Your search keyword '"encéfalo"' showing total 10 results

1. Gross and histopathological pitfalls found in the examination of 3,338 cattle brains submitted to the BSE surveillance program in Brazil.

Author

Rech, Raquel R., Giaretta, Paula R., Brown, Corrie, and Barros, Claudio S. L.

Abstract

Copyright of Pesquisa Veterinaria Brasileira is the property of Colegio Brasileiro de Patologia Animal - CBPA and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

2. Brain parenchymal changes during normal aging in domestic cats.

Author

Babicsak, Viviam R., Klein, Adriana V., Tsunemi, Miriam H., and Vulcano, Luiz C.

Abstract

Copyright of Pesquisa Veterinaria Brasileira is the property of Colegio Brasileiro de Patologia Animal - CBPA and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

3. Neoplasias encefálicas em 40 cães: aspectos, clínico-epidemiológicos e patológicos.

Author

Chaves, Rafael O., Feranti, João P. S., Copat, Bruna, Ripplinger, Angel, França, Raqueli T., Kommers, Glaucia D., Fighera, Rafael A., and Mazzanti, Alexandre

Abstract

Copyright of Pesquisa Veterinaria Brasileira is the property of Colegio Brasileiro de Patologia Animal - CBPA and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

4. Bovine central nervous system development.

Author

Ferreira, Amanda O., Vasconcelos, Bruno G., Favaron, Phelipe O., Santos, Amilton C., Leandro, Rafael M., Pereira, Flávia T. V., Maria, Durvanei A., and Miglino, Maria Angélica

Abstract

Copyright of Pesquisa Veterinaria Brasileira is the property of Colegio Brasileiro de Patologia Animal - CBPA and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

5. Vascularização da base do encéfalo de Alouatta belzebul

Author

Dayane Kelly Sabec-Pereira, Valcinir Aloisio Scalla Vulcani, Fabiana Cristina Silveira Alves de Melo, Fabiano Campos Lima, Kleber Fernando Pereira, and Fabiano R. Melo

Subjects

círculo arterial, General Veterinary, Veterinary medicine, sistema carotídeo, Vascularization, neotropical primate, arterial circle, 030204 cardiovascular system & hematology, Biology, biology.organism_classification, 03 medical and health sciences, 0302 clinical medicine, 030228 respiratory system, Alouatta belzebul, Evolutionary biology, SF600-1100, carotid system, base do encéfalo, Base (exponentiation), brain base, Vascularização, encéfalo, primata neotropical

Abstract

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. RESUMO: 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.

Published

2020

6. Neoplasmas envolvendo o sistema nervoso central de cães: 26 casos (2003-2011).

Author

Santos, Rosmarini P., Fighera, Rafael A., Beckmann, Diego V., Brum, Juliana S., Ripplinger, Angel, Neto, Dakir P., Baumhardt, Raquel, and Mazzanti, Alexandre

Published

2012

7. Frequência da artéria caroticobasilar em equinos mestiços: estudo anatômico destinado a pesquisa experimental e ao diagnóstico por imagem.

Author

Paiva de Souza, Ana Virgilia, Xavier-Silva, Bárbara, Antunes, Marcelo Soares, Farias Hernandez, José Miguel, Scherer, Paulo Oldemar, and Abidu-Figueiredo, Marcelo

Published

2010

8. Imagem por ressonância magnética na investigação da cabeça de cães.

Author

Hage, Maria Cristina F. N. S., Iwasaki, Masao, Rabbani, Said R., Kamikawa, Lilian, Cervantes, Hernan J. R., Bombonato, Pedro P., Sterman, Franklin A., and Otaduy, Maria C. G.

