Ramos colaterais do arco aórtico e suas principais ramificações em nutria (Myocastor coypus) = Collaterals brances of the aortic arch and its main rami in nutria (Myocastor coypus) / Collaterals brances of the aortic arch and its main rami in nutria (Myocastor coypus)

AUTOR(ES)
DATA DE PUBLICAÇÃO

2011

RESUMO

Background: Nutria (Myocastor coypus), also known as Swamp Beaver, is a medium-sized semiaquatic rodent that belongs to the Capromyidae family. Originally from the southernmost part of South America, the species is distributed in several parts worldwide such as Europe and United States, where it has been used for commercial purposes due to the excellent quality of its fur and meat. Information about the nutria morphology is rare. Only a few articles about its abdominal aorta branches can be found, but nothing exists regarding its aortic arch. Consequently, other rodents such as chinchillas, agoutis, guinea pigs capybaras, pacas and rats will be used in the discussion. Therefore, this study aims to obtain morphological information that could justify such discussions in a functional point of view, and that could result in support for a better understanding of the physiology of this animal. Materials, Methods & Results: Thirty-two Myocastor coypus were used in the study, originated from a breeding facility in the town of Caxias do Sul, RS and authorized by IBAMA. The animals were put to sleep by means of an anesthetic overdose administrated intraperitoneally, and kept in formaldehyde for seven days to be subsequently dissected. After having their arterial system flushed with saline solution, the aorta of thirty specimens received an injection containing latex 603 through the left ventricle, for later observation of the arteries of the cranial mediastinal space and neck. Dental resin was injected in two specimens, for subsequent manufacture of molds by means of maceration. Schematic drawings of all parts were made with the help of a magnifying glass, for posterior composition of results. The brachiocephalic trunk and the subclavian artery arose in sequence from the aortic arch of the nutria in 60% of the samples, whereas the brachiocephalic trunk, left common carotid artery and left subclavian artery arose from the arch in 40% of the samples. The branching sequence of the collateral branches of the subclavian arteries showed a great variation, presenting isolated vessels and forming trunks among the arteries identified (according to the tables). The thoracic vertebral, vertebral, internal thoracic, dorsal scapular arteries and the superficial-deep cervical trunk aroused medially from the right subclavian artery towards a lateral direction, as main collateral branches of highest prevalence. On the other hand, the left subclavian artery also gave off the vertebral artery as its first vessel, followed by the internal thoracic and thoracic vertebral arteries, and its last collateral branch was a common trunk between the dorsal scapular artery and the superficial-deep cervical trunk. Discussion: Other rodents in the study presented the same aortic arch sequence as observed in nutrias i.e., the brachiocephalic trunk and the left subclavian artery. But the branches of these main vessels showed remarkable differences, with the formation of several common trunks among the arteries. Additionally, the origin sequence of these vessels was different in the rodents studied. Therefore, the aortic arch of nutrias has two model patterns for its branching. In 60% of the samples, the aortic arch gives off the brachiocephalic trunk and the left subclavian artery as collateral branches. In 40% of the samples, however, the branching sequence is composed of the brachiocephalic trunk, the common left carotid artery and the left subclavian artery.

ASSUNTO(S)

aortic arch aorta torácica artery vascularization vascularizacao arterial roedores rodentia

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