Resumo
Paca (Cuniculus paca Linnaeus, 1766), rodent belong to the Cuniculidae family, has encouraged numerous scientific researches and for this reason could be an experimental model in both human and veterinary areas. And recently, the economic exploitation of the meat cuts, has being direct implication in its zootechnical importance. However, no anatomical descriptions regarding the vascularization of the base of the brain in this rodent has being found. Thus, the aim of the present study was to describe the arteries and the pattern of the vasculature and to compare it with the other species already established in the literature. For this, five pacas, donated by the Unesp Jaboticabal Wildlife Sector, were euthanized followed by the vascular arterial system was injected with red-stained-centrifuged latex by the common carotid artery. After craniectomy, the brains were removed and the arteries were identified and, in addition, compared with those described in other animal species. The presence of the right and left vertebral arteries, close to the medulla oblongata, was detected, originating the basilar artery, which divided into the terminal branches of the right and left basilar artery. Ventral to the optic tract there was the right internal carotid artery and the left, dividing the middle cerebral artery and left rostral and right; dorsal to the optic chiasm, the medial branch of the rostral cerebral arteries was identified. Based on the results, it is concluded that the vascularization of the paca brain base is supplied by the carotid and vertebrobasilar system.(AU)
A paca (Cuniculus paca Linnaeus 1766), roedor da família Cuniculidae, tem encorajado inúmeras pesquisas científicas, tornando-a modelo experimental tanto na área humana quanto na veterinária, além da recente exploração econômica de seus cortes cárneos, que favoreceu diretamente sua importância zootécnica. No entanto, não há até o momento, descrições anatômicas referentes à padronização da vascularização da base do encéfalo neste roedor. Assim, o objetivo do presente trabalho foi realizar tal delineamento arterial nessa região do sistema nervoso central e compará-lo com as demais espécies já estabelecidas na literatura. Para isso, foram eutanasiadas cinco pacas doadas pelo setor de Animais Silvestres da Unesp Jaboticabal, as quais foram submetidas posteriormente à injeção de látex centrifugado e corante líquido xadrez vermelho, pela artéria carótida comum. Após craniectomia e segregação do encéfalo de todos os cadáveres, realizou-se a identificação das artérias presentes na base deste órgão e, ademais, comparação destas com as descritas cientificamente em outras espécies animais. Detectou-se a presença das artérias vertebral direita e esquerda, próximas à medula oblonga, originando a artéria basilar, que se dividiu nos ramos terminais da artéria basilar direito e esquerdo. Ventral ao trato óptico verificou-se a artéria carótida interna direita e esquerda dividindo-se na artéria cerebral média e rostral direita e esquerda; ainda, dorsal ao quiasma óptico, identificou-se o ramo medial das artérias cerebrais rostrais. Com base nos resultados obtidos, conclui-se que a vascularização da base do encéfalo da paca é suprida pelo sistema carotídeo e vertebro-basilar.(AU)
Assuntos
Animais , Encéfalo/irrigação sanguínea , Artérias Cerebrais/anatomia & histologia , Cuniculidae/anatomia & histologiaResumo
Paca (Cuniculus paca Linnaeus, 1766), rodent belong to the Cuniculidae family, has encouraged numerous scientific researches and for this reason could be an experimental model in both human and veterinary areas. And recently, the economic exploitation of the meat cuts, has being direct implication in its zootechnical importance. However, no anatomical descriptions regarding the vascularization of the base of the brain in this rodent has being found. Thus, the aim of the present study was to describe the arteries and the pattern of the vasculature and to compare it with the other species already established in the literature. For this, five pacas, donated by the Unesp Jaboticabal Wildlife Sector, were euthanized followed by the vascular arterial system was injected with red-stained-centrifuged latex by the common carotid artery. After craniectomy, the brains were removed and the arteries were identified and, in addition, compared with those described in other animal species. The presence of the right and left vertebral arteries, close to the medulla oblongata, was detected, originating the basilar artery, which divided into the terminal branches of the right and left basilar artery. Ventral to the optic tract there was the right internal carotid artery and the left, dividing the middle cerebral artery and left rostral and right; dorsal to the optic chiasm, the medial branch of the rostral cerebral arteries was identified. Based on the results, it is concluded that the vascularization of the paca brain base is supplied by the carotid and vertebrobasilar system.(AU)
A paca (Cuniculus paca Linnaeus 1766), roedor da família Cuniculidae, tem encorajado inúmeras pesquisas científicas, tornando-a modelo experimental tanto na área humana quanto na veterinária, além da recente exploração econômica de seus cortes cárneos, que favoreceu diretamente sua importância zootécnica. No entanto, não há até o momento, descrições anatômicas referentes à padronização da vascularização da base do encéfalo neste roedor. Assim, o objetivo do presente trabalho foi realizar tal delineamento arterial nessa região do sistema nervoso central e compará-lo com as demais espécies já estabelecidas na literatura. Para isso, foram eutanasiadas cinco pacas doadas pelo setor de Animais Silvestres da Unesp Jaboticabal, as quais foram submetidas posteriormente à injeção de látex centrifugado e corante líquido xadrez vermelho, pela artéria carótida comum. Após craniectomia e segregação do encéfalo de todos os cadáveres, realizou-se a identificação das artérias presentes na base deste órgão e, ademais, comparação destas com as descritas cientificamente em outras espécies animais. Detectou-se a presença das artérias vertebral direita e esquerda, próximas à medula oblonga, originando a artéria basilar, que se dividiu nos ramos terminais da artéria basilar direito e esquerdo. Ventral ao trato óptico verificou-se a artéria carótida interna direita e esquerda dividindo-se na artéria cerebral média e rostral direita e esquerda; ainda, dorsal ao quiasma óptico, identificou-se o ramo medial das artérias cerebrais rostrais. Com base nos resultados obtidos, conclui-se que a vascularização da base do encéfalo da paca é suprida pelo sistema carotídeo e vertebro-basilar.(AU)
Assuntos
Animais , Encéfalo/irrigação sanguínea , Artérias Cerebrais/anatomia & histologia , Cuniculidae/anatomia & histologiaResumo
