ways across the retina, incoming visual signals are altered and informational pathways in the brain are changed, thereby enhancing spatial awareness, cognition, and perception.
Recent technological innovation supports neuro-optometric approaches. New instruments can quantify subtle changes in eye movements, such as video pupillometers and computerized testing batteries for brain-injured patients or individuals diagnosed as autistic.
Use of therapeutic BrainwearTM eyeglasses to modulate the frequency, amount, and direction of light on the retina allows neuro-optometric rehabilitation to accelerate recovery from brain injury or chronic stress levels. It can provide improvement in patient comfort and patient tolerance ranges to environmental changes. It can also decrease hypersensitivity to sensory stimuli as is demonstrated in patients with brain injury, developmental disabilities, mental illnesses, and PTSD.
The classic use of optometric techniques to sharpen central eyesight to 20/20 impacts a patient’s attention at a conscious level, with high-contrast, non-moving targets. This approach is difficult in patients with neurodegenerative conditions or the fragile connections between external and internal systems as occurs in PTSD. To help these patients, it is important to understand the linkage between the eyes and ears and how the lenses are actually shrinking or expanding or distorting surrounding space, thus affecting behavior.
Neuro-optometric rehabilitation is different from classic visual therapy because it addresses the brainstem and unconscious, subcortical reactions to environmental stimuli. Therapeutic retinal stimulation to establish new pathways, and re-balance sensory systems can be readily and inexpensively applied using modern therapeutic
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