Published

2010

9. Neoplasias encefálicas em 40 cães: aspectos clínico-epidemiológicos e patológicos

Author

Glaucia D. Kommers, Raqueli T. França, Angel Ripplinger, R. O. Chaves, João Pedro Scussel Feranti, Alexandre Mazzanti, Rafael A. Fighera, and Bruna Copat

Subjects

dogs, lcsh:Veterinary medicine, clinics, General Veterinary, neurologia, 040301 veterinary sciences, neurology, neoplasms, Brain, 04 agricultural and veterinary sciences, 030204 cardiovascular system & hematology, tumores intracranianos, Neoplasias, doenças de cães, 0403 veterinary science, caninos, 03 medical and health sciences, clínica, 0302 clinical medicine, lcsh:SF600-1100, pathology, encéfalo, intracranial tumors, patologia

Abstract

RESUMO: Foi realizado um estudo retrospectivo de cães atendidos no Serviço de Neurologia (SN) do Hospital Veterinário Universitário (HVU), de 2006 a 2015, com o objetivo de identificar cães com neoplasias encefálicas e obter informações a respeito da raça, do sexo, da idade, dos sinais neurológicos, da localização, da evolução clínica, do tipo e origem do tumor e dos achados de exames complementares e de necropsia. Dos 40 cães com neoplasias encefálicas incluídos neste estudo, 67,5% foram classificadas como de origem primária. Cães sem raça definida e Boxers foram os mais acometidos. Os principais sinais clínicos observados incluíram crise epiléptica, alteração de comportamento e andar em círculo. A região tálamo-cortical foi a mais afetada. Quanto ao tipo do tumor, o meningioma (32,5%) e o oligodendroglioma (12,5%) foram os mais encontrados. A evolução dos sinais clínicos variou entre quatro e 210 dias (média de 44 dias). ABSTRACT: A retrospective study including dogs with brain neoplasms was conducted at the Service of Neurology (SN) of the Veterinary Teaching Hospital, from 2006 to 2015, with the objective to identify and characterize breed, sex, age, neurological signs, the location, the clinical evolution, the type and origin of the tumor and the findings of complementary examinations and necropsy. Of the 40 dogs with brain tumors included in this study 67.5% were classified as primary origin. Mixed breed dogs and Boxers were the most affected. The main clinical signs observed included seizures, behavioral changes and walk in circle. The thalamus-cortex region was the most affected. Regarding the type of the tumor, the meningioma (32.5%) and oligodendroglioma (12.5%) were the most common. The evolution of the clinical signs varied from four to 210 days (mean 44 days).

Published

2018

10. Bovine central nervous system development

Author

Flavia T. V. Pereira, Durvanei Augusto Maria, Amilton Cesar dos Santos, Phelipe Oliveira Favaron, Amanda Olivotti Ferreira, Rafael Magdanelo Leandro, Bruno Gomes Vasconcelos, Maria Angélica Miglino, Universidade de São Paulo (USP), Universidade Federal dos Vales Jequitinhonha e Mucuri, and Universidade Estadual Paulista (Unesp)

Subjects

encephalic vesicles, 040301 veterinary sciences, Central nervous system, Biology, Sistema nervoso central, 0403 veterinary science, Midbrain, Bovine central nervous system, Diencephalon, medula espinhal, medicine, encephalon, ontogenia, lcsh:Veterinary medicine, General Veterinary, 0402 animal and dairy science, Neural tube, bovinos, spinal cord, 04 agricultural and veterinary sciences, Anatomy, vesículas encefálicas, Spinal cord, 040201 dairy & animal science, Myelencephalon, medicine.anatomical_structure, nervous system, ontogeny, DESENVOLVIMENTO ANIMAL, lcsh:SF600-1100, SNC, CNS, Neural plate, encéfalo, Metencephalon