We studied the arterial circle in the brain of five specimens of the Alouatta belzebul primate. The material had the arterial system perfused (water at 40°C), injected with stained latex (Neoprene 650), fixed in aqueous formaldehyde solution (10%) and dissected for vessel verification. The arterial circle of this primate is composed of two vascular systems: the vertebra-basilar and the carotid ones, which anastomose to close the arterial circuit. In the caudal portion of the arterial circle, there are the vertebral arteries and their branches: the rostral spinal artery and the caudal inferior cerebellar artery. The anastomosis of the vertebral arteries gives rise to the basilar artery. It presented an anatomical variation at the beginning of its path, forming a double basilar artery, called arterial island. In its course, it emitted branches giving rise to the rostral inferior cerebellar artery, the pontine arteries, the rostral cerebellar arteries, the satellite rostral cerebellar arteries and its terminal branch, the caudal cerebral artery, which presented itself in two segments: the pre-communicating one and post-communicating, joining the internal carotid artery and originating the caudal communicating artery. This group of arteries and anastomoses enclose the caudal portion of the arterial circle. From the right and left internal carotid arteries begins the rostral portion of the arterial circle, which consists of the right and left rostral cerebral arteries and the right and left middle cerebral arteries. The rostral cerebral arteries anastomose into a single trunk, giving rise to the interhemispheric artery, and in A. belzebul and Sapajus libidinosus, the rostral communicating artery is absent. The interhemispheric artery goes to the midbrain region and the corpus callosum knee divides into pericalous artery and callosarginal artery, which will supply the pre and post-central regions of the cerebral hemispheres of this species, as well as other non-human and human primates. It is noted that in the first part of the left rostral cerebral artery, there is a direct inosculation between the recurrent branch of the rostral cerebral artery and left middle cerebral artery to supply the entorhinal region. This fact also occurs in Pongo spp. The middle cerebral artery travels along the lateral sulcus where it emits several superficial branches to irrigate the superior and inferior lateral cortical regions of the frontal, parietal and temporal lobes. It is not part of the arterial circle but is the terminal branch of the internal carotid artery. A. belzebul can be considered to depend on two sources of supply to the brain: the vertebra-basilar and carotid systems, contributing to the intervention of veterinarians during clinical and surgical procedures in other primates, as well as the preservation of wild animals.(AU)
Estudamos o círculo arterial no encéfalo de cinco espécimes do primata Alouatta belzebul. O material teve o sistema arterial perfundido (água a 40°C), injetado com látex corado (Neoprene 650), fixado em solução aquosa de formaldeído (10%) e dissecado para verificação dos vasos. O círculo arterial deste primata é composto por dois sistemas vasculares: vértebro-basilar e o sistema carotídeo, que se anastomosam para fechar o circuito arterial. Na porção caudal do círculo arterial encontra-se as artérias vertebrais e seus ramos: artéria espinal rostral e a cerebelar inferior caudal. A anastomose das artérias vertebrais dá origem a artéria basilar. Esta apresentou uma variação anatômica no início do seu trajeto, formando uma dupla artéria basilar, denominada ilha arterial. Em seu trajeto emitiu ramos dando origem a artéria cerebelar inferior rostral, as artérias pontinas, as artérias cerebelares rostrais, as artérias cerebelares rostrais satélites e o seu ramo terminal, a artéria cerebral caudal, que apresentou-se em dois segmentos: o pré-comunicante e pós-comunicante, unindo-se a artéria carótida interna e originando a artéria comunicante caudal. Este grupo de artérias e anastomoses encerram a porção caudal do círculo arterial. Das artérias carótidas internas direita e esquerda, inicia-se a porção rostral do círculo arterial, ao qual é constituído pelas artérias cerebrais rostrais direita e esquerda e as artérias cerebrais médias direita e esquerda. As artérias cerebrais rostrais se anastomosam em um tronco único dando origem a artéria inter-hemisférica e em A. belzebul e Sapajus libidinosus, a artéria comunicante rostral se encontra ausente. A artéria inter-hemisférica segue para região média do encéfalo e no joelho do corpo caloso se divide em artéria pericalosa e artéria calosomarginal, que vão suprir as regiões pré e pós-central dos hemisférios cerebrais desta espécie, assim como outros primatas não humanos e humano. Nota-se que na primeira parte da artéria cerebral rostral esquerda, ocorre uma inosculação direta entre o ramo recorrente da artéria cerebral rostral e artéria cerebral média esquerda para suprir a região entorrinal, esse fato também ocorre em Pongo spp. A artéria cerebral média segue seu trajeto pelo sulco lateral onde emite vários ramos superficiais para irrigar as regiões corticais supero e ínfero lateral do lobo frontal, parietal e temporal, esta não faz parte do círculo arterial mas é o ramo terminal da artéria carótida interna. Pode-se considerar que A. belzebul depende de duas fontes de suprimento para o encéfalo: os sistemas vértebro-basilar e carotídeo, contribuindo na intervenção de médicos veterinários durante os procedimentos clínicos e cirúrgicos em outros primatas, assim como na preservação de animais silvestres.(AU)
Assuntos
Animais , Encéfalo/irrigação sanguínea , Círculo Arterial do Cérebro/anatomia & histologia , Alouatta/anatomia & histologiaResumo
We studied the arterial circle in the brain of five specimens of the Alouatta belzebul primate. The material had the arterial system perfused (water at 40°C), injected with stained latex (Neoprene 650), fixed in aqueous formaldehyde solution (10%) and dissected for vessel verification. The arterial circle of this primate is composed of two vascular systems: the vertebra-basilar and the carotid ones, which anastomose to close the arterial circuit. In the caudal portion of the arterial circle, there are the vertebral arteries and their branches: the rostral spinal artery and the caudal inferior cerebellar artery. The anastomosis of the vertebral arteries gives rise to the basilar artery. It presented an anatomical variation at the beginning of its path, forming a double basilar artery, called arterial island. In its course, it emitted branches giving rise to the rostral inferior cerebellar artery, the pontine arteries, the rostral cerebellar arteries, the satellite rostral cerebellar arteries and its terminal branch, the caudal cerebral artery, which presented itself in two segments: the pre-communicating one and post-communicating, joining the internal carotid artery and originating the caudal communicating artery. This group of arteries and anastomoses enclose the caudal portion of the arterial circle. From the right and left internal carotid arteries begins the rostral portion of the arterial circle, which consists of the right and left rostral cerebral arteries and the right and left middle cerebral arteries. The rostral cerebral arteries anastomose into a single trunk, giving rise to the interhemispheric artery, and in A. belzebul and Sapajus libidinosus, the rostral communicating artery is absent...(AU)
Estudamos o círculo arterial no encéfalo de cinco espécimes do primata Alouatta belzebul. O material teve o sistema arterial perfundido (água a 40°C), injetado com látex corado (Neoprene 650), fixado em solução aquosa de formaldeído (10%) e dissecado para verificação dos vasos. O círculo arterial deste primata é composto por dois sistemas vasculares: vértebro-basilar e o sistema carotídeo, que se anastomosam para fechar o circuito arterial. Na porção caudal do círculo arterial encontra-se as artérias vertebrais e seus ramos: artéria espinal rostral e a cerebelar inferior caudal. A anastomose das artérias vertebrais dá origem a artéria basilar. Esta apresentou uma variação anatômica no início do seu trajeto, formando uma dupla artéria basilar, denominada ilha arterial. Em seu trajeto emitiu ramos dando origem a artéria cerebelar inferior rostral, as artérias pontinas, as artérias cerebelares rostrais, as artérias cerebelares rostrais satélites e o seu ramo terminal, a artéria cerebral caudal, que apresentou-se em dois segmentos: o pré-comunicante e pós-comunicante, unindo-se a artéria carótida interna e originando a artéria comunicante caudal. Este grupo de artérias e anastomoses encerram a porção caudal do círculo arterial. Das artérias carótidas internas direita e esquerda, inicia-se a porção rostral do círculo arterial, ao qual é constituído pelas artérias cerebrais rostrais direita e esquerda e as artérias cerebrais médias direita e esquerda. As artérias cerebrais rostrais se anastomosam em um tronco único dando origem a artéria inter-hemisférica e em A. belzebul e Sapajus libidinosus, a artéria comunicante rostral se encontra ausente. A artéria inter-hemisférica segue para região média do encéfalo e no joelho do corpo caloso se divide em artéria pericalosa e artéria calosomarginal, que vão suprir as regiões pré e pós-central dos hemisférios cerebrais desta espécie, assim como outros primatas não humanos e humano...(AU)
