Morphometry of spinal nerve composition and thicknesses of lumbar plexus nerves for use in clinical applications / Morfometría de la composición del nervio espinal y espesores de nervios del plexo lumbar para su uso en aplicaciones clínicas

SUMMARY: The aim of this study was to clarify the diverse spinal compositions of the branches of the lumbar plexus in terms of their prevalence rates and thicknesses. Thirty lumbar plexuses extracted from Korean adults were used in this study. The nerve fascicles were separated and traced with the aid of a surgical microscope. The thickness of each spinal nerve component was calculated based on the mean of the largest and smallest diameters using digital calipers under the surgical microscope. The most common patterns of the spinal composition of the branches of the lumbar plexus were as follows: The iliohypogastric nerve (IHN) and the ilioinguinal nerve (IIN) arose from the ventral ramus of the first lumbar nerve (L1), the genitofemoral nerve (GFN) arose from the anterior division of the ventral ramus of the second lumbar nerve (L2), and the lateral femoral cutaneous nerve (LFCN) arose from the posterior division of the ventral ramus of theL2, the femoral nerve (FN) arose from the posterior division of the ventral ramus of L2-the fourth lumbar nerve (L4), with the thickest spinal component derived from the third lumbar nerve (L3), and the obturator nerve (OBN) arose from the anterior division of the ventral ramus of L2-L4, with the thickest spinal component derived from L3. However, when L5 constituted the FN and OBN, the thickest spinal components of the FN and OBN was L4. This morphometric study has measured the thicknesses of diverse spinal components that constitute the branches of the lumbar plexus after separating the nerve fascicles. The thicknesses of the various spinal components of these branches can be compared in order to understand which make the main and minor contributions to the lower limb.

RESUMEN: El objetivo de este estudio fue evaluar las diversas composiciones espinales de los ramos del plexo lumbar en cuanto a sus tasas de prevalencia y grosor. Se utilizaron treinta plexos lumbares extraídos de individuos adultos coreanos. Se separaron y trazaron los fascículos nerviosos por medio de un microscopio quirúrgico. El grosor de cada componente del nervio espinal se calculó con base en la media de los diámetros mayor y menor utilizando calibradores digitales bajo el microscopio. Los patrones más comunes de la composición espinal de los ramos del plexo lumbar fueron los siguientes: el nervio iliohipogástrico (NIH) y el nervio ilioinguinal (NII) surgieron del ramo ventral del primer nervio lumbar (L1). El nervio genitofemoral (NGF) surgió de la división anterior del ramo ventral del segundo nervio lumbar (L2). El nervio cutáneo femoral lateral (NCFM) surgió de la división posterior del ramo ventral L2. El nervio femoral (NF) surgió de la división posterior del ramo ventral de L2. El cuarto nervio lumbar (L4), con el componente espinal más grueso derivado del tercer nervio lumbar (L3) y el nervio obturador (NOB) surgieron de la división anterior del ramo ventral de L2-L4, con el componente espinal más grueso derivado de L3. Sin embargo, cuando L5 constituía el NF y NOB, los componentes espinales más gruesos del NF y NOB eran de L4. Este estudio morfométrico analizó los espesores de diversos componentes espinales que constituyen las ramas del plexo lumbar después de separar los fascículos nerviosos. Es posible comparar los espesores de los diversos componentes espinales de estos ramos para comprender las contribuciones principales y menores al miembro inferior.

Description of brachial plexus of sloth (Bradypus variegatus) / Descrição do plexo braquial do bicho-preguiça (Bradypus variegatus)

The species Bradypus variegatus is known as the common sloth, an endemic mammal from neotropical regions, which has been suffering from devastating anthropogenic activities. Our study aimed to describe the brachial plexus of B. variegates, regarding the origin and distribution of nerves, through the sampling of 10 adult females. Analyses were carried out at the Anatomy Section, "Departamento de Morfologia e Fisiologia Animal", "Universidade Federal Rural de Pernambuco", under license no. 034/2015 of the Ethics Committee on the Use of Animals. The results determined that the brachial plexus of the common sloth starts from the fifth cervical spine segment until the second thoracic segment. This area contains the long and suprascapular thoracic nerves, which originate immediately from the medullary segment 5 and 6, respectively, and from the pectoral, subscapular, axillary, radial, musculocutaneous, medial, forearm and ulnar medial cutaneous nerves, arising from a trunk comprised of cervical spine nerves (C) 7, C8, C9, and thoracic (T) 1 and T2. Regarding other wild and domestic animals, different suggestions were observed about the origin of the plexus in B. variegatus, however, the constituent nerves and their innervation areas did not demonstrate any discrepancies.(AU)

