Structure and concentration of elastic system fibers in the trachea of the rat / Estructura y concentración del sistema de fibras elásticas en la tráquea de la rata

The extracellular matrix is a key element in the tracheal morphology and physiology, both in normal and pathological states, yet little is known regarding its composition and organization. Herein we carried out a detailed study of the morphological organization and volumetric density of elastic system fibers in the trachea of Wistar rats. Six Wistar rats at the age of 45 days were used. The trachea was excised following anesthesia with Thiopental and perfusion through the left ventricle with buffered saline followed by formalin solution. Samples were fixed in formaline, embedded in paraffin, and histologically processed. The elastic system fibers were evaluated at light microscopy by using Weigert's resorcin-fuchsin technique after oxidation with oxone. Morphometric studies were performed by the point-counting method. Quantities were expressed ( percent, mean) as volumetric densities and were determined on 25 random fields for each animal. Elastic system fibers were identified beneath the tracheal mucosa showing mainly a longitudinal profile. There were also some bundles of oblique fibers in this region, forming an irregular network of elastic tissue. Close to the inner surface of the cartilaginous ring, a well defined circular layer is present. The volumetric density of the elastic system fibers in the trachea of Wistar rats is 2.46 +/- 0.99 percent. The data in the present study provides original information regarding the elastic system fibers of the rat trachea, which might be used as a model for studying human major airway morphology. The results reported herein provide the basis for continuous investigations on tracheal extracellular matrix by stereology.

La matriz extracelular es un elemento clave en la morfología y fisiología de la tráquea, tanto en estados normales como patológicos. Sin embargo, poco se sabe acerca de su composición y organización. Se llevó a cabo un estudio detallado de la organización morfológica y la densidad volumétrica de fibras del sistema elástico en la tráquea de ratas Wistar. Se utilizaron seis ratas Wistar edad de 45 días de vida. La tráquea fue extraída después de anestesia con tiopental y la perfusión a través del ventrículo izquierdo con solución salina tamponada seguido de solución de formalina. Las muestras fueron fijadas en formalina e incluidas en parafina y se procesaron histológicamente. Las fibras del sistema elástico fueron evaluadas en microscopía de luz utilizando la técnica de Weigert, resorcina-fucsina después de la oxidación con Oxone. Los estudios morfométricos fueron realizados por el método de conteo de puntos. Las cantidades se expresaron ( por ciento, media) como la densidad volumétrica y se determinaron en 25 campos al azar para cada animal. Las fibras elásticas del sistema fueron identificadas por bajo la mucosa traqueal que muestra principalmente un perfil longitudinal. También se encontraron algunos haces de fibras oblicuas en esta región, formando una red irregular de tejido elástico. Cerca de la superficie interna del anillo cartilaginoso, una capa bien definida circular está presente. La densidad volumétrica de las fibras del sistema elástico en la tráquea de ratas Wistar fue de 2,46 +/- 0,99 por ciento. Los datos del presente estudio proporcionan información inicial sobre las fibras del sistema elástico de la tráquea de rata, que puede ser utilizado como un modelo para el estudio de la morfología de las vías respiratorias humanas. Los resultados reportados en este documento constituyen la base de investigaciones continuas en la tráquea de la matriz extracelular por estereología.

Microscopic anatomy of the lower respiratory system of the African giant pouched rat (Cricetomys gambianus, Waterhouse 1840) / Anatomía microscópica del sistema respiratorio inferior de la rata gigante Africana (Cricetomys gambianus, Waterhouse 1840)

