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E-raamat: Modern Approaches to Augmentation of Brain Function

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This book covers recent advances in neural technology that provide for enhancements for brain function.  It addresses a broad range of neural phenomena occurring in the brain circuits involved in perception, cognition, emotion and action, that represent the building blocks of behavior and cognition. Augmentation of brain function can be achieved by using brain implants for recordings, stimulation, or drug delivery.  Alternative methods include employing brain-machine interfaces, as well as noninvasive activation of certain brain areas.  This volume evaluates existing methods of brain augmentation while discussing the brain circuitry and neuronal mechanisms that make augmentation possible.

 

This volume offers novel insights into brain disorders, and explores new devices for brain repair while also addressing the philosophical and ethical implications of brain augmentation. The information in this book is relevant to researchers in the fields of neuroscience, engineering, and clinical practice.

 

Advance Praise for Modern Approaches to Augmentation of Brain Function:

 

This impressive book by leading experts in neuroscience and neuroengineering lays out the future of brain augmentation, in which the human mind and machine merge, leading to a rapid exponential growth of the power of humanity.

Ray Kurzweil, best-selling author, inventor, entrepreneur and a recipient of the National Medal of Technology and Innovation (1999), and the Lemelson-MIT Prize (2001)

               

"This book employs a holistic approach in covering the recent advances in the fields of neuroscience, neuroinformatics, neurotechnology and neuro-psycho-pharmacology. Each chapter of the book covers major aspects of modern brain research in connection with the human mind and behavior, and is authored by researchers with unique expertise in their field. "

Ioan  Dumitrache, Prof. Dr. Eng. Faculty of Computer Science, Polytechnic University of Bucharest, Bucharest, Romania

 

This book presents compelling perspectives on what interactive neuroscience will look like in the future, delving into the innovatory ideas of a diverse set of neuroscientists, and speculating on the different ways computer chips implanted in the brains of humans can effect intelligence and communication.

György Buzsáki, MD, PhD is the Biggs Professor of Neuroscience, NYU School of Medicine, New York, NY
1. Using electrical stimulation to explore and augment the functions of
parietal-frontal cortical networks in primates.- 2. Multi-system benefits of
epidural stimulation following spinal cord injury. 3. Neurostimulator for
hippocampal memory prosthesis.- 4. Modern approaches to augmenting the brain
functions.- 5. Brain machine interfaces within a critical perspective.- 6. An
implantable wireless device for ECoG and cortical stimulation.- 7. BCI
Performance improvement by special low jitter quasi-steady State VEP
paradigm.- 8. Communication with Brain-Computer Interfaces in Medical
Decision-Making.- 9. Neuroprotection and neurocognitive augmentation by
photobiomodulation.- 10. Avoiding partial sleep - the way for augmentation of
brain function.- 11. Augmentation of brain functions by nanotechnology.-
12. The impact of ageing and age-related comorbidities on stroke outcome in
animal models and humans.- 13. Diagnostic markers ofsub-clinical depression
based on functional connectivity.- 14. Transcranial magnetic stimulation in
autism spectrum disorders: modulating brainwave abnormalities and behaviors.-
15. Neurofeedback training with concurrent psychophysiological monitoring in
children with autism spectrum disorder with comorbid attention
deficit/hyperactivity disorder.- 16. Augmentation through interconnection:
brain-nets and telemedicine.- 17. Cognitive augmentation via a brain/cloud
interface.- 18. Augmentation of neuro-marketing by neural technology.-
19. Augmentation of nutrition by nanotechnology.- 20. Neural spintronics:
noninvasive augmentation of brain functions.- 21. Does the power to suppress
an action make us free?.- 22. Deep brain stimulation for Parkinsons
disease-future directions for enhancing motor function.- 23. Neuromodulation
for gait.- 24. Augmentation and rehabilitation with active orthotic devices.-
25. Effects of rTMS on behavioral and electrocortical measures of error
monitoring and correction function in children with autism spectrum
disorder.- 26. Affective Virtual Reality Gaming for Autism.- 27. A machine
learning approach to automatic phobia therapy with virtual reality.-
28. Vision augmentation by pharmacological enhancement of the visual
experience.- 29. Cognitive enhancing substances and the developing brain:
risks and benefits.- 30. Pharmacological approaches in the augmentation and
recovery of brain function.
Dr. Ioan Opris is an associate professor at University of Miami, Coral Gables in Biomedical Engineering Department, having a PhD in Physics and Biophysics, with a substantial contribution in Systems and Cognitive Neuroscience. He is already an editor of two previous Springer books. The main focus of his current research is on the augmentation of cognitive function and locomotion boy both classic and modern noninvasive Neural Spintronics approaches. Dr. Opris is an editor of several journals, books and special issues.

Dr. Mikhail Lebedev a Chief Research Scientist and Professor, works in the fields of Neurorophysiology and Neuroprosthetics.  The major focus of his current research is on brain-computer interfaces (BCIs), such as BCIs for reaching and grasping, BCIs that reproduce bipedal locomotion patterns, and sensorized  BCIs that both extract motor command from the brain and deliver sensory  information back to the brain. Lebedev is an editor of several journals, books and special issues.

Manuel F. Casanova, MD is the SmartState Endowed Chair in Childhood Neurotherapeutics and a professor of Biomedical Sciences at the University of South Carolina School of Medicine Greenville. He is a former Gottfried and Gisela Kolb Endowed Chair in Outpatient Psychiatry and a Professor of Anatomical Sciences and Neurobiology at the University of Louisville.  Casanova's research focuses on the biological basis of neurodevelopment disorders, and abnormalities of cortical circuitry, in particular on the cell minicolumn. Using computerized imaging analysis, he has established the anatomical validity of the cell minicolumn. Casanova has reported interhemispheric differences in the morphometry of minicolumns that could provide explanations for the speciation of hominids. He has also reported on the use of transcranial magnetic stimulation as a possible therapeutic intervention in autism and on the use of gamma oscillation abnormalities as an outcome measure.
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