ABSTRACT
The vocal muscle is a striated muscle with important functions in the emission of laryngeal sound and physiology of the voice. Therefore the knowledge of its constitution is the basis for the prevention and management of voice disorders. We used 10 samples from the middle third of vocal muscles obtained from autopsies of 6 male and 4 female subjects aged between 36 and 71 years. The samples were analyzed with BA-F8 monoclonal antibody to slow type I fibers, and antimyosin HC monoclonal antibody and antimyosin fast clone MY-32 antibody for types IIA, IIB, IIX, and neonatal fibers. We determined the distribution of the muscle fiber types and morphometric characteristics, evaluating the differences by sex and age group. The human vocal muscle presented a heterogeneous formation with a predominance of type II fibers at 51.99 percent, while type I fibers reached 48.01 percent; this difference was significant (p <0.05). Comparing fiber subtypes IIA and IIX, there is a slight predominance of type IIX fibers, although this is not statistically significant (p>0.05). In conclusion, the human vocal muscle the fibers were predominantly type II fast.
El músculo vocal es un músculo estriado con importantes funciones en la emisión del sonido laringeo y fisiología de la voz. Por ello el conocimiento de su constitución sirve de base para la prevención y manejo de los trastornos vocales. Se realizó un estudio morfométrico e inmunohistoquímico de músculo vocal humano. Se utilizaron 10 muestras del tercio medio del músculo vocal obtenidas de necropsias, 6 de individuos de sexo masculino y 4 femenino, con edades de entre 36 y 71 años. Las muestras fueron analizadas con anticuerpos monoclonales antimyosin skeletal slow BA-F8 para fibras tipo I y antimyosin skeletal fast HC y MY-32 para fibras tipo IIA, IIB, IIX y neonatal. Se determinó la distribución de los distintos tipos de fibras musculares y sus características morfométricas, evaluándose las diferencias por sexo y grupo etáreo. El músculo vocal humano presentó una constitución heterogénea con predominio de fibras tipo II con un 51,99 por ciento, mientras que las tipo I alcanzaron el 48,01 por ciento, estas diferencias resultaron significativas (p<0,05). Al comparar los subtipos de fibras IIA y IIX, se observa un leve predominio de las fibras IIX, aunque no significativo estadísticamente (p>0,05). No se encontraron diferencias en cuanto a los diámetros mayor y menor de las fibras ni en la constitución del músculo por sexo o grupo etáreo. Se concluye que en el músculo vocal humano predominan las fibras musculares rápidas tipo II.
Subject(s)
Humans , Male , Female , Adult , Middle Aged , Muscle Fibers, Skeletal/metabolism , Laryngeal Muscles/anatomy & histology , Laryngeal Muscles/metabolism , Vocal Cords/anatomy & histology , Vocal Cords/metabolism , Cadaver , Cross-Sectional Studies , Immunohistochemistry , Myosin Type I/metabolism , Myosin Type II/metabolism , Sex CharacteristicsABSTRACT
PURPOSE: Radiotherapy for head and neck cancer does not impair the voice quality as much as laser treatment or surgery, but it can induce muscle wasting and fibrosis and symptoms of dry mouth. We investigated the effect of irradiation on the myosin heavy chain (MyHC) expression in laryngeal muscles. MATERIALS AND METHODS: Rats were irradiated with one dose of 10, 15, 20, 25, 30, or 35 Gy and other rats were irradiated with 20 Gy. The thyroarytenoid (TA), posterior cricoarytenoid (PCA), and cricothyroid (CT) muscles were subjected to reverse transcription-polymerase chain reaction (RT-PCR). RESULTS: Two weeks after irradiation with 10, 15, or 20 Gy, all the MyHC type expressions had decreased in a dose-dependent manner in the TA, PCA, and CT muscles, and especially the expression of MyHC IIa decreased much more than the expressions of the other MyHC isoforms in all muscles. In the 20 Gy-irradiated rats, almost all the MyHC isoform expressions declined over 12 weeks in the TA, PCA, and CT muscles, except for the MyHC I expression in the PCA and CT muscle. The MyHC IIa expression was markedly decreased in all the muscles. CONCLUSION: The laryngeal muscles responded differently to radiation, but they showed a time-dependent and long-lasting decrease in the expressions of all the MyHC isoforms in the TA, PCA, and CT muscles. In particular, the expression of the MyHC IIa isoform in all the muscles may be more sensitive to irradiation than the expressions of the other MyHC isoforms.