Browsing by Author "Songür E."

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    Modified temporalis muscle transfer for paralytic eyelids
    (Lippincott Williams and Wilkins, 1999) Yoleri L.; Songür E.
    The major problems in paralytic eyelids are the inability to close the eye, lower lid sagging, and epiphora. The upper eyelid is responsible for most of the opening and closing of the eye, whereas a lower eyelid positioned properly against the globe is necessary for collection and flow of the tear fluid. Modification of temporalis muscle transfer, a classic technique, was planned to restore these functions selectively in paralytic eyelids. Twelve unilateral and one bilateral irreversible facial paralysis patients with different degrees of lagophthalmos and ectropion were included. Twice as much muscle mass (in thickness) to the upper eyelid than the lower was taken and passed submuscularly 5 to 6 mm away from the limbus for stronger motion of the upper eyelid, and a thinner muscle mass was passed subcutaneously beneath the lower cilia for longevity of the correction of ectropion and epiphora. Fixation of these strips was performed to the medial canthal ligament and 3 to 4 mm above it. The average duration of follow-up was 35.5 months. Excellent eyelid closure and correction of ectropion and epiphora were achieved with one procedure in all patients without creating a cosmetic deformity.
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    Cross-facial nerve grafting as an adjunct to hypoglossal-facial nerve crossover in reanimation of early facial paralysis: Clinical and electrophysiological evaluation
    (Lippincott Williams and Wilkins, 2001) Yoleri L.; Songür E.; Mavioǧlu H.; Yoleri Ö.
    Reanimation of a spontaneous and synchronous smile, and sufficient depressor mechanism of the lower lip presents a surgical challenge in facial paralysis. Hypoglossal-facial nerve crossover and cross-facial nerve grafting are the best options if the mimetic muscles around the mouth are still viable in patients in whom the facial nerve was sacrificed at the brainstem. Although good muscle tone and facial motion have been obtained by hypoglossal-facial nerve crossover, smile is dependent on conscious tongue movement. Cross-facial nerve grafting provides a voluntary and emotion-driven smile, but requires two coaptation sites, which leads to substantial axonal loss and a long regeneration time. This method was not successful in activating the depressor mechanism. The first stage is the classic "baby-sitting" procedure, in which the bulk of the mimetic muscles was maintained by the rapid reinnervation of the hypoglossal-facial nerve crossover during the regeneration period of the cross-facial nerve graft, and temporalis muscle transfer to the eyelids is performed. During the second stage, the cross-facial nerve graft that used the thickest zygomaticobuccal branch on the healthy side was coapted with the corresponding branches on the paralyzed side. The hypoglossal-facial nerve crossover continued to innervate the depressor muscles. Good spontaneous smile and sufficient depressor mechanism were achieved by cross-facial nerve grafting and hypoglossal-facial nerve crossover respectively, and these techniques are demonstrated by the authors clinically and electrophysiologically.