Neurovision Rehabilitation Guide is a valuable resource for the health care professional working with patients with visual dysfunction as a consequence of traumatic brain injury and neurological disorders. It covers the concepts of visual dysfunction as well as assessment and step-by-step treatment plans. The guide covers the neurology of visual processing before and after a brain injury. It explains the concepts behind neurovision rehabilitation and how to go about examining and treating the patient’s visual deficits. It also covers the evaluation of visual perceptual deficits and treatment of the traumatic brain injury patient. The guide contains more than 80 vision therapy procedures, with step-by-step instructions as well as sequencing guides for each category of therapy (oculomotor, accommodation, binocular, perceptual).
Neurovision Rehabilitation Guide is a valuable resource for the health care professional working with patients with visual dysfunction as a consequence of traumatic brain injury and neurological disorders. It covers the concepts of visual dysfunction as well as assessment and step-by-step treatment plans. The guide covers the neurology of visual processing before and after a brain injury. It explains the concepts behind neurovision rehabilitation and how to go about examining and treating the patient’s visual deficits. It also covers the evaluation of visual perceptual deficits and treatment of the traumatic brain injury patient. The guide contains more than 80 vision therapy procedures, with step-by-step instructions as well as sequencing guides for each category of therapy (oculomotor, accommodation, binocular, perceptual).
"A compilation of resources for the Neuro Rehab Optometrist and Occupational Therapist to start a Neuro-Visual Rehab Clinic in the mild-moderate TBI outpatient setting"--Provided by publisher.
Providing the information required to understand, advocate for, and supply post-acute vision rehabilitative care following brain injury, Vision Rehabilitation: Multidisciplinary Care of the Patient Following Brain Injury bridges the gap between theory and practice. It presents clinical information and scientific literature supporting the diagnostic
The eighth edition of Introduction to Audiologic Rehabilitation offers a comprehensive exploration of aural rehabilitation spanning across the lifespan. Written in an accessible style for undergraduate students, the text covers the fundamentals, methods of assessment and management, technologies, and contemporary issues for a thorough understanding of audiologic rehabilitation practices. Two chapters focus solely on real-world case studies addressing the needs of children and adults. There are detailed chapters on hearing aids and hearing assistive technologies, cochlear implants, auditory and visual stimuli in communication, language and speech of the deaf and hard of hearing, psychosocial aspects of hearing loss, and more. New to the Eighth Edition: * Discussion of current issues and trending topics including over-the-counter hearing aids * Highlights related to telepractice and teleaudiology * Addition of diversity, equity, and inclusion topics related to hearing health disparities and audiologic rehabilitations Key Features: * Based on a proven model framed within the concepts of the World Health Organization * Authored by leading experts ensuring current, evidence-based information * Emphasis on a multidisciplinary approach, recognizing the collaborative nature of audiologic rehabilitation involving professionals in audiology, speech-language pathology, and related fields * Case studies offer application opportunities across the lifespan * Each chapter includes activities, recommended readings, and websites for additional resources * Visual aids, including figures, tables, and photos enhance student comprehension, particularly for complex topics such as cochlear implants and auditory stimulation * Appendices containing valuable terms, definitions, and additional resources for easy reference
Binocular vision is achieved by five neurovisual systems originating in the retina but varying in their destination within the brain. Two systems have been widely studied: the retino-tectal or retino-collicular route, which subserves an expedient and raw estimate of the visual scene through the magnocellular pathway, and the retino-occipital or retino-cortical route, which allows slower but refined analysis of the visual scene through the parvocellular pathway. But there also exist further neurovisual systems: the retino-hypothalamic, retino-pretectal, and accessory optic systems, which play a crucial role in vision though they are less understood. The retino-pretectal pathway projecting onto the pretectum is critical for the pupillary or photomotor reflex. The retino-hypothalamic pathway projecting onto the suprachiasmatic nucleus regulates numerous behavioral and biological functions as well as circadian rhythms. The accessory optic system targeting terminal lateral, medial and dorsal nuclei through the paraoptic fasciculus plays a role in head and gaze orientation as well as slow movements. Taken together, these neurovisual systems involve 60% of brain activity, thus highlighting the importance of vision in the functioning and regulation of the central nervous system. But vision is first and foremost action, which makes perception impossible without movement. Binocular coordination is a prerequisite for binocular fusion of the object of interest on the two foveas, thus ensuring visual perception. The retino-collicular pathway is sufficient to elicit reflexive eye movements with short latencies. Thanks to its motor neurons, the superior colliculus activates premotor neurons, which themselves activate motor neurons of the oculomotor, trochlear and abducens nuclei. At a higher level, a cascade of neural mechanisms participates in the control of decisional eye movements. The superior colliculus is controlled by the substancia nigra pars reticulata, which is itself gated by subcortical structures such as the dorsal striatum. The superior colliculus is also inhibited by the dorsolateral prefrontal cortex through a direct prefrontotectal tract. Cortical areas are crucial for the triggering of eye movements: the frontal eye field, supplementary eye field, and parietal eye field. Finally the cerebellum maintains accuracy. The focus of the present research topic, entitled Neural bases of binocular vision and coordination and their implications in visual training programs, is to review the most recent findings in brain imaging and neurophysiology of binocular vision and coordination in humans and animals with frontally-placed eyes. The emphasis is put on studies that enable transfer of knowledge toward visual training programs targeting visual field defects (e.g., hemianopia) and binocular functional disorders (e.g., amblyopia).
