Neural prosthetics are systems or devices connected to the brain that can restore damaged or lost sensory, motor, and cognitive functions. This book explores the neuroscientific and philosophical implications of neural prosthetics.
The prospect of interfacing the nervous system with electronic devices to stimulate or record from neural tissue suggests numerous possibilities in the field of neuroprosthetics. While the creation of a "six million dollar man" may still be far into the future, neural prostheses are rapidly becoming viable theories for a broad range of patients wit
Neural prosthetics are systems or devices implanted in or connected to the brain that influence the input and output of information. They modulate, bypass, supplement, or replace regions of the brain and its connections to parts of the body that are damaged, dysfunctional, or lost, whether from congenital conditions, brain injury, limb loss, or neurodegenerative disease. Neural prosthetics can restore sensory, motor, and cognitive functions in people with these conditions and enable them to regain functional independence and improve their quality of life. This book explores the neuroscientific and philosophical implications of neural prosthetics. Neuroscientific discussion focuses on how neural prosthetics can restore brain and bodily functions to varying degrees, looking at auditory and visual prosthetics, deep brain and responsive neurostimulation, brain-computer interfaces, brain-to-brain interfaces, and memory prosthetics. Philosophical discussion then considers the degree to which people with these prosthetics can benefit from or be harmed by them. Finally, it explores how these devices and systems can lead to a better understanding of the brain-mind relation, mental causation, and agency. This is an essential volume for anyone invested in the current and future directions of neural prosthetics, including neuroscientists, neurologists, neurosurgeons, neural engineers, psychologists, and psychiatrists, as well as philosophers, bioethicists, and legal theorists.
Shattered Nerves takes us on a journey into a new medical frontier, where sophisticated, state-of-the-art medical devices repair and restore failed sensory and motor systems. In a compelling narrative that reveals the intimate relationship between technology and the physicians, scientists, and patients who bring it to life, Victor D. Chase explores groundbreaking developments in neural technology.
This is an updated and abridged edition of the original volume published in 2004. Like its predecessor it is targeted for students of bioengineering, biomedical engineering, applied physiology, biological cybernetics and related fields; for engineers and scientists who have an interest in neuroprosthetics; and for medical practitioners using products of that field.The practice of neuroprosthetics requires a fundamental understanding of the anatomy and physiology of the nervous system, mathematical neurobiology, material science, electrochemistry, and electrophysiology. The text assumes some familiarity with basic anatomy, physiology, calculus, electrophysiology and bioinstrumentation, which typically are covered in undergraduate and first year graduate bioengineering curricula. These areas are also reviewed here, with the aim of consolidating principles fundamental to understanding the field. With that as background, the book then presents an overview of the field with detailed emphasis in selected areas of neural interfaces and neuroprostheses. The covered topics provide readers with sufficient information to understand the theory, rationale, design, and functioning of neuroprosthetic devices currently in clinical use and under development.The current volume is shorter than its predecessor. This has been achieved by reducing some of the repetition present in certain chapters of the earlier edition and eliminating a few chapters whose topics are now well covered in review literature readily available on the internet and elsewhere. Two chapters have been retained in their original versions to provide important background material, but the remaining chapters have either been revised by their original authors or replaced by new versions written by different authors. In addition new topics have been added to the section on existing systems.
A study of neuroprosthetics. It is broadly divided into three sections which address: neuroanatomy and neurophysiology, biomaterials and biocompatibility, stimulation and recording techniques; clinical applications of neuroprosthetics; and future developments.
Thoroughly updated for its Second Edition, this book provides an in-depth discussion on prosthetic restoration of hearing via implantation. The text succinctly discusses the scientific principles behind cochlear implants, examines the latest technology, and offers practical advice on how to assess candidates, how to implant the devices, and what rehabilitation is most effective. The authors thoroughly examine the outcomes of cochlear implantation, the impact on the patient's quality of life, the benefits in relation to the costs, and the implications of cochlear implants for language and speech acquisition and childhood education.
This edited book brings together research from laboratories across the world, offering a global perspective on advances in prosthetic hand control. State-of-the-art control of prosthetics in laboratories and clinical spaces are presented and challenges discussed, and effects of user training on control of prosthetics are also highlighted.