Assuntos
Animais , Encéfalo/irrigação sanguínea , Círculo Arterial do Cérebro/anatomia & histologia , Alouatta/anatomia & histologiaResumo
Background: The nutria (Myocastor coypus) is a medium-size, semi-aquatic rodent, valued in skin and meat industry. The brain circulation has been well studied in rodents but not in nutria. To understand and compare the phylogenetic development of the arteries of the base of the brain in rodents, this paper aims to describe and systematize these arteries, establishing a standard model and its main variations in nutria.Materials, Methods & Results: Following approval by the Ethics Committee of Federal University of Rio Grande do Sul, thirty nutrias from a commercial establishment authorized by Brazilian Institute of Environment and Natural Resources (IBAMA) were studied. For euthanasia, was applied heparin (10000 U.I for animal), intraperitoneally, and after thirty minutes the animals ware sedated with acepromazine (0.5 mg/kg) and meperidine (20 mg/kg), intramuscularly. After sedation, they were euthanized with thiopental sodium (120 mg/kg) and lidocaine (10 mg/mL), intraperitoneally. The heart was accessed, the cardiac apex was sectioned, the aorta was cannulated via the left ventricle and clamped close to the diaphragm, and the arterial system was washed with saline solution and filled with latex. The animals were submerged in water for latex polymerization, the trunk was sectioned, the skin removed and a bony window was opened in the skull vault. The pieces were fixed in formaldehyde. The brains were removed, and schematic drawings of the arteries from the base of the brain were made for elaboration of the results. The nutrias brain was vascularized by the vertebro-basilar system. The terminal branches of the right and left vertebral artery were anastomosed on the ventral surface of the medulla oblongata, forming the basilar artery, and caudally the ventral spinal artery.[...]
Assuntos
Masculino , Feminino , Animais , Adulto , Artérias Cerebrais/fisiologia , Encéfalo/anatomia & histologia , Encéfalo/irrigação sanguínea , RoedoresResumo
Background: The nutria (Myocastor coypus) is a medium-size, semi-aquatic rodent, valued in skin and meat industry. The brain circulation has been well studied in rodents but not in nutria. To understand and compare the phylogenetic development of the arteries of the base of the brain in rodents, this paper aims to describe and systematize these arteries, establishing a standard model and its main variations in nutria.Materials, Methods & Results: Following approval by the Ethics Committee of Federal University of Rio Grande do Sul, thirty nutrias from a commercial establishment authorized by Brazilian Institute of Environment and Natural Resources (IBAMA) were studied. For euthanasia, was applied heparin (10000 U.I for animal), intraperitoneally, and after thirty minutes the animals ware sedated with acepromazine (0.5 mg/kg) and meperidine (20 mg/kg), intramuscularly. After sedation, they were euthanized with thiopental sodium (120 mg/kg) and lidocaine (10 mg/mL), intraperitoneally. The heart was accessed, the cardiac apex was sectioned, the aorta was cannulated via the left ventricle and clamped close to the diaphragm, and the arterial system was washed with saline solution and filled with latex. The animals were submerged in water for latex polymerization, the trunk was sectioned, the skin removed and a bony window was opened in the skull vault. The pieces were fixed in formaldehyde. The brains were removed, and schematic drawings of the arteries from the base of the brain were made for elaboration of the results. The nutrias brain was vascularized by the vertebro-basilar system. The terminal branches of the right and left vertebral artery were anastomosed on the ventral surface of the medulla oblongata, forming the basilar artery, and caudally the ventral spinal artery.[...](AU)
Assuntos
Animais , Masculino , Feminino , Adulto , Roedores , Artérias Cerebrais/fisiologia , Encéfalo/anatomia & histologia , Encéfalo/irrigação sanguíneaResumo
Objetivou-se descrever e sistematizar as artérias da base do encéfalo. Foram utilizados dez gerbils que se encontravamarmazenados em freezer no laboratório de Morfofisiologia Animal Aplicada da Universidade Federal Rural do Semiárido. Osanimais foram descongelados, incisados na linha mediana para identificação do ventrículo esquerdo, o qual foi perfurado einjetados 3ml de Látex Neoprene 650 na concentração de 20% e no pigmento vermelho. Posteriormente aguardou-se cerca de 1minuto em virtude da polimerização do Látex e logo após foram fixados por imersão em solução aquosa de Formaldeído a 3,7% eapós 72 horas, tiveram os encéfalos removidos da calota craniana para análise de sua superfície ventral. Foi visto que o sistemavertebrobasilar e carótico estiveram presentes em todos os animais analisados, mostrando-se responsável pela vascularizaçãodo encéfalo caudal e rostral, respectivamente. As principais artérias observadas no modelo padrão incluem as ímpares: basilar,espinhal ventral, ramo medial da artéria cerebral rostral e as pares: vertebral, cerebelar caudal, cerebelar média, trigeminal,cerebelar rostral, ramo terminal da basilar, carótida interna, cerebral caudal, hipofisária, cerebral média, cerebral rostral, lateral dobulbo olfatório e etmoidal interna. Conclui-se com base nos resultados que a irrigação da superfície ventral encefálica do gerbilfoi suprida pelos sistemas vertebro-basilar e carótico de forma equivalente, pertencendo assim ao modelo do tipo II. O circuitoarterioso apresentou-se aberto caudalmente e fechado rostralmente, fato que difere do relatado em roedores como capivara,cutia, preá, chinchila e nutria.(AU)
The objective was to describe and systematize the arteries of the base of the brain. Ten gerbils were used, which were stored in afreezer in the Laboratory of Applied Animal Morphophysiology of the Federal Rural Semi-Arid University. The animals were thawed,incised in the midline to identify the left ventricle, which was punctured and injected 3 ml of Latex Neoprene 650 at a concentrationof 20% and red pigment. After about one minute the polymerization of the Latex was delayed and afterwards fixed by immersionin 3.7% aqueous Formaldehyde solution and after 72 hours the brain was removed from the skull cap for analysis of its ventralsurface. It was observed that the vertebro-basilar and carotid system were present in all animals analyzed, being responsible forthe vascularization of the caudal and rostral encephalon, respectively. The main arteries observed in the standard model includethe odd: basilar, ventral spinal, medial branch of the rostral cerebral artery and, the pairs: vertebral, cerebellar caudal, cerebellarmedial, trigeminal, cerebellar rostral, terminal branch of the basilar, internal carotid, caudal cerebral, Pituitary, middle cerebral, rostral,lateral, olfactory and internal ethmoidal. Based on the results, the irrigation of the ventral brain surface of the gerbil was suppliedby the vertebro-basilar and carotic systems in an equivalent way, thus belonging to the type II model. The arterial circuit was opencaudally and closed rostrally, a fact that differs from that reported in rodents such as capybara, agouti, cavy, chinchilla and nutria.(AU)
