Your search keyword '"Almeida, Anthony"' showing total 1 results

1. Assessment of Canine Vocal Fold Function After Injection of a New Biomaterial Designed to Treat Phonatory Mucosal Scarring.

Author

Karajanagi, Sandeep S., Lopez-Guerra, Gerardo, Hyoungshin Park, Kobler, James B., Galindo, Marilyn, Aanestad, Jon, Mehta, Daryush D., Kumai, Yoshihiko, Giordano, Nicholas, d'Almeida, Anthony, Heaton, James T., Langer, Robert, Herrera, Victoria L. M., Faquin, William, Hillman, Robert E., and Zeitels, Steven M.

Subjects

POLYETHYLENE glycol, PHARMACEUTICAL gels, ANIMAL experimentation, DOGS, LARYNX, MAGNETIC resonance imaging, MUCOUS membranes, RESEARCH funding, VIBRATION (Mechanics), VOCAL cords, HUMAN voice, THERAPEUTICS

Abstract

Objectives: Most cases of irresolvable hoarseness are due to deficiencies in the pliability and volume of the superficial lamina propria of the phonatory mucosa. By using a US Food and Drug Administration-approved polymer, polyethylene glycol (PEG), we created a novel hydrogel (PEG30) and investigated its effects on multiple vocal fold structural and functional parameters. Methods: We injected PEG30 unilaterally into 16 normal canine vocal folds with survival times of 1 to 4 months. Highspeed videos of vocal fold vibration, induced by intratracheal airflow, and phonation threshold pressures were recorded at 4 time points per subject. Three-dimensional reconstruction analysis of 11.7 T magnetic resonance images and histologie analysis identified 3 cases wherein PEG30 injections were the most superficial, so as to maximally impact vibratory function. These cases were subjected to in-depth analyses. Results: High-speed video analysis of the 3 selected cases showed minimal to no reduction in the maximum vibratory amplitudes of vocal folds injected with PEG30 compared to the non-injected, contralateral vocal fold. All PEG30-inject- ed vocal folds displayed mucosal wave activity with low average phonation threshold pressures. No significant inflammation was observed on microlaryngoscopic examination. Magnetic resonance imaging and histologie analyses revealed time-dependent résorption of the PEG30 hydrogel by phagocytosis with minimal tissue reaction or fibrosis. Conclusions: The PEG30 hydrogel is a promising biocompatible candidate biomaterial to restore form and function to deficient phonatory mucosa, while not mechanically impeding residual endogenous superficial lamina propria. [ABSTRACT FROM AUTHOR]

Published

2011