To the best of our knowledge, this is the first study of GCA algorithm reproducibility in normal, OHT and glaucomatous eyes. The reproducibility of GC-IPL thickness measurements using the Cirrus HD-OCT GCA algorithm was found to be highly satisfactory. GC-IPL thickness may be a promising new OCT parameter for analysis of ganglion cell damage in glaucoma.
Interruption of laryngeal innervation may partially or totally impair respiration, deglutition and phonation--the three basic laryngeal functions. Tucker has developed a principle of muscle-nerve pedicle transfer for laryngeal reinnervation to relieve airway obstruction following bilateral recurrent laryngeal nerve injury. We have applied the principle of reinnervation proposed by Tucker to treat patients not only with airway obstruction, but also with aspiration and impaired phonation due to interruption of laryngeal innervation. There were 23 patients in this study. The functional defects included: voice alteration in 10 patients, airway obstruction in 8 and aspiration, as well as a voice change, in 5. The causes of injury were surgery in 9 patients, trauma in 5, tumor in 3, polio in 1 and a birth defect in 1 patient. No cause of nerve injury could be determined in 4 patients. The technique employed involved selective reinnervation of the laryngeal nerve branches to one or more laryngeal muscle groups; the muscle groups reinnervated were selected so as to overcome the functional defect of each particular patient. The patients have been followed for 6 mo. or longer. The results have been independently evaluated by a speech pathologist and documented by indirect and direct endoscopic observations, as well as by audio and audio-video recordings. In some cases, there was further documentation by cine-fluoro-audio tape recordings, laryngo-pharyngography, laryngeal tomography and pulmonary function studies. The muscle-pedicle transfer technique described by Tucker was found to be useful to correct laryngeal dysfunction in carefully selected cases.
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