Assuntos
Animais , Gerbillinae/anormalidades , Gerbillinae/sangue , Artéria Cerebral Anterior/anormalidades , Encéfalo/anormalidadesResumo
Os objetivos deste estudo foram descrever a tipologia do circuito arterial, a craniometria e a morfometria do encéfalo em gatos de ambos os sexos. As dissecções foram realizadas em 50 cadáveres de gatos adultos, 25 machos e 25 fêmeas, com média do comprimento rostro-sacral de 47,9cm e 46,6 cm, respectivamente. Os gatos foram posicionados em decúbito lateral direito e feita uma incisão torácica para remoção da 6ª e 7ª costelas para canulação da porção torácica da aorta. Após fixação com solução de formaldeído a 10% e preenchimento do sistema arterial com solução de látex corado procedeu-se a craniometria, craniotomia, remoção e morfometria dos encéfalos e dissecção para a observação da tipologia dos vasos responsáveis pela formação circuito arterial. Na presente pesquisa foi observado que, os machos apresentaram comprimento total do crânio, comprimento do crânio, largura do crânio e largura da face maior que as fêmeas. As fêmeas apresentaram o maior comprimento da face. Machos apresentaram maior índice da face enquanto que as fêmeas apresentaram maior índice do crânio. Não houve diferença nas medidas do cerebro e cerebelo. As artérias da base do encéfalo estiveram na dependência dos sistemas carótico e vértebro-basilar, responsáveis pela formação do circuito arterial do encéfalo. O padrão vascular encefálico dos gatos apresentou tendência do subtipo 2 alfa ao subtipo 2 beta, e encontrou-se entre os estágios médio e final de seu desenvolvimento filogenético(AU)
The aims of this study were to describe the typology of the arterial circuit of brain, craniometric measures and morphometry ofthe brain in cats of both sexes. The anatomical dissections were performed in 50 cadavers of adult cats, 25 male and 25 female,with a rostrum-sacral length of 47.9 cm and 46.6 cm respectively. After fixed with 10% formaldehyde solution and performing theinjections with latex solution stained with pigment the craniometric measures, craniotomy, morphometry of the brain and dissectionwere made to identify the typology of the arterial circuit. In this study it was observed that males had total length of the skull, skulllength, skull width and face width larger than the females. Females showed the greatest length of the face. Males had higherrates of the face while females had higher rates of the skull. There were no differences in measures of brain and cerebellum. Thearteries of the base of the brain had been in the dependence of the carotid and vertebral-basilar systems, which are responsiblefor the brain arterial circuit formation. The cats brain vascular pattern tended to be from subtype 2 alpha to beta 2 subtype, andconsidered among the middle and final stages of phylogenetic development(AU)
Assuntos
Animais , Gatos , Cefalometria/veterinária , Encéfalo/anatomia & histologia , Crânio/irrigação sanguínea , Artérias Cerebrais , Craniotomia/veterinária , ArtériasResumo
Background: The cerebral arteries constitute the main blood transportation via to the brain and play a fundamental role in the maintenance of normal cerebral activities. There are a few studies about the encephalic irrigation in the wild and exotic species. This study aims to describe and systematize the middle cerebral artery and cerebroethmoidal artery of Meleagris gallopavo, to determine a standard model and territorial area of irrigation, and the main variations in this species.Materials, Methods & Results: For this research, 30 brain with the cervical spinal cord segment of 10 male and 20 female young and adult turkeys (Meleagris gallopavo) were used. Discarded animals were provided from Doux Frangosul breeding center, located in Caxias do Sul city, State of Rio Grande do Sul, Brazil, 2006. Animals were euthanized with T 61, with an intravenous injection. After the removal of the skin, the sternum was removed, the common carotid arteries were cannulated through the brachycephalic trunks. The arterial system of the 30 animals were rinsed with saline solution with heparin and filled with latex colored in red. Animals remained immersed for one hour in running water, and next, the neck was sectioned. Next, a bone window was opened in the skullcap. Pieces were fixed in 20% formaldehyde for seven days, and after this period, the brain was removed from the cranial vault...(AU)
Assuntos
Animais , Artéria Cerebral Média/anatomia & histologia , Osso Etmoide , Encéfalo/irrigação sanguínea , Perus/anatomia & histologiaResumo
Background: The cerebral arteries constitute the main blood transportation via to the brain and play a fundamental role in the maintenance of normal cerebral activities. There are a few studies about the encephalic irrigation in the wild and exotic species. This study aims to describe and systematize the middle cerebral artery and cerebroethmoidal artery of Meleagris gallopavo, to determine a standard model and territorial area of irrigation, and the main variations in this species.Materials, Methods & Results: For this research, 30 brain with the cervical spinal cord segment of 10 male and 20 female young and adult turkeys (Meleagris gallopavo) were used. Discarded animals were provided from Doux Frangosul breeding center, located in Caxias do Sul city, State of Rio Grande do Sul, Brazil, 2006. Animals were euthanized with T 61, with an intravenous injection. After the removal of the skin, the sternum was removed, the common carotid arteries were cannulated through the brachycephalic trunks. The arterial system of the 30 animals were rinsed with saline solution with heparin and filled with latex colored in red. Animals remained immersed for one hour in running water, and next, the neck was sectioned. Next, a bone window was opened in the skullcap. Pieces were fixed in 20% formaldehyde for seven days, and after this period, the brain was removed from the cranial vault...
Assuntos
Animais , Artéria Cerebral Média/anatomia & histologia , Encéfalo/irrigação sanguínea , Osso Etmoide , Perus/anatomia & histologiaResumo
The arterial circuit of the brain is of great importance because it is responsible for vascularization of the brain and this is the main organ of the central nervous system and responsible for receiving and processing information. The species was chosen because it is a mammal belonging to the Xenarthra order and the members of this order are little studied because of the difficulty of access to these animals. To develop this work were studied five specimens of lesser anteater (Tamandua tetradactyla). The material had the arterial system filled with Neoprene latex stained in red, fixed in aqueous solution of 10% paraformaldehyde and dissected for vessels systematization. The encephalon arterial circuit of lesser anteater surrounds the mammillary body, the interpeduncular fossa, tuber cinereum, hypophysis and optic chiasm. The rostral portion of this circuit is characterized by rostral branches of internal carotid arteries and the caudal portion is formed by caudal communicant arteries from internal carotid artery. This animal species had a type II of encephalic irrigation with participation of internal carotid arteries and vertebrobasilar system to formation of arterial circuit.