A espécie Bradypus variegatus é conhecida como preguiça-comum. Trata-se de um mamífero endêmico de regiões neotropicais que vem sofrendo com a ação antrópica devastadora. Esses Bradipodídeos possuem três dedos nos membros torácicos e pélvicos, são arborícolas consagrados e descem ao solo apenas para excretar e trocar de árvore. O estudo teve como objetivo descrever o plexo braquial de B. variegatus em relação à origem e distribuição dos nervos. Para tal, utilizou-se 10 fêmeas adultas. As análises foram realizadas no Pavilhão de Anatomia do Departamento de Morfologia e Fisiologia Animal da Universidade Federal Rural de Pernambuco, sob a licença nº 034/2015 do Comitê de Ética no Uso de Animais. Os cadáveres foram obtidos após morte natural, fixados em formaldeído a 20%, conservados em solução salina a 30% em tanques e dissecados para a visualização dos nervos destinados a inervar os membros e músculos torácicos. Uma vez feito, constatou-se que o plexo braquial da preguiça-comum se origina do quinto segmento espinal cervical, se estendendo até o segundo segmento torácico. Sendo formado pelos nervos torácico longo e supraescapular, de origem imediatamente do segmento medular 5 e 6, respectivamente, e pelos nervos peitorais, subescapulares, axilar, radial, musculocutâneo, mediano, cutâneo medial do antebraço e ulnar, decorrentes de um tronco formado a partir de nervos espinais cervicais (C) 7, C8, C9, e torácicos (T) 1 e T2. Em comparação a outros animais silvestres e domésticos foram observadas diferentes disposições em relação à origem do plexo de B. variegatus, todavia, os nervos constituintes e suas áreas de inervação não apresentaram discrepâncias.(AU)

Nervio occipital mayor: trayecto, relaciones anatómicas e implicancias clínicas de sus posibles sitios de atrapamiento / Great occipital nerve: course, anatomical relations and clinical implications of their potential entrapment sites

RESUMEN: El nervio occipital mayor (NOM) se forma del ramo dorsal del nervio espinal C2 y asciende entre la musculatura cervical posterior para inervar la piel del cuero cabelludo. Diversos autores han descrito su recorrido, sin embargo, es escasa la información referente a la relación que presenta este nervio con el músculo oblicuo inferior de la cabeza (OIC) y su trayecto intramuscular. El objetivo de este estudio fue determinar el recorrido y relaciones que el NOM estableció en el intervalo existente entre los músculos OIC y músculo trapecio (T). Para ello, se midieron las distancias verticales y horizontales a la altura de la protuberancia occipital externa y línea mediana, y se dividió al músculo OIC en tercios para observar variaciones del recorrido de este nervio. Junto con medir el diámetro del NOM, se midieron las distancias vertical y horizontal de este nervio a través de cinco puntos de referencia muscular y un punto de referencia vascular. Estos puntos musculares fueron: a) sobre el vientre del músculo OIC (punto 1); b) en la cara profunda del músculo semiespinoso de la cabeza (SEC) (punto 2); c) en la cara superficial del músculo SEC (punto 3); d) en la cara profunda del músculo T (punto 4); y e) en la cara superficial del músculo T (punto 5). A este se sumó el punto 6, en el cual se establecieron las distancias vertical y horizontal con la arteria occipital a la altura de la cara superficial del músculo T. Para ello se disecaron 18 cabezas (36 triángulos suboccipitales) de cadáveres adultos brasileños pertenecientes al laboratorio de Anatomía de la Universidade Federal de Alagoas (UFAL), Maceió, Brasil. Las distancias verticales y horizontales obtenidas respecto de los seis puntos fueron: 63,67 y 27,15 mm (punto 1); 53,89 y 21,44 mm (punto 2); 30,61 y 14,49 mm (punto 3); 20,39 y 22,8 mm (punto 4); 5,86 y 33,46 mm (punto 5); 5,99 y 35,56 mm (punto 6), respectivamente. En relación al músculo OIC, el NOM se ubicó en un 72,22 % de las muestras en el tercio medio de este músculo, 19,44% en su tercio lateral y un 8,33 % en su tercio medial. Todos estos hallazgos deben ser considerados al momento de diagnosticar correctamente posibles atrapamientos del NOM en la región cervical profunda, siendo además, una contribución para el éxito de procedimientos quirúrgicos de esta región.

SUMMARY: The great occipital nerve (GON) is formed from the dorsal branch of the C2 spinal nerve and ascends between the posterior cervical musculature to innervate the skin of the scalp. Various authors have described its course, however, there is little information regarding the relationship that this nerve presents with the obliquus capitis inferior (OCI) and its intramuscular path. The objective of this study