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Systems Neuroscience and Rehabilitation
Rapidly growing knowledge in systems neuroscience may contribute to expand the range of activities in persons with disabilities, but in its practical application, cooperation between experts in different research fields is necessary. In this conference, the guest speakers and audiences will be from wide range of research fields; e.g., systems-neuroscience, neurology, engineering, psychology, and the attendees will discuss the possibilities.
International Neurolaw
Whereas the past few years have repeatedly been referred to as the “era of biotechnology”, most recently the impression has emerged that at least the same degree of attention is being paid to the latest developments in the field of neurosciences. It has now become nearly impossible to maintain an overview of the number of research projects dealing with the functionality of the brain – for example concerning its organizational structure – or projects dealing with the topics of legal responsibility, brain-computer interface applications, neuromarketing, lie detection or mind reading. These procedures are connected to a number of legal questions concerning the framework conditions of re...
Clinical Systems Neuroscience
The impaired brain has often been difficult to rehabilitate owing to limited knowledge of the brain system. Recently, advanced imaging techniques such as fMRI and MEG have allowed researchers to investigate spatiotemporal dynamics in the living human brain. Consequently, knowledge in systems neuroscience is now rapidly growing. Advanced techniques have found practical application by providing new prosthetics, such as brain–machine interfaces, expanding the range of activities of persons with disabilities, or the elderly. The book’s chapters are authored by researchers from various research fields such as systems neuroscience, rehabilitation, neurology, psychology and engineering. The book explores the latest advancements in neurorehabilitation, plasticity and brain–machine interfaces among others and constitutes a solid foundation for researchers who aim to contribute to the science of brain function disabilities and ultimately to the well-being of patients and the elderly worldwide.
Neuromodulation Using Spatiotemporally Complex Patterns
Recent studies have highlighted that stimulation of the nervous system with spatiotemporal patterns may engage the nervous system in fundamentally different ways than can be achieved with conventional single-frequency stimulation. Coordinated Reset deep brain stimulation (DBS) may affect synaptic plasticity and result in long-lasting (after stimulation is turned off) effects. Spatio-temporal paired pulse stimulation can be used to induce spike timing dependent strengthening or weakening of synaptic connections between brain regions for therapeutic purposes. Burst stimulation may enable cell-type specific targeting, as recently shown in rodent models of DBS for Parkinson’s Disease and in thalamic DBS in humans. Burst stimulation has also shown promise in spinal cord for chronic pain and vagus nerve stimulation for cardiac applications. And multiple hierarchies of temporal patterning may have their own unique effect on the nervous system as evidenced by data on intermittent theta-burst transcranial magnetic stimulation for the control of depression.
The Oxford Handbook of Transcranial Stimulation
Transcranial stimulation encompasses noninvasive methods that transmit physical fields-such as magnetic, electric, ultrasound, and light-to the brain to modulate its function. The most widespread approach, transcranial magnetic stimulation (TMS), has emerged as an important tool in several areas of neuroscience as well as in clinical applications in psychiatry and neurology. Originally envisioned as a way to measure the responsiveness and conduction speed of neurons and synapses in the brain and spinal cord, TMS has also become an important tool for changing the activity of brain neurons and the functions they subserve as well as an causal adjunct to brain imaging and mapping techniques. Alo...
Augmentation of Brain Function: Facts, Fiction and Controversy
The Volume II is entitled “Neurostimulation and pharmacological approaches”. This volume describes augmentation approaches, where improvements in brain functions are achieved by modulation of brain circuits with electrical or optical stimulation, or pharmacological agents. Activation of brain circuits with electrical currents is a conventional approach that includes such methods as (i) intracortical microstimulation (ICMS), (ii) transcranial direct current stimulation (tDCS), and (iii) transcranial magnetic stimulation (TMS). tDCS and TMS are often regarded as noninvasive methods. Yet, they may induce long-lasting plastic changes in the brain. This is why some authors consider the term ...
Research Handbook on Behavioral Law and Economics
The field of behavioral economics has contributed greatly to our understanding of human decision making by refining neoclassical assumptions and developing models that account for psychological, cognitive, and emotional forces. The field’s insights have important implications for law. This Research Handbook offers a variety of perspectives from renowned experts on a wide-ranging set of topics including punishment, finance, tort law, happiness, and the application of experimental literatures to law. It also includes analyses of conceptual foundations, cautions, limitations and proposals for ways forward.
Manipulative approaches to human brain dynamics
In this EBook, we highlight how newly emerging techniques for non-invasive manipulation of the human brain, combined with simultaneous recordings of neural activity, contribute to the understanding of brain functions and neural dynamics in humans. A growing body of evidence indicates that the neural dynamics (e.g., oscillations, synchrony) are important in mediating information processing and networking for various functions in the human brain. Most of previous studies on human brain dynamics, however, show correlative relationships between brain functions and patterns of neural dynamics measured by imaging methods such as electroencephalography (EEG), magnetoencephalography (MEG), near-infr...
