Cochlear implantation (CI) is a well-known surgical procedure to rehabilitate patients with severe to profound sensorineural hearing loss. Indications for this surgery have expanded in the last 10 years including bilateral CI. Although CI has been described as a safe procedure with few major complications, it may have an adverse effect on the vestibular functions and produce dizziness. Prevalence of postoperative dizziness varies widely in the literature and is said to affect between 2% - 47%.
The structural and functional integrity of the vestibular system is necessary for maintenance of the complex postural system and adaptation to the environment. The absence of vestibular function is accompanied by poor prognosis and severe limitations in the activities of daily life, such as ambulating in low-light environments or on uneven ground, swimming, driving fast, etc. The exact mechanisms responsible for the postoperative vestibular changes and/or symptoms, but several theories exist. Because of the very anatomic proximity between the auditory and vestibular systems, and their embryologic and physiologic alterations, they may be simultaneously involved in some bodily dysfunctions. This involvement is more frequent in peripheral alterations than in central ones. The lateral wall and the fluid space are breached during cochleostomy. Insertion of electrode array may cause changes in the normal fluid homeostasis of the inner ear, damage to the basilar membrane, osseous spiral lamina and vestibular receptors; utricle, saccule and semicircular canals, surgery-induced inflammation resulting in fibrosis or loss of hair cells, foreign body reaction (labyrinthitis), produce perilymph leakage and alter the pressure in the inner ear. In addition, the electric stimulation of the cochlear implant may cause pathologic changes in the inner ear as a subsequent dysfunction of structures, resulting in vestibular alterations. In previous research, the following vestibular assessments were utilized to determine vestibular injuries after CI: Caloric response, videonystagmography (VNG), vestibular-evoked myogenic potentials (VEMPs), video head impulse test (VHIT), rotatory chair and scleral search coil. Knowledge of vestibular system function before and after CI surgery is important for the satisfactory management of each case. It also helps in the selection of which ear to implant to avoid bilateral vestibular areflexia and can assist in the management of any postoperative vestibular symptoms. So, there are two questions that should be raised when we consider the vestibular function of a patient who will submitted to CI: Is vestibular function present or not? and is the function symmetric?
Study Type
OBSERVATIONAL
Enrollment
40
Head thrust test
Clinical test which assesses vestibuloocular (VOR) function in which examiner briskly rotate patient's head to both sides while patient fixate his eyes on a target and watch for corrective saccades on eye movements.
Time frame: baseline
Bruininks-Oseretsky test of motor proficiency (BOT-2)
Clinical balance test which assesses vestibulospinal (VSR) function, patient stand on a firm surface and on a soft cushion with eyes closed and eye open, a scoring system is obtained for all these balance situations.
Time frame: baseline
Caloric test
Objective test of VOR, includes irrigation of warm and\\or cool water into patient's external auditory canal and measure the resulting nystagmus by a computerized system.
Time frame: baseline
Vestibular evoked myogenic potentials (VEMPs)
Objective test of vestibulocollic (VCR) function which assesses otolithic organs, VEMPs amplitudes and latencies are measured by a computerized system.
Time frame: baseline
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