O circuito arterial do encéfalo é de grande importância, pois é responsável pela vascularização do encéfalo, sendo este o principal órgão do sistema nervoso central e responsável por receber e processar informações. A espécie estudada foi escolhida por tratar-se de um mamífero pertencente à ordem Xenarthra e os integrantes dessa ordem são pouco estudados, devido à dificuldade de acesso a esses animais. Para desenvolver este trabalho, foram estudados cinco espécimes de Tamanduá-mirim (Tamandua tetradactyla). O material teve o sistema arterial injetado com látex Neoprene 650, corado em vermelho e fixado em solução aquosa de Formaldeído 10%, sendo posteriormente dissecados para sistematização dos vasos. O circuito arterial da base do encéfalo do tamanduá-mirim circunda o corpo mamilar, a fossa interpenduncular, o túber cinéreo, a hipófise e o quiasma óptico. A porção rostral desse circuito é caracterizada pelos ramos rostrais das artérias carótidas internas e a porção caudal é constituída pelas artérias comunicantes caudais e ramos caudais da artéria carótida interna. Esta espécie animal apresenta o tipo II de irrigação encefálica no qual existe a participação das artérias carótidas internas e do sistema vértebro-basilar para a formação do circuito arterial.
Resumo
The arterial circuit of the brain is of great importance because it is responsible for vascularization of the brain and this is the main organ of the central nervous system and responsible for receiving and processing information. The species was chosen because it is a mammal belonging to the Xenarthra order and the members of this order are little studied because of the difficulty of access to these animals. To develop this work were studied five specimens of lesser anteater (Tamandua tetradactyla). The material had the arterial system filled with Neoprene latex stained in red, fixed in aqueous solution of 10% paraformaldehyde and dissected for vessels systematization. The encephalon arterial circuit of lesser anteater surrounds the mammillary body, the interpeduncular fossa, tuber cinereum, hypophysis and optic chiasm. The rostral portion of this circuit is characterized by rostral branches of internal carotid arteries and the caudal portion is formed by caudal communicant arteries from internal carotid artery. This animal species had a type II of encephalic irrigation with participation of internal carotid arteries and vertebrobasilar system to formation of arterial circuit.
O circuito arterial do encéfalo é de grande importância, pois é responsável pela vascularização do encéfalo, sendo este o principal órgão do sistema nervoso central e responsável por receber e processar informações. A espécie estudada foi escolhida por tratar-se de um mamífero pertencente à ordem Xenarthra e os integrantes dessa ordem são pouco estudados, devido à dificuldade de acesso a esses animais. Para desenvolver este trabalho, foram estudados cinco espécimes de Tamanduá-mirim (Tamandua tetradactyla). O material teve o sistema arterial injetado com látex Neoprene 650, corado em vermelho e fixado em solução aquosa de Formaldeído 10%, sendo posteriormente dissecados para sistematização dos vasos. O circuito arterial da base do encéfalo do tamanduá-mirim circunda o corpo mamilar, a fossa interpenduncular, o túber cinéreo, a hipófise e o quiasma óptico. A porção rostral desse circuito é caracterizada pelos ramos rostrais das artérias carótidas internas e a porção caudal é constituída pelas artérias comunicantes caudais e ramos caudais da artéria carótida interna. Esta espécie animal apresenta o tipo II de irrigação encefálica no qual existe a participação das artérias carótidas internas e do sistema vértebro-basilar para a formação do circuito arterial.
Resumo
The brains of 30 New Zealand rabbits (Oryctolagus cuniculus) were injected with red stained latex. The arteries of the ventral surface of the brain were systematized on the right (R) and on the left (L) side with the respective percentage of appearance: the aortic arch emitted the braquicephalic trunk and the left subclavian artery (83.3%); or the braquicephalic trunk, the left common carotid artery and the left subclavian artery (16.7%). The braquicephalic trunk emitted the right and the left common carotid arteries and the right subclavian artery (83.3%); or the right common carotid artery and the right subclavian artery (16.7%). The common carotid arteries were divided into external and internal carotid arteries (96.7% on the R, 100% on the L.). The internal carotid artery to the R was present (96.7%) and absent (3.3%), and to the L, was present (100%). The rostral choroidal artery to the R was collateral branch of the rostral branch of the internal carotid artery (83.3%), collateral branch of caudal branch of the internal carotid artery (16.7%), and to the L was collateral branch of the rostral branch of the internal carotid artery (93.3%), collateral branch of the caudal branch of the internal carotid artery (6.7%). The middle cerebral artery to the R and to the L was single (80%) and double (20%). The rostral cerebral artery to the R had middle caliber (90%), thin caliber (6.7%) and too thin caliber (3.3%), and to the L had middle caliber (76.7%), thin caliber (16.7%) and too thin caliber (6.7%). The internal ethmoidal artery was absent (73.3%), present and single (26.7%). The caudal cerebral artery to the R was single (66.7%), double (26.7%) and triple (6.7%), and to the L was single (63.3%) and double (36.7%). The terminal branches of the right and left vertebral arteries were present (100%, and formed the basilar artery (100%). The ventral spinal artery was present (100%). The caudal cerebellar artery, to the R was single (43.3%), single with labyrinthic artery isolated (26.7%) and double (30%), and to the L was single (50%), single with labyrinthic artery isolated (6.7%), double (40%) and triple (3.3%). The trigeminal artery to the R and to the L was present (100%). The rostral cerebellar artery to the R was single (53.3%) and double (46,7%), and to the L was single (63.3%) and double (36.7%). The rabbit's cerebral arterial circle was caudally closed (100%) and rostrally closed (93.3%) or opened (6.7%). The brain was supplied by the vertebral-basilar and carotid systems.(AU)
Foram utilizados 30 encéfalos de coelhos Nova Zelândia (Oryctolagus cuniculus), injetados com látex, corado em vermelho, com objetivo de sistematizar as artérias da base do encéfalo e suas fontes de suprimento sanguíneo. Sistematizou-se a origem das fontes de suprimento sanguíneo para o encéfalo e as artérias (Aa) da face ventral do mesmo, tanto à direita (D) como à esquerda (E), com suas respectivas percentagens de aparecimento: o arco aórtico emitiu tronco braquiocefálico e artéria (A.) subclávia E (83,3%), ou tronco braquiocefálico, A. carótida comum E e A. subclávia E (16,7%). O tronco braquiocefálico lançou A. carótida comum D e E e A. subclávia D (83,3%), ou A. carótida comum D e A. subclávia D (16,7%). A. carótida comum dividiu-se em Aa carótidas externa e interna (96,7% D, 100% E). A. carótida interna D presente (96,7%) e ausente (3,3%), à E presente (100%). A. corióidea rostral D ramo colateral do ramo rostral da A. carótida interna D (83,3%), ramo colateral do ramo caudal da A. carótida interna D (16,7%), à E, ramo colateral do ramo rostral da A. carótida interna E (93,3%), ramo colateral do ramo caudal da A. carótida interna E (6,7%). A. cerebral média D e E ímpar (80%) e dupla (20%). A. cerebral rostral D com calibre médio (90%), calibre fino (6,7%), calibre muito fino (3,3%), à E, com calibre médio (76,7%), calibre fino (16,7%), calibre muito fino (6,7%). A. etmoidal interna ausente (73,3%), presente e ímpar (26,7%). A. cerebral caudal D, ímpar (66,7%), dupla (26,7%) e tripla (6,7%), à E, ímpar (63,3%) e dupla (36,7%). Ramos terminais --das Aa. vertebrais D e E presentes (100%) formaram a A. basilar (100%). A. espinhal ventral ímpar presente (100%). A. cerebelar caudal D, ímpar (43,3%), ímpar com A. labiríntica isolada (26,7%) e dupla (30%), à E, ímpar (50%), ímpar com A. labiríntica isolada (6,7%), dupla (40%) e tripla (3,3%). A. trigeminal D e E presente (100%). A. cerebelar rostral D, ímpar (53,3%) e dupla (46,7%), à E, ímpar (63,3%) e dupla (36,7%). Observou-se que o círculo arterial Cerebral do coelho foi fechado caudalmente (100%), rostralmente fechado (93,3%) e aberto (6,7%). O encéfalo foi suprido pelos sistemas vértebro-basilar e carotídeo.(AU)
