.1  Mechanistic Insights from Animal Studies -- 11.1.1  Effect of Electric Fields on Individual Neurons -- 11.1.2  TES Effect on Neuronal Firing Rate and Spike Timing -- 11.1.3  Interactions of Network Oscillations and Electric Fields -- 11.1.4  Outlasting Effects of Electric Fields -- 11.1.5  Interaction of Cellular and Network Mechanisms -- 11.2  Computational Models -- 11.2.1  Forward Models -- 11.2.2  Computational Neural Models -- 11.2.3  Future Directions -- 11.3  Effects of Weak Electric Fields on the Human Brain -- 11.3.1  Neurophysiology of tDCS in Humans -- 11.3.2  Mechanisms of tDCS in Humans -- 11.3.3  Neurophysiology of tACS in Humans -- 11.3.4  Mechanism of tACS in Humans -- 11.4  Spatial and Temporal Targeting to Improve Cognition -- 11.4.1  Frequency-Specific Effects of tACS -- 11.4.2  High-Density Spatial Targeting -- 11.4.3  Cross-Frequency tACS -- 11.5  Application of tES to Sleep Oscillations -- 11.5.1  Mechanisms of Slow Oscillations -- 11.5.2  Modulating the Slow Oscillation with Weak Electric Fields -- 11.6  Clinical Trials of tACS -- 11.7  Outlook -- References -- 12: Cerebellar and Spinal tDCS -- 12.1  Cerebellar Transcranial Direct Current Stimulation: Technique's Overview and Clinical Applications -- 12.2  Transcutaneous Spinal Direct Current Stimulation: Technique's Overview -- 12.3  Mechanisms of Action -- 12.3.1  Putative Mechanisms of Action at a Spinal Level -- 12.3.2  Putative Mechanisms of Action at a Supraspinal Level -- 12.4  Perspective on Clinical Studies -- 12.5  Why Should Psychiatrists Be Interested in Cerebellar/Spinal DC Stimulation? -- References -- 13: Precision Targeting of Neural Networks with tDCS Informed by Brain Mapping -- 13.1  Introduction.
327   $a13.1.1  Identifying and Targeting Dysfunctional Large-Scale Brain Networks.
606   $aMental illness$xTreatment
606   $aMagnetic brain stimulation
606   $aPsychology, Pathological$xTreatment
606   $aPsicopatologia$2thub
606   $aEstimulació del cervell$2thub
608   $aLlibres electrňnics$2thub
615  0$aMental illness$xTreatment.
615  0$aMagnetic brain stimulation.
615  0$aPsychology, Pathological$xTreatment.
615  7$aPsicopatologia
615  7$aEstimulació del cervell
676   $a612.822
702   $aBrunoni$b Andre?
702   $aNitsche$b Michael$f1968-
702   $aLoo$b Colleen
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910502662203321
996   $aTranscranial Direct Current Stimulation in Neuropsychiatric Disorders$92568788
997   $aUNINA