View clinical trials related to Sensory Integration Dysfunction.
Filter by:The aim of this comparative and reliability study is to highlight a deficit in the use of vibrotactile sensory feedback (haptic effect) in the planning and execution of fine manual dexterity movements after stroke. The investigators will include 3 groups of subjects, 1 group of young healthy subjects, 1 of older subjects matched in age and sex to the group of chronic stroke patients. Participants will take part in clinical tests of fine motor skills and sensitivity and will use a device to assess the key components of manual dexterity, to which vibrotactile sensors will be added. If they so wish, participants will be able to take part in a transcranial magnetic stimulation (TMS) study to assess the facilitation of cortical excitability due to the haptic effect.
The relationship between brain volume and sensory integration in children and adolescence with attention deficit hyperactivity disorder and autistic spectrum disorder; comparative study
Stroke patients have higher levels of visual dependence, which affects orientation, balance and gait. Visual adaption or habituation training aiming to decrease visual sensitivity and tolerance, is commonly used to decrease the levels of visual dependence. However, the visual adaption training often evokes unbearable vertigo, resulting in lower compliance to training program. In addition, stroke patients who have higher visual dependence may not have the symptom of dizziness. Therefore, it is unclear whether visual adaption training has similar effects on stroke patients. Visual dependence is considered as a sensory reweighting deficit and therefore visual dependence could be improved through multisensory balance training which comprises of visual, vestibular, and proprioceptive manipulation. This study will investigate the effects of early multisensory balance training on visual dependence, balance and gait in subacute stroke patients.