Origem e principais ramificações das artérias mesentéricas cranial e caudal em avestruz (Struthio camelus Linnaeus, 1758) / Origin and main ramifications of the cranial and caudal mesenteric arteries in ostrich (Struthio camelus Linnaeus, 1758)

As artérias mesentéricas das aves são importantes para a irrigação do aparelho digestório e encontram-se associadas ao ganho de peso e conversão alimentar. Objetivou-se descrever as origens, esqueletopias, medidas e principais ramificações das artérias mesentéricas cranial e caudal em avestruzes. Foram utilizados 41 cadáveres de filhotes de avestruzes, 23 machos e 18 fêmeas, obtidos de um criadouro após morte natural. Os cadáveres foram fixados com formaldeído a 10% e tiveram o sistema vascular preenchido com Petrolatex® S-65 colorido. As artérias mesentéricas, cranial e caudal e seus ramos proximais foram dissecados "in situ" e medidas com paquímetro digital. A artéria mesentérica cranial teve comprimento médio de 3,68 ± 1,04 cm e surgiu da aorta descendente ao nível da oitava vértebra torácica na maioria dos casos. Ramificou-se em artérias jejunal e ileocecal. A artéria jejunal ofereceu média de 14,04 ±2,08 ramos ao jejuno e a artéria ileocecal originou um ramo retal e outro que se bifurcou para derivar ramos para íleo, ceco e reto. Em um espécime macho a artéria ileocecal foi ramo da artéria celíaca. A artéria mesentérica caudal originou-se na porção terminal da aorta descendente predominantemente ao nível das 4ª e 6ª vértebras sacro-caudais. Perto da extremidade caudal do rim emitiu os ramos cranial e caudal. O primeiro irrigou o reto e anastomosou-se com ramo retal da artéria mesentérica cranial; o segundo irrigou a porção final do reto, cloaca e bolsa cloacal. Não houve diferença significativa (p<0,05) entre as medidas, esqueletopia e número de ramificações das artérias entre os sexos.(AU)

The mesenteric arteries of birds are important for the irrigation of the digestive tract and are associated with weight gain and food conversion. This study aimed to describe the origins, skeletopy, measures and main branches of cranial and caudal mesenteric arteries in ostriches. Forty-one cadavers of ostrich chicks, 23 males and 18 females, obtained from a farmer after natural death. The cadavers were fixed with 10% formaldehyde solution and their vascular system was filled with colored Petrolatex® S-65. The cranial and caudal mesenteric arteries and its proximal branches were dissected in situ and measured with a digital caliper. The mesenteric artery had an average length of 3.68cm±1.04 and emerged from the descending aorta at the level of the eighth thoracic vertebra in most cases; it branched into jejunal and ileocecal arteries. The jejunal artery sent a mean of 14 (14.04±2.08) branches to the jejunum. The ileocecal artery sent a rectal branch and another branch that irrigated ileum, cecum and rectum. In a male specimen the ileocecal artery was originated from the celiac artery. The caudal mesenteric artery emerged in the terminal portion of the descending aorta predominantly at the level of the 4th and 6th sacrocaudal vertebrae. Near the caudal end of the kidney it issued the cranial and caudal branches. The first irrigated the rectum and anastomosed with the rectal branch of the cranial mesenteric artery; the second irrigated the final part of the rectum, cloaca and cloacal bursa. There was no significant difference (p<0.05) between measurements, skeletopy and number of branches of the arteries between genders.(AU)

Origem e principais ramificações das artérias mesentéricas cranial e caudal em avestruz (Struthio camelus Linnaeus, 1758) / Origin and main ramifications of the cranial and caudal mesenteric arteries in ostrich (Struthio camelus Linnaeus, 1758)

The mesenteric arteries of birds are important for the irrigation of the digestive tract and are associated with weight gain and food conversion. This study aimed to describe the origins, skeletopy, measures and main branches of cranial and caudal mesenteric arteries in ostriches. Forty-one cadavers of ostrich chicks, 23 males and 18 females, obtained from a farmer after natural death. The cadavers were fixed with 10% formaldehyde solution and their vascular system was filled with colored Petrolatex® S-65. The cranial and caudal mesenteric arteries and its proximal branches were dissected in situ and measured with a digital caliper. The mesenteric artery had an average length of 3.68 cm±1.04 and emerged from the descending aorta at the level of the eighth thoracic vertebra in most cases; it branched into jejunal and ileocecal arteries. The jejunal artery sent a mean of 14 (14.04±2.08) branches to the jejunum. The ileocecal artery sent a rectal branch and another branch that irrigated ileum, cecum and rectum. In a male specimen the ileocecal artery was originated from the celiac artery. The caudal mesenteric artery emerged in the terminal portion of the descending aorta predominantly at the level of the 4th and 6th sacrocaudal vertebrae. Near the caudal end of the kidney it issued the cranial and caudal branches. The first irrigated the rectum and anastomosed with the rectal branch of the cranial mesenteric artery; the second irrigated the final part of the rectum, cloaca and cloacal bursa. There was no significant difference (p<0.05) between measurements, skeletopy and number of branches of the arteries between genders.(AU)

