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The Stimulated Brain. Cognitive Enhancement Using Non-Invasive Brain Stimulation

  • Book

  • October 2018
  • Elsevier Science and Technology
  • ID: 5341929

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.

Table of Contents

The Basis 1. The History of Electrical Brain Stimulation 2. Primer to Stimulation Methods 3. Safety: Cognitive and Physical Side Effects 4. Modeling Work 5. Electrical Brain Stimulation in Animals and Non-Human Primates 6. The Physiological Basis of Brain Stimulation

Improving Functions in the Typical Brain 7. Sensory System 8. Motor System 9. Effects of Brain Stimulation on Declarative and Procedural Memories 10. Attentional System 11. High-Level Cognitive Functions in Healthy Subjects

Improving Functions in the Atypical Brain 12. Non-Invasive Brain Stimulation in Neurological Disorders 13. Transcranial Direct Current Stimulation for Cognitive and Language Dysfunction in the Elderly 14. Psychiatric Illnesses 15. The Addictive Brain

Future Perspectives 16. Improving Education 17. A Brief Guide to the Scientific Entrepreneur 18. Neuroethical Aspects 19. The Future Usage of Brain Stimulation and Challenges

Authors

Roi Cohen Kadosh Professor of Cognitive Neuroscience, Department of Experimental Psychology, University of Oxford, UK. Roi Cohen Kadosh is a Professor of Cognitive Neuroscience at the University of Oxford. He received his PhD in Neuropsychology (summa cum laude, direct track) on the mental operations and neuropsychological mechanisms of numerical and magnitude processing under the supervision of Avishai Henik from the Ben-Gurion University in 2006. During this time he also had the opportunity to gain experience with neuroimaging techniques, such as fMRI and ERP under the supervision of David Linden at the Max Planck Institute for Brain Research (Frankfurt, Germany), and practiced for one year as clinical neuropsychologist at the Traumatic Brain Injuries Unit, Beit Lowenstein Rehabilitation Center in Israel. During his PhD period he also completed the European Diploma in Cognitive and Brain Sciences (EDCBS, 2003-4). He received funding from several sources including the International Brain Research Organization, and the European Union (Marie Curie Intra European Fellowship) to investigate the neural substrate of numerical representations using brain stimulation and neuroimaging during his postdoctoral training with Vincent Walsh at University College London. He joined EP as a Wellcome RCD Fellow in 2009 where he established the Cohen Kadosh Lab.