A qualitative and quantitative study, by light microscopy, was undertaken on the lower respiratory system of the African Giant pouched rat. Specifically, the trachea, bronchi and lungs were stained with Haematoxylin and eosin, Alcian blue at a pH of 2.5 and Periodic Acid-Schiff stains. Three cell types were identified in saggital sections of the trachea: the ciliated cells, basal cells and mucous cells. Fibers of the trachealis muscles in the laminar propria separated the underlying cartilages from the basal cells. Mucous cells were visible only in the membranous portion of the trachea and they were predominant in the rostral and caudal portion of the trachea. Lobar bronchi consisted of cuboidal epithelium and a layer of one or two smooth muscle cells and opened into segmental bronchi and respiratory bronchiole. Some tracheal cartilaginous rims stained blue with AB while most glandular cells stained red with PAS. The diameter of respiratory bronchiole, alveoli duct and alveoli were 24.93 µm (+/- 1.27), 21.14 um (+/- 0.66) and 12.95 um (+/- 0.21), respectively. These and other findings were compared with similar report in other rodents.

Se realizó un estudio cualitativo y cuantitativo, mediante microscopía de luz, en el sistema respiratorio inferior de la rata gigante Africana. La tráquea, los bronquios y los pulmones fueron teñidos con hematoxilina y eosina, azul Alcián a pH de 2,5 y ácido periódico de Schiff. Tres tipos de células fueron identificadas en las secciones sagitales de la tráquea: células ciliadas, basales y mucosas. Las fibras del músculo traqueal en la propia laminar separados los cartílagos subyacente de las células basales. las células mucosas son visibles sólo en la porción membranosa de la tráquea y predominan en la parte rostral de la porción caudal de la tráquea. Los bronquios lobares consistían en epitelio cúbico y una capa de una o dos células de músculo liso y abierto en los bronquios y bronquiolos segmentarios respiratorias. Algunos bordes azules cartilaginoso traqueal manchada con AB, mientras que la mayoría de las células glandulares teñido de rojo con PAS. El diámetro de los bronquiolos respiratorios, conductos alveolares y los alvéolos fueron 24,93 m (+/- 1,27), 21,14 m (+/- 0,66) y 12,95 m (+/- 0,21), respectivamente. Estos y otros resultados se compararon con el informe similar en otros roedores.

Anatomy of structures associated with the lower respiratory tract of the gray short-tailed opossum (Monodelphis domestica)

The present study documents the macroscopic anatomy of structures associated with the lower respiratory tract of the gray short-tailed opossum (Monodelphis domestica). Vascularization of lung parenchyma is via the bronchoesophageal artery which originates from the right fourth dorsal intercostal artery. The right and left pulmonary arteries divide into pulmonary lobar arteries which are located dorsal to the lobar bronchi and deliver blood to the lungs. Pulmonary lobar veins are located ventral to the lobar bronchi and return blood from the lungs to the heart. Cranial deep cervical, cranial mediastinal and tracheobronchial lymph nodes are located along the trachea and at he tracheal bifurcation. Sympathetic fibers leave the sympathetic trunks as thoracic splanchnic nerves to reach the lungs. Parasympathetic innervation to the lungs originates from branches of the vagus nerves.

Anatomy of structures associated with the lower respiratory tract of the north american opossum (Didelphis virginiana)

This study documents the macroscopic anatomy of the associated structures of the lower respiratory tract of the North American opossum (Didelphis virginiana). Cranial deep cervical, cranial mediastinal and tracheobronchial lymph nodes drain the lower respiratory tract. Vascularization of the lungs is via the bronchial artery a branch of the bronchoesophageal artery. The bronchial artery divides into right and left bronchial arteries which follow the branches of the bronchial tree. The pulmonary arteries divide into pulmonary lobar arteries which follow the bronchial division. Pulmonary lobar veins from each lobe of the right and left lungs join to form three pulmonary veins (right, left and middle). The three pulmonary veins join to form a commom pulmonary venous trunk that opens into the left atrium of the heart. Sympathetic innervation to the lungs comes from the ipsilateral sympathetic trunks through the mediastinal pleura and pulmonary ligaments as thoracic splanchnic nerves. Parasympathetic innervation to the lungs is via branches from the ipsilateral vagus nerves. The right and left phrenic nerves are formed by components of ventral branches of cervical nerves 2 - 6 which pass through the cervical (C2-C4) and brachial (C5-C6) plexuses.