As artérias mesentéricas das aves são importantes para a irrigação do aparelho digestório e encontram-se associadas ao ganho de peso e conversão alimentar. Objetivou-se descrever as origens, esqueletopias, medidas e principais ramificações das artérias mesentéricas cranial e caudal em avestruzes. Foram utilizados 41 cadáveres de filhotes de avestruzes, 23 machos e 18 fêmeas, obtidos de um criadouro após morte natural. Os cadáveres foram fixados com formaldeído a 10% e tiveram o sistema vascular preenchido com Petrolatex® S-65 colorido. As artérias mesentéricas, cranial e caudal e seus ramos proximais foram dissecados "in situ" e medidas com paquímetro digital. A artéria mesentérica cranial teve comprimento médio de 3,68 ± 1,04 cm e surgiu da aorta descendente ao nível da oitava vértebra torácica na maioria dos casos. Ramificou-se em artérias jejunal e ileocecal. A artéria jejunal ofereceu média de 14,04 ±2,08 ramos ao jejuno e a artéria ileocecal originou um ramo retal e outro que se bifurcou para derivar ramos para íleo, ceco e reto. Em um espécime macho a artéria ileocecal foi ramo da artéria celíaca. A artéria mesentérica caudal originou-se na porção terminal da aorta descendente predominantemente ao nível das 4ª e 6ª vértebras sacro-caudais. Perto da extremidade caudal do rim emitiu os ramos cranial e caudal. O primeiro irrigou o reto e anastomosou-se com ramo retal da artéria mesentérica cranial; o segundo irrigou a porção final do reto, cloaca e bolsa cloacal. Não houve diferença significativa (p < 0,05) entre as medidas, esqueletopia e número de ramificações das artérias entre os sexos.(AU)

Techniques for anatomical preparation of dried viscera and angioarchitecture of cranial mesenteric artery branching of dogs and cats / Técnicas anatômicas de preparação de vísceras secas e de angioarquitetura para visualização da ramificação da artéria mesentérica cranial em cães e gatos

Background: The study of the arterial vascularization of the abdominal cavity viscera is essential on the process of learning anatomy. For authors, various anatomical techniques can be used for the preservation of structures, allowing the exploration and visualization of the organs shape in many different ways. Among the techniques there is the angioarchitecture of viscera, with or without the utilization of formaldehyde. The aim of this paper is to describe a technique for anatomical preparation of the intestines (small and large) of dogs and cats using dried viscera and angioarchitecture, to facilitate the study and visualization of the cranial and caudal mesenteric arteries branching.Materials, Methods & Results: Twenty pieces of intestine of dogs and two of cats were used. The intestine was removed from the duodenum to the cranial portion of the rectum, the root of the mesentery was sectioned as well as the cranial and caudal mesenteric arteries. The part was washed, then the caudal and cranial mesenteric and pancreaticoduodenal arteries were ligated, latex was injected in the cranial mesenteric artery and the sample remained immersed in a 10% acetic acid aqueous solution. The cranial portion of the rectum was ligated and, through a cannula into the duodenum, air was insufflated until the viscera were distended. Following that, the part was positioned and fixed, exposed...(AU)

Techniques for anatomical preparation of dried viscera and angioarchitecture of cranial mesenteric artery branching of dogs and cats / Técnicas anatômicas de preparação de vísceras secas e de angioarquitetura para visualização da ramificação da artéria mesentérica cranial em cães e gatos

Background: The study of the arterial vascularization of the abdominal cavity viscera is essential on the process of learning anatomy. For authors, various anatomical techniques can be used for the preservation of structures, allowing the exploration and visualization of the organs shape in many different ways. Among the techniques there is the angioarchitecture of viscera, with or without the utilization of formaldehyde. The aim of this paper is to describe a technique for anatomical preparation of the intestines (small and large) of dogs and cats using dried viscera and angioarchitecture, to facilitate the study and visualization of the cranial and caudal mesenteric arteries branching.Materials, Methods & Results: Twenty pieces of intestine of dogs and two of cats were used. The intestine was removed from the duodenum to the cranial portion of the rectum, the root of the mesentery was sectioned as well as the cranial and caudal mesenteric arteries. The part was washed, then the caudal and cranial mesenteric and pancreaticoduodenal arteries were ligated, latex was injected in the cranial mesenteric artery and the sample remained immersed in a 10% acetic acid aqueous solution. The cranial portion of the rectum was ligated and, through a cannula into the duodenum, air was insufflated until the viscera were distended. Following that, the part was positioned and fixed, exposed...