Abstract

Central nervous system (CNS) development researches are extremely important to the most common congenital disorders and organogenesis comprehension. However, few studies show the entire developmental process during the critical period. Present research can provide data to new researches related to normal development and abnormalities and changes that occur along the CNS organogenesis, especially nowadays with the need for preliminary studies in animal models, which could be used for experimental research on the influence of viruses, such as the influence of Zika virus on the development of the neural system and its correlation with microcephaly in human newborns. Then, present study describes CNS organogenesis in cattle according to microscopic and macroscopic aspects, identifying structures and correlating to gestational period. Fourteen embryos and nine bovine fetuses at different ages were collected and analyzed. All individuals were measured in order to detect the gestational period. Bovine embryo at 17 days age has its neural tube, cranial neuropore, caudal neuropore and somites developed. After 24 days of development, were observed in cranial part of neural tube five encephalic vesicles denominated: telencephalon, diencephalon, mesencephalon, metencephalon and myelencephalon. In addition, the caudal part of neural tube was identified with the primitive spinal cord. The primordial CNS differentiation occurred from 90 to 110 days. The five encephalic vesicles, primordial spinal cord and the cavities: third ventricule, mesencephalic aqueduct, fourth ventricle and central canal in spinal cord were observed. With 90 days, the main structures were identified: (1) cerebral hemispheres, corpus callosum and fornix, of the telencephalon; (2) interthalamic adhesion, thalamus, hypothalamus and epythalamus (glandula pinealis), of the diencephalon; (3) cerebral peduncles and quadruplets bodies, of the mesencephalon; (4) pons and cerebellum, of the metencephalon; (5) medulla oblongata or bulb, of the myelencephalon; and (6) spinal cord, of the primitive spinal cord. After 110 days of gestation, the five encephalic vesicles and its structures were completely developed. It was noted the presence of the spinal cord with the cervicothoracic and lumbossacral intumescences. In summary, the results describes the formation of the neural tube from the neural plate of the ectoderm, the encephalic vesicles derived from the neural tube and subsequent structural and cavities subdivisions, thus representing the complete embryology of the central nervous system. RESUMO: Os estudos que descrevem o desenvolvimento do sistema nervoso central (SNC) são de suma importância para compreensão da organogênese e identificação dos prováveis eventos que resultam em malformações congênitas. Estes dados podem subsidiar novas pesquisas relacionadas ao desenvolvimento normal, e interpretação de malformações e alterações que ocorrem ao longo da organogênese do SNC, considerando neste momento a necessidade de estudos preliminares em modelos animais, os quais poderiam ser utilizados para pesquisas experimentais sobre a influência de agentes infecciosos como o Zika vírus, no desenvolvimento do sistema nervoso e suas relações com a microcefalia em humanos recém-nascidos. O presente estudo teve como objetivo descrever os aspectos morfológicos macro e microscópicos da organogênese do SNC de bovinos, buscando correlacionar os achados morfológicos com a idade gestacional. Todos os animais foram mensurados para detectar o período gestacional. Foram coletados e analisados 14 embriões e nove fetos de bovinos de diferentes idades gestacionais. No embrião bovino a partir do décimo sétimo dia de gestação, encontra-se a formação do tubo neural, o neuroporo cranial e neuroporo caudal, e formação dos somitos. Após 24 dias de desenvolvimento, são observadas na parte cranial do tubo neural cinco vesículas encefálicas denominadas: telencéfalo, diencéfalo, mesencéfalo, metencéfalo e mielencéfalo; e na parte caudal do tubo neural, encontra-se a medula espinhal primitiva. Entre 90 a 110 dias de gestação, observa-se a total diferenciação das cinco vesículas do SNC. Com 90 dias, são identificas as principais estruturas: (1) do telencéfalo, os hemisférios cerebrais, corpo caloso e fórnix; (2) do diencéfalo, a aderência intertalâmica, tálamo, hipotálamo e epitálamo (glândula pineal); (3) do mesencéfalo, os pedúnculos cerebrais e os corpos quadrigêmios; (4) do metencéfalo, a ponte e o cerebelo; (5) do mielencéfalo, a medula oblonga (ou bulbo); e (6) da medula espinhal primitiva, a medula espinhal. Após 110 dias, as cinco vesículas encefálicas e as suas subdivisões se encontram completamente desenvolvidas. Notou-se a presença da medula espinhal com as intumescências cervicotorácica e lombossacral. Em resumo, os resultados demonstram a formação do tubo neural a partir da placa neural do ectoderma, as vesículas encefálicas provenientes do tubo neural e posteriormente as subdivisões das estruturas e das cavidades, que representam a completa embriologia do sistema nervoso central.

Published

2018