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Sensory stimulation therapy (SST) is an experimental therapy that aims to use neural plasticity mechanisms to aid in the recovery of somatosensory function after stroke or cognitive ageing. Stroke and cognitive ageing are well known sources of cognitive loss, the former by neuronal death , the latter by weakening of neural connections .
The patient missed most of the left hemitongue stimuli on bilateral stimulation, or less frequently wrongly attributed to them the quality of the concurrent right stimulus. Combinations of taste and mechanical stimuli showed an interference of left side stimuli on the perception of right stimuli, suggesting a complex alteration of the central ...
One study looked into the effects of pallesthesia on stroke patients. [3] They theorized that sinusoidal stimulation may be an effective therapy; however, the results were inconclusive. It is rare for current research to use pallesthesia because better methods of testing the sensory system have been developed.
For example, a stroke affecting the right parietal lobe of the brain can lead to neglect for the left side of the visual field, causing a patient with neglect to behave as if the left side of sensory space is nonexistent (although they can still turn left). In an extreme case, a patient with neglect might fail to eat the food on the left half ...
The Copenhagen Stroke Study, which is a large important study published in 2001, showed that out of 618 stroke patients, manual apraxia was found in 7% and oral apraxia was found in 6%. [98] Both manual and oral apraxia were related to increasing severity of stroke.
The Bobath concept is an approach to neurological rehabilitation that is applied in patient assessment and treatment (such as with adults after stroke [1] or children with cerebral palsy [2]). The goal of applying the Bobath concept is to promote motor learning for efficient motor control in various environments, thereby improving participation ...
Nowadays, sensory prosthetic devices, such as visual implants, cochlear implants, auditory midbrain implants, and spinal cord stimulators and also motor prosthetic devices, such as deep brain stimulators, Bion microstimulators, the brain control and sensing interface, and cardiac electro-stimulation devices are widely used.
In order to affect brain (neuronal) activity, sensory stimulation must be within the frequency range of roughly 0.5 to 25 hertz (Hz) [citation needed]. Touch, photic and auditory stimulation are capable of affecting brain wave activity. A large area of skin must be stimulated to affect brainwaves, which leaves both auditory and photic ...