This practical resource blends the technical and clinical skills and knowledge of hand surgery and hand therapy for the treatment of common medical conditions affecting the upper extremity. Written in an outline format, it covers non-surgical and surgical procedures for these conditions, along with their purpose and rationale. The new edition addresses not only the hand, but also features expanded coverage of the wrist, elbow, and shoulder. Both conservative and postoperative rehabilitation are reviewed, and potential postoperative complications are addressed.
Discover the next frontier in sports training—improving your mental game, no matter your age or experience—and how to become the Playmaker, both in your professional and personal life. Coaches search for it. Parents dream of it. Fans love it. Athletes want it. The playmaker on any sports team possesses it: an elusive, intangible quality combining anticipation, perception, and decision-making skills. This quality raises their game above the competition and allows them to pass when no one else can, anticipate the movement of opponents, avoid costly mental mistakes, and ultimately, hold the team together. Now, for the first time, cognitive science research is revealing the secrets of the playmaker’s keen sense of awareness. Just as tests of speed, strength, and agility have provided a baseline of physiological biomarkers, coaches can now capture cognitive metrics including attention, pattern recognition, anticipation, and the ability to take quick, decisive action during the chaos of competition. The Playmaker’s Advantage is a groundbreaking book that will educate athletes of all ages about this essential creative capability in an accessible, easy to understand method.
The Third Edition of Understanding and Managing Vision Deficits is the go-to resource that will enable occupational therapists to develop a comprehensive understanding of vision, appreciate the various effects vision problems can have on the practice of occupational therapy, and to more effectively manage patients with vision disorders. Understanding and Managing Vision Deficits: A Guide for Occupational Therapists, Third Edition is a unique collaboration from occupational therapists, optometrists, and low vision rehabilitation specialists. Dr. Mitchell Scheiman presents a unique Three Component Model of Vision that includes: Visual integrity: Includes visual acuity (clarity), the optics of the eye, and eye health Visual efficiency skills: Includes focusing, eye teaming, and eye movements Visual information processing skills: Includes the ability to analyze, interpret and respond to visual information A major emphasis of the new edition is on management of eye movement, visual information processing, visual field, and low vision problems. Therapy suggestions have been expanded and the use of computer software has been incorporated into the therapy. Some Additional Chapter Topics Include: Visual problems associated with learning disorders Visual problems associated with acquired brain injury Management of vision problems for children with special needs Low vision Features of the Third Edition: Updated figures, research, and references Incorporates current American Occupational Therapy Association Practice Framework Glossary of key terms Appendices that include a vision screening report form and low vision supplies and equipment Understanding and Managing Vision Deficits: A Guide for Occupational Therapists, Third Edition will continue to bring the professions of occupational therapy and optometry together and will guide health care professionals to provide the ultimate in patient care.
Mild traumatic Brain Injury (mTBI or Concussion) is an increasingly common public health issue in sports, military environments, and life in today's active world. Despite a great deal of study and public attention to this disorder, knowledge about optimal diagnostic, prognostic, and treatment information remains lacking. Neurosensory symptoms have been shown to be the most frequent complications of mTBI in both the acute and chronic setting. Neurosensory Disorders in Mild Traumatic Brain Injury brings together both the basic science work as well as the clinical work in mTBI into one volume to provide a comprehensive examination of the neurosensory issues associated with this disorder. Coverage includes chapters on defining mild Traumatic Brain Injury, neurosensory consequences, neurosensory disorders in clinical practice, and diagnosis and treatment for neurosensory disorders in mTBI. This book is written for clinicians, researchers, residents and students in neurology and neuroscience. - Provides a comprehensive examination of the neurosensory issues associated with mild Traumatic Brain Injury and concussion - Brings together both the basic science work and the clinical work in mTBI into a single volume - Helps clinicians understand the best diagnosis and treatment paths and puts current research into perspective for researchers
