New animal model for assessment of functional laryngeal motor innervation.

OBJECTIVES: The functional motor innervation of the larynx is not fully understood because of the complexity of the peripheral neuroanatomy. Since the late 19th century, there has been controversy regarding the role of the superior laryngeal nerve, which may have wider motor projections than are currently acknowledged. The aim of this study was to develop a large animal model to characterize and quantify the functional motor input to the intrinsic laryngeal muscles. METHODS: We performed invasive electrophysiology (evoked electromyography) in normal pigs. RESULTS: The thyroarytenoid, lateral cricoarytenoid, and posterior cricoarytenoid muscles receive dual innervation from both the superior and recurrent laryngeal nerves, whereas the cricothyroid muscle is innervated only by the superior laryngeal nerve. CONCLUSIONS: The dual innervation pattern from both laryngeal nerves supports the concept of a laryngeal nerve plexus. The motor input through the external branch of the superior laryngeal nerve was surprisingly high. The animal model presented here may be used in future investigations of laryngeal reinnervation following nerve injury.

Fresh tympanic membrane perforations heal without significant loss of strength.

HYPOTHESIS: The mechanical and structural properties of the tympanic membrane change after a perforation has healed. BACKGROUND: In previous studies, efforts have been made to enhance the healing process of tympanic membrane perforations. The strength of the healed perforation has been tested with moiré interferometry in gerbils, but in no other species. METHODS: A laser myringotomy was made on 10 Sprague-Dawley rats and 10 CBA mice, and assessments were made after 2 or 4 weeks with moiré interferometry and light and electron microscopy. RESULTS: The mean peak displacement at pressure loads of +350 daPa and of -350 daPa did not differ significantly in the healed perforations as compared with the untouched tympanic membranes. Morphologic assays showed fivefold increased thickness at the site of the perforation due to invaded fibroblasts and extracellular matrix. CONCLUSION: Moiré interferometry was successfully performed in the rat ears, whereas in mouse ears the method was not easily applicable due to technical difficulties. The stress-strain curve of the rat tympanic membrane displays an S-shape. The strength of the spontaneously healed tympanic membrane after myringotomy was not significantly impaired. The site of the perforation became significantly thickened at 2 and 4 weeks post-myringotomy. This information is of clinical importance, because recently closed perforations will be challenged by pressure gradient in everyday life.