Assuntos
Animais , Artérias Cerebrais , Coelhos/classificação , Coelhos/fisiologia , Artéria Subclávia , EncéfaloResumo
Objetivou-se identificar macroscopicamente as regiões do encéfalo, bem como, as arterias cerebrais e o circuito arterioso cerebral, de modo a estabelecer um padrão vascular e sua sistematização, assim como, quantificar sua morfometria e estereologia. Para tanto, foram utilizados 21 encéfalos de emas, sendo 13 fêmeas e 2 machos (idades de 18 meses) e, 4 fêmeas e 2 machos (idades de 2 meses) para o estudo da vascularização e 22 encéfalos, sendo 2 fêmeas e 1 macho (1 mês), 1 fêmea e 2 machos (2 meses), 2 fêmeas e 1 macho (3, 4, 5 e 6 meses) e, 2 fêmeas e 2 machos (18 meses) para as análises de morfometria e estereologia. Os animais foram descongelados e incisados no plano sagital, na região cervical, de modo a expor a artéria carótida comum esquerda, a qual foi canulada e o sistema vascular lavado com solução salina a 0,9%, e logo após, perfundido com látex Neoprene 650, corado com pigmento vermelho, de forma a permitir uma melhor visualização das artérias. Já para o estudo morfométrico e estereológico, as carótidas foram canuladas e perfundidas com cerca de 5-10 ml de formaldeído a 3,7%, a fim de obter a fixação dos encéfalos. Posteriormente, as peças foram imersas em solução aquosa de formaldeído a 3,7%, durante 72 horas, e depois, iniciaram-se as dissecações e remoção dos ossos da calota craniana. Em seguida, os encéfalos foram analisados, sendo as estruturas, identificadas, mensuradas, fotografadas, esquematizadas e nominadas. Quanto à estereologia, os encéfalos foram incluídos em gelatina incolor, mantidos em refrigerador por 24 horas e, posteriormente, obteve-se cortes de 4 mm de espessura. Em seguida, foi removida a gelatina, realizada a coloração de Mainland e efetivada a quantificação do volume cerebral (V= T. a/p. pi). O encéfalo dividiu-se em: telencéfalo, diencéfalo, tronco cerebral e cerebelo e, externamente, observaram-se os bulbos olfatórios, lobos ópticos, nervos ópticos, quiasma óptico, hipófise e pineal. Já quanto ao estudo da vascularização, foram identificadas as artérias: espinhal ventral, basilar, cerebelares ventrais caudais, cerebelares ventrais médias, ramos caudais das artérias carótidas do cérebro, tectais mesencefálicas ventrais, cerebrais caudais, ramos rostrais das artérias carótidas do cérebro, cerebrais médias, cerebroetmoidais, anastomose intercerebral rostral, cerebrais rostrais, etmoidais, oftálmicas internas, inter-hemisférica, hipofisarias, tectais mesencefálicas dorsais, cerebelares dorsais, ramos hemisféricos occipitais, pineais e ramos hemisférios dorsais. O circuito arterioso cerebral apresentou-se de forma fechada, caudalmente e rostralmente em 100% dos espécimes. O encéfalo possuiu mensurações que chegaram até 50,267 mm de comprimento, 41,855 mm de largura, 29,320 mm de altura e 21,774 g de massa. Os lobos ópticos apresentaram valores de comprimento direito (12,647 mm), comprimento esquerdo (12,355 mm), largura direita (11,470 mm), largura esquerda (10,827 mm) e, altura direita (15,495 mm) e altura esquerda (15,122 mm). Já o cerebelo apresentou valores de até 21,462 mm (comprimento), 18,207 mm (largura) e 21,487 mm (altura). Quanto a estereologia do encéfalo, este variou de 33,663 cm³ e 71,971 cm³ (idades de 1-18 meses), respectivamente.
The objective of this study was to identify macroscopically the regions of the brain, as well as the cerebral arteries and the cerebral arterial circuit, in order to establish a vascular pattern and its systematization, as well as to quantify its morphometry and stereology. In order to do so, 21 greater rhea brains were used, 13 females and 2 males (ages 18 months) and 4 females and 2 males (ages 2 months) for the study of vascularization and 22 encephalus, 2 females and 1 male (1 month), 1 female and 2 male (2 months), 2 females and 1 male (3, 4, 5 and 6 months) and 2 females and 2 males (18 months) for morphometry and stereology analyzes. The animals were thawed and incised in the sagittal plane, in the cervical region, in order to expose the left common carotid artery, which was cannulated and the vascular system washed with 0.9% saline, and then perfused with Neoprene latex 650, stained with red pigment, in order to allow a better visualization of the arteries. For the morphometric and stereological study, the carotids were cannulated and perfused with about 5-10 ml of 3.7% formaldehyde in order to obtain the fixation of the brains. Subsequently, the pieces were immersed in aqueous solution of 3.7% formaldehyde for 72 hours, and then, dissections and removal of the bones from the skull cap were initiated. Then, the brains were analyzed, and the structures were identified, measured, photographed, schematized and nominated. As for stereology, the brains were included in colorless gelatin, held in refrigerator for 24 hours, and subsequently cut 4 mm thick. Gelatin was then removed, Mainland stained and quantification of brain volume was performed (V = T. a / p. pi). The brain was divided into: telencephalon, diencephalon, brain stem and cerebellum, and, externally, olfactory bulbs, optic lobes, optic nerves, optic chiasm, pituitary and pineal were observed. Ventral spinal, basilar, ventral cerebellar, mid-ventricular cerebellar, caudal branches of the carotid arteries of the brain, ventral mesencephalic arteries, caudal cerebral arteries, carpal arteries of the brain, middle cerebral arteries , cerebroethmoidal, rostral intercerebral anastomosis, cerebellar rostrais, ethmoidal, internal ophthalmic, interhemispheric, pituitary, dorsal mesencephalic, dorsal cerebellar, occipital, pineal and dorsal hemispherical branches. The cerebral arteriosclerotic circuit was closed, caudally and rostrally in 100% of the specimens. The brain had measurements that reached up to 50.267 mm in length, 41.855 mm in width, 29.320 mm in height and 21.774 g in mass. Optical lobes presented values of right length (12.647 mm), left length (12.355 mm), right width (11.470 mm), left width (10.827 mm) and right height (15.495 mm) and left height (15.112 mm). The cerebellum presented values of up to 21.462 mm (length), 18.207 mm (width) and 21.487 mm (height). As to the stereology of the encephalon, this varied from 33.663 cm³ and 71.971 cm³ (ages 1-18 months), respectively.
Resumo
O cateto (Pecari tajacu), animal de pequeno porte, onívoro e de hábitos diurnos, vive em grupos de até 20 animais em diversas áreas do Brasil, inclusive no nordeste brasileiro. É de fácil adaptação à criação em cativeiro e se destaca em relação ao gado como fonte alternativa de proteína na alimentação humana, além de outras aplicações comerciais, com menor dano ao meio ambiente, pois necessita de uma menor área para sua criação. Por tratar-se de um animal ainda pouco estudado, este trabalho objetivou realizar a craniometria e a morfometria de seu encéfalo, bem como descrever a morfologia encefálica e sua vascularização arterial, em vista ventral. Foram utilizados 14 animais que vieram a óbito por causas naturais. Estes tiveram ambas suas artérias carótidas canuladas e, em seguida, realizou-se a fixação em formaldeído a 10%. Deste total, dez animais foram injetados com solução de látex, devidamente corado, para evidenciação dos vasos sanguíneos. A pele foi rebatida, bem como a musculatura. Foram realizadas as medidas craniométricas. Posteriormente, os encéfalos foram retirados dos crânios para a sua medição, dissecação e descrição. Fotografias foram realizadas para demonstração das estruturas, bem como, após a coleta, montou-se o banco de dados. Na análise estatística dos dados métricos, foi realizado o Teste t de Student não-pareado e o estudo de correlação de Pearson. Dessa forma, observou-se que existe diferença significativa entre o comprimento total da cabeça dos catetos macho e fêmea, bem como no comprimento da face, largura do crânio, largura da face e comprimento do hemisfério cerebral direito, sempre com maiores valores para o macho. Nas fêmeas, o hemisfério cerebral esquerdo apresenta-se mais largo que o direito. Ficou evidenciada uma correlação positiva entre a variável comprimento total da cabeça e a largura do hemisfério cerebral direito, tanto nos machos como nas fêmeas. A relação peso do encéfalo/peso do corpo dos catetos foi, em média, de 0,42%. É um animal girencéfalo, com neocórtex desenvolvido, embora sem evidência de simetria dos sulcos e giros entre os hemisférios cerebrais direito e esquerdo, ou entre os diferentes espécimes. A vascularização arterial da base do encéfalo apresenta-se na forma de circuito fechado, sendo dependente da artéria carótida do encéfalo, de ambos os antímeros, e da artéria basilar, em todos os espécimes analisados. As artérias cerebrais médias variaram de um a três vasos, tendo origem a partir do ramo rostral da carótida do encéfalo. A artéria basilar resulta da confluência das artérias vertebrais de ambos os antímeros com a artéria espinal ventral. Esta espécie tende a enquadrar-se no tipo II, da classificação de De Vriese.
The collared peccary (Pecari tajacu), a small-sized, omnivorous and diurnal animal, lives in groups of up to 20 animals in several areas of Brazil, the Brazilian northeast included. It is easily adapted to captive breeding and stands out in relation to cattle as an alternative protein source for human consumption, in addition to other commercial applications, posing less damage to the environment. Because there is a scarcity of studies addressing this animal, this work aimed to perform craniometry and morphometry of its cranium, as well as to describe the morphology of the encephalon and its arterial vascularization, in ventral view. We used 14 animals that died of natural causes. These had both their carotid arteries cannulated and fixation in 10% formaldehyde was then performed. From that total, ten animals were injected with latex solution, duly stained, in order to make the blood vessels evident. The skin, as well as the musculature, were rebounded. Craniometric measurements were performed. Subsequently, the encephalons were removed from the crania for measurement, dissection and description. Photographs were taken for demonstration of the structures and, after collection, the database was assembled. In the statistical analysis of the metric data, unpaired Student's t-test and Pearsons correlation study were conducted. Thus, a significant difference was observed between the male and female collared peccaries, with regard to the Total Head Length, as well as to the face length, the cranium width, face width, and right cerebral hemisphere length, always with higher values for males. In females, the left cerebral hemisphere is wider than the right one. There was a positive correlation between the variable total head length and the right cerebral hemisphere width, in both males and females. The brain-to-body weight ratio of the collared peccaries was, on average, 0.42%. This is a gyrencephalic animal with a developed neocortex, although without evidence of sulci and gyri symmetry between the right and left cerebral hemispheres, nor between the different specimens. The arterial vascularization of the base of the encephalon is presented as a closed circuit, which is dependent on the carotid artery of the encephalon, both the antimeres, and the basilar artery, in all the analyzed specimens. The middle cerebral arteries ranged from one to three vessels, originating from the rostral branch of the cerebral carotid artery. The basilar artery results from the confluence of the vertebral arteries of both the antimeres and the ventral spinal artery. This species tends to fit into type II, of De Vriese's classification.
Resumo
Estudou-se a morfologia do encéfalo de Nasua nasua - quati, buscando comparar estes achados com outras espécies já descritos. Foram utilizados cinco encéfalos de quatis, provenientes do Criatório Científico (Cecrimpas), Unifeob. Os animais foram eutanásiados de acordo com a legislação (Cobea). Canulou-se a artéria carótida comum e a veia jugular externa sentido cranial, injetou-se solução de látex/bário corado de vermelho na artéria carótida, e solução de látex corado de azul na veia jugular. Em seguida os animais fixados em solução de formaldeído a 10%. O encéfalo tem sua nutrição dependente de quatro artérias, as artérias carótidas internas e as artérias vertebrais direitas e esquerdas. Esses vasos compuseram o circuito basilar e carotídeo que se anastomosam através das artérias cerebrais caudais. Correm na base do encéfalo sob a meninge pia mater.(AU)
The morphology of the brain of coati, Nasua nasua, was studied, to compare the findings with other species described. The brains of five coatis were used, proceeding from the Scientific Breeding School (Cecrimpas), Unifeob. The animals were sacrificed in accordance with the legislation (Cobea). With a needle, the common carotid artery and the external jugular vein was cannulated to cranial direction, injected latex solution stained with colored red barium respectively. Afterwards the animals were fixed in 10% formaldehyde solution. Brain has its dependent nutrition of four arteries, the internal carotid arteries and the right and left vertebral arteries. These vessels had composed the basal and carotid circuits that anastomose through the cerebral arteries volumes. They run in the base of the brain under piamater meninges.(AU)
Assuntos
Animais , Procyonidae/anatomia & histologia , Encéfalo/anatomia & histologia , Dissecação/métodos , Dissecação/veterinária , Artérias Carótidas/anatomia & histologia , Artéria Basilar/anatomia & histologiaResumo
Background: Information on the arterial vascularization of the broad-snouted caimans brain (Caiman latirostris), a specie from the Brazilian fauna, is inexistent and the literature consulted yielded only one description about the development of embryonic circulation and post-birth cerebrovascular alterations in the brain of three caymans. The objective of this study was to describe and systematize the cerebral arterial vascularization of this reptile, by providing a standard irrigation model with its major variations, in addition to determining its territorial vascular areas. Materials, Methods & Results: Thirty heads of male broad-snouted caimans (Caiman latirostris), with the neck segment, were used in the study. Additionally, two whole female and male specimens, with approximately 3 years of age and weighing between 8 to 10 Kg were also used. The animals were sacrificed according to routine slaughterhouse norms. The heads were sectioned at the third cervical vertebra level and the azygos carotid artery was cannulated. The arterial system was washed with 0.9% saline solution and filled with red-colored latex. The pieces were fixed in formaldehyde and the encephalon removed through a window made in the cranial vault, which was followed by removal of the dura mater and dissection of the arteries. The internal carotid arteries displayed an intercarotic anastomosis in the samples examined, continuing rostrally in 100% of the cases, exiting from the skull as the internal ophthalmic artery. The internal carotid arteries divided into a rostral branch and a short caudal branch at the hypophysis level, which continued naturally as the caudal cerebral artery. The rostral branch from both right and left antimeres was shown as a single branch in 86.7% and as double branch in 13.3% of the samples, and it formed the middle cerebral artery network(...)
Assuntos
Animais , Artérias Cerebrais/anatomia & histologia , Jacarés e Crocodilos/anatomia & histologia , Anatomia Comparada , Circulação Cerebrovascular , Répteis/anatomia & histologiaResumo
Background: Information on the arterial vascularization of the broad-snouted caimans brain (Caiman latirostris), a specie from the Brazilian fauna, is inexistent and the literature consulted yielded only one description about the development of embryonic circulation and post-birth cerebrovascular alterations in the brain of three caymans. The objective of this study was to describe and systematize the cerebral arterial vascularization of this reptile, by providing a standard irrigation model with its major variations, in addition to determining its territorial vascular areas. Materials, Methods & Results: Thirty heads of male broad-snouted caimans (Caiman latirostris), with the neck segment, were used in the study. Additionally, two whole female and male specimens, with approximately 3 years of age and weighing between 8 to 10 Kg were also used. The animals were sacrificed according to routine slaughterhouse norms. The heads were sectioned at the third cervical vertebra level and the azygos carotid artery was cannulated. The arterial system was washed with 0.9% saline solution and filled with red-colored latex. The pieces were fixed in formaldehyde and the encephalon removed through a window made in the cranial vault, which was followed by removal of the dura mater and dissection of the arteries. The internal carotid arteries displayed an intercarotic anastomosis in the samples examined, continuing rostrally in 100% of the cases, exiting from the skull as the internal ophthalmic artery. The internal carotid arteries divided into a rostral branch and a short caudal branch at the hypophysis level, which continued naturally as the caudal cerebral artery. The rostral branch from both right and left antimeres was shown as a single branch in 86.7% and as double branch in 13.3% of the samples, and it formed the middle cerebral artery network(...)(AU)
Assuntos
Animais , Jacarés e Crocodilos/anatomia & histologia , Artérias Cerebrais/anatomia & histologia , Circulação Cerebrovascular , Anatomia Comparada , Répteis/anatomia & histologiaResumo
In this study were used 26 brains of adult cats, without sex differentiation and definable race, colored with latex and fixed in formaldehyde aqueous solution. The right and left caudal cerebral arteries were single in 96.1% and 88.4% of the sample, respectively. In 69.2% of the samples on the right side and 80.8% on the left, the caudal cerebral artery fin from the anastomosis behind the caudal branch of the internal carotid artery, with a large contribution, and the basal artery terminal branch. In 88.4% of the samples on the right side and 84.6% on the left, the caudal cerebral artery showed the tectal rostral artery and one caudal branche. The caudal branch forked in two branches that supplied the rostral and caudal colliculis of the quadruplet bodies and formed the choroid plexus of the third ventricle. The tectal rostral artery followed ventrally to the piriform lobe and during his way sent some branches to hippocampus. In the left side, this vessel supplied the dorsal surface of thalamus and contributed to the formation of the choroid plexus of the third ventricle.
Foram estudados 26 encéfalos de gatos, adultos, sem diferenciação de sexo, sem raça definida, corados com látex e fixados por solução aquosa de formaldeído. As artérias cerebrais caudais, direita e esquerda, apresentaram-se únicas em 96,1 e 88,4% dos casos, respectivamente. Em 69,2% dos casos no antímero direito e 80,8% no esquerdo, a artéria cerebral caudal originou-se pela anastomose entre o ramo caudal da artéria carótida interna, com maior contribuição, e o ramo terminal da artéria basilar. Em 88,4% dos casos no antímero direito e em 84,6% no esquerdo, a artéria cerebral caudal originou a artéria tectal rostral e um ramo caudal. O ramo caudal bifurcou-se e vascularizou os colículos rostrais e caudais dos corpos quadrigêmeos e em alguns casos contribuiu na formação do plexo coroide do terceiro ventrículo. A artéria tectal rostral seguiu ventralmente ao lobo piriforme e durante seu trajeto liberou ramos para o hipocampo e, no antímero esquerdo, supriu a superfície dorsal do tálamo, contribuindo para a formação do plexo coroide do terceiro ventrículo.
Resumo
In this study were used 26 brains of adult cats, without sex differentiation and definable race, colored with latex and fixed in formaldehyde aqueous solution. The right and left caudal cerebral arteries were single in 96.1% and 88.4% of the sample, respectively. In 69.2% of the samples on the right side and 80.8% on the left, the caudal cerebral artery fin from the anastomosis behind the caudal branch of the internal carotid artery, with a large contribution, and the basal artery terminal branch. In 88.4% of the samples on the right side and 84.6% on the left, the caudal cerebral artery showed the tectal rostral artery and one caudal branche. The caudal branch forked in two branches that supplied the rostral and caudal colliculis of the quadruplet bodies and formed the choroid plexus of the third ventricle. The tectal rostral artery followed ventrally to the piriform lobe and during his way sent some branches to hippocampus. In the left side, this vessel supplied the dorsal surface of thalamus and contributed to the formation of the choroid plexus of the third ventricle.
Foram estudados 26 encéfalos de gatos, adultos, sem diferenciação de sexo, sem raça definida, corados com látex e fixados por solução aquosa de formaldeído. As artérias cerebrais caudais, direita e esquerda, apresentaram-se únicas em 96,1 e 88,4% dos casos, respectivamente. Em 69,2% dos casos no antímero direito e 80,8% no esquerdo, a artéria cerebral caudal originou-se pela anastomose entre o ramo caudal da artéria carótida interna, com maior contribuição, e o ramo terminal da artéria basilar. Em 88,4% dos casos no antímero direito e em 84,6% no esquerdo, a artéria cerebral caudal originou a artéria tectal rostral e um ramo caudal. O ramo caudal bifurcou-se e vascularizou os colículos rostrais e caudais dos corpos quadrigêmeos e em alguns casos contribuiu na formação do plexo coroide do terceiro ventrículo. A artéria tectal rostral seguiu ventralmente ao lobo piriforme e durante seu trajeto liberou ramos para o hipocampo e, no antímero esquerdo, supriu a superfície dorsal do tálamo, contribuindo para a formação do plexo coroide do terceiro ventrículo.