PESQUISA VETERINÁRIA BRASILEIRA

Abstract in English:

ABSTRACT.- Neto F.C.P., Guerra P.C., Costa F.B., Araújo A.V.C., Miglino M.A., Bombonato P.P.,Vulcano L.C. & Alves F.R. 2009. [Ultrasonography of the liver, renal and reproductive apparatus of Boa constrictor Snake.] Ultra-sonografia do fígado, aparelho renal e reprodutivo da jibóia (Boa constrictor). Pesquisa Veterinária Brasileira 29(4):317-321. Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Dr. Orlando Marques de Paiva 87, São Paulo, SP 05508-270, Brazil. E-mail: flaviovet@usp.br Currently, wild animals have been received special attention for domestic breeding. In Wild Animal Medicine, ultrasonographic exams could be considered as a tool to diagnose and prevent disease. Ultrasonographic examination of twenty snakes (Boa constrictor) was performed in order to describe the morphological and ultrasonography appearance of their coelomic structures. Examination by ultrasonography revealed the parechymal liver ranging from slightly hypoechogenic to hyperechogenic, with echogenic margins and homogeneous echotexture in total scanning of this organ. The kidney was accessible for examination by sagittal ultrasound, showing an ellipsoid shape, a hyperechogenic capsule with a thin and regular wall. Ultrasonographic scanning of ovarian follicle showed an ovoid shape, as well as a thin, regular and slightly hyperechogenic edge. No evident structures from male reproductive system were identified by ultrasound examination because of their similar echogenic appearance to the tissues around and the “body fat” that lies in this region. Examination by ultrasound of the coelomic structures was a fast and repeatable technique, which provides useful data to recognize the morphology, sintopy and ultrasonographic appearance of organs such as liver, kidneys and vitellogenic follicles.

• Boa constrictor snake ultrasound wild animals Amazon

Abstract in Portuguese:

ABSTRACT.- Neto F.C.P., Guerra P.C., Costa F.B., Araújo A.V.C., Miglino M.A., Bombonato P.P.,Vulcano L.C. & Alves F.R. 2009. [Ultrasonography of the liver, renal and reproductive apparatus of Boa constrictor Snake.] Ultra-sonografia do fígado, aparelho renal e reprodutivo da jibóia (Boa constrictor). Pesquisa Veterinária Brasileira 29(4):317-321. Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Dr. Orlando Marques de Paiva 87, São Paulo, SP 05508-270, Brazil. E-mail: flaviovet@usp.br Currently, wild animals have been received special attention for domestic breeding. In Wild Animal Medicine, ultrasonographic exams could be considered as a tool to diagnose and prevent disease. Ultrasonographic examination of twenty snakes (Boa constrictor) was performed in order to describe the morphological and ultrasonography appearance of their coelomic structures. Examination by ultrasonography revealed the parechymal liver ranging from slightly hypoechogenic to hyperechogenic, with echogenic margins and homogeneous echotexture in total scanning of this organ. The kidney was accessible for examination by sagittal ultrasound, showing an ellipsoid shape, a hyperechogenic capsule with a thin and regular wall. Ultrasonographic scanning of ovarian follicle showed an ovoid shape, as well as a thin, regular and slightly hyperechogenic edge. No evident structures from male reproductive system were identified by ultrasound examination because of their similar echogenic appearance to the tissues around and the “body fat” that lies in this region. Examination by ultrasound of the coelomic structures was a fast and repeatable technique, which provides useful data to recognize the morphology, sintopy and ultrasonographic appearance of organs such as liver, kidneys and vitellogenic follicles.

Abstract in English:

ABSTRACT.- Moura C.E.B., Albuquerque J.F.G., Magalhães M.S., Silva N.B., Oliveira M.F. & Papa P.C. 2007. [Comparative analysis of the origin of the brachial plexus of the collared peccary (Tayassu tajacu).] Análise comparativa da origem do plexo braquial de catetos (Tayassu tajacu). Pesquisa Veterinária Brasileira 27(9):357-362. Departamento de Morfologia, Universidade Federal do Rio Grande do Norte, Cx. Postal 1524, Campus Universitário Lagoa Nova, Natal, RN 59072-970, Brazil. E-mail: cadumoura@ufrnet.br Collared peccary (Tayassu tajacu) belongs to the Tayassuidae family, characterized by a “collar” of white hairs that cross behind the neck and extend bilaterally in front of the shoulders. It can be found from south-western United States to Argentina. In the literature a shortage of data is verified regarding the functional anatomy of the collared peccaries, especially of studies that involve the anatomy of the brachial plexus. To elucidate the behavior of this plexus of collared peccaries and with the purpose to contribute for the development of compared anatomy, this study was accomplished. Thirty animals of different ages were used (17 males and 13 females) coming from the Wild Animal Multiplication Center of the “Universidade Federal Rural do Semi-árido” Mossoró, Rio Grande do Norte, Brazil. After slaughter bilateral dissection of the brachial plexuses took place, and the results were registered in schematic drawings and the dispositions grouped in tables for subsequent statistical analysis based on the percentile frequency. It was found that the Plexus brachialis of collared peccaries is the result of established communications, mainly among the Rami ventrales of the last three cervical nerves and of the first two thoracic nerves, having a contribution of the fourth and fifth cervical nerves in 16.67% and 50.00% of the cases, respectively. In 40.00% of the dissections the most frequent plexus was of the type C6, C7, C8, T1 and T2. The main nerves derived from brachial plexus of the collared peccaries and its respective origins had been: Nervus suprascapularis (C6, C7), Nn. subscapulares (C5, C6 e C7 or C6 e C7), N. axillaris (C6, C7), N. musculocutaneus (C7, C8), N. medianus (C7, C8, T1, T2), N. radialis (C8, T1, T2), N. ulnaris (C8, T1, T2), cranialis (C7), and caudalis (C7, C8) Nn. pectorales, N. thoracodorsalis (C6, C7, C8), N. thoracicus longus (C7, C8), and N. thoracicus lateralis (C8, T1, T2).

• Brachial plexus neuroanatomy wild animals

Abstract in Portuguese:

ABSTRACT.- Moura C.E.B., Albuquerque J.F.G., Magalhães M.S., Silva N.B., Oliveira M.F. & Papa P.C. 2007. [Comparative analysis of the origin of the brachial plexus of the collared peccary (Tayassu tajacu).] Análise comparativa da origem do plexo braquial de catetos (Tayassu tajacu). Pesquisa Veterinária Brasileira 27(9):357-362. Departamento de Morfologia, Universidade Federal do Rio Grande do Norte, Cx. Postal 1524, Campus Universitário Lagoa Nova, Natal, RN 59072-970, Brazil. E-mail: cadumoura@ufrnet.br Collared peccary (Tayassu tajacu) belongs to the Tayassuidae family, characterized by a “collar” of white hairs that cross behind the neck and extend bilaterally in front of the shoulders. It can be found from south-western United States to Argentina. In the literature a shortage of data is verified regarding the functional anatomy of the collared peccaries, especially of studies that involve the anatomy of the brachial plexus. To elucidate the behavior of this plexus of collared peccaries and with the purpose to contribute for the development of compared anatomy, this study was accomplished. Thirty animals of different ages were used (17 males and 13 females) coming from the Wild Animal Multiplication Center of the “Universidade Federal Rural do Semi-árido” Mossoró, Rio Grande do Norte, Brazil. After slaughter bilateral dissection of the brachial plexuses took place, and the results were registered in schematic drawings and the dispositions grouped in tables for subsequent statistical analysis based on the percentile frequency. It was found that the Plexus brachialis of collared peccaries is the result of established communications, mainly among the Rami ventrales of the last three cervical nerves and of the first two thoracic nerves, having a contribution of the fourth and fifth cervical nerves in 16.67% and 50.00% of the cases, respectively. In 40.00% of the dissections the most frequent plexus was of the type C6, C7, C8, T1 and T2. The main nerves derived from brachial plexus of the collared peccaries and its respective origins had been: Nervus suprascapularis (C6, C7), Nn. subscapulares (C5, C6 e C7 or C6 e C7), N. axillaris (C6, C7), N. musculocutaneus (C7, C8), N. medianus (C7, C8, T1, T2), N. radialis (C8, T1, T2), N. ulnaris (C8, T1, T2), cranialis (C7), and caudalis (C7, C8) Nn. pectorales, N. thoracodorsalis (C6, C7, C8), N. thoracicus longus (C7, C8), and N. thoracicus lateralis (C8, T1, T2).

Abstract in English:

ABSTRACT.- Alves F.R., Costa F.B., Arouche M.M.S., Barros A.C.E., Miglino M.A., Vulcano L.C. & Guerra P.C. 2007. [Ultrasonographic evaluation of the urinary system, liver and uterus of Cebus apella monkey.] Avaliação ultra-sonográfica do sistema urinário, fígado e útero do macaco-prego, Cebus apella. Pesquisa Veterinária Brasileira 27(9):377-382. Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Dr. Orlando Marques de Paiva 87, São Paulo, SP 05508-270, Brazil. E-mail: flaviovet@usp.br The Brown Capuchin, Cebus apella, has a wide distribution in the northern and southern Brazilian Amazon region and in the Cerrado (savanna). These monkeys are usually submitted to predatory chase, increasing the need for preservation of this wild animal species. An ultrasonographic examination of 10 Brown Capuchins was made in order to describe the normal ultrasonographic anatomy of their abdominal cavity. The urinary bladder revealed its wall thickness with an average of 0.2cm, the topographic situation of which allowed close relation with the wall of uterus and descendent colon. Using caudal abdominal scan, images of aorta, caudal vena cava and right iliac vein were obtained. Liver was accessible for examination by sagittal and cross-section ultrasound, allowing visualization of gallbladder and hepatic vessels. Renal scan allowed accuracy to evidence the echogenicity differences between pelvis, renal sinus, as well as the cortical-medullary relationship. The mean length of the kidneys was 6.24±0.31cm, and no significant differences were observed between left and right kidney length (Student’s t-test and ANOVA). The renal volume obtained was 2.37±0.18cm3. Correlation Coefficients of Pearson between right and left renal length and between right and left renal volume were r = 0.74 and 0.51. Mean thickness for cortical and medullar regions was 0.75±0.11 and 0.39±0.06cm, respectively. Correlation Coefficient of corticomedullar relation between right and left renal was r = 0.19. Examination by ultrasound was considered an efficient, non-invasive, fast and repeatable technique which provides useful data for clinicians and surgeons engaged in wild animal medicine.

• Cebus apella Brown Capuchin ultrasound wild animals Amazon

Abstract in Portuguese:

ABSTRACT.- Alves F.R., Costa F.B., Arouche M.M.S., Barros A.C.E., Miglino M.A., Vulcano L.C. & Guerra P.C. 2007. [Ultrasonographic evaluation of the urinary system, liver and uterus of Cebus apella monkey.] Avaliação ultra-sonográfica do sistema urinário, fígado e útero do macaco-prego, Cebus apella. Pesquisa Veterinária Brasileira 27(9):377-382. Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Dr. Orlando Marques de Paiva 87, São Paulo, SP 05508-270, Brazil. E-mail: flaviovet@usp.br The Brown Capuchin, Cebus apella, has a wide distribution in the northern and southern Brazilian Amazon region and in the Cerrado (savanna). These monkeys are usually submitted to predatory chase, increasing the need for preservation of this wild animal species. An ultrasonographic examination of 10 Brown Capuchins was made in order to describe the normal ultrasonographic anatomy of their abdominal cavity. The urinary bladder revealed its wall thickness with an average of 0.2cm, the topographic situation of which allowed close relation with the wall of uterus and descendent colon. Using caudal abdominal scan, images of aorta, caudal vena cava and right iliac vein were obtained. Liver was accessible for examination by sagittal and cross-section ultrasound, allowing visualization of gallbladder and hepatic vessels. Renal scan allowed accuracy to evidence the echogenicity differences between pelvis, renal sinus, as well as the cortical-medullary relationship. The mean length of the kidneys was 6.24±0.31cm, and no significant differences were observed between left and right kidney length (Student’s t-test and ANOVA). The renal volume obtained was 2.37±0.18cm3. Correlation Coefficients of Pearson between right and left renal length and between right and left renal volume were r = 0.74 and 0.51. Mean thickness for cortical and medullar regions was 0.75±0.11 and 0.39±0.06cm, respectively. Correlation Coefficient of corticomedullar relation between right and left renal was r = 0.19. Examination by ultrasound was considered an efficient, non-invasive, fast and repeatable technique which provides useful data for clinicians and surgeons engaged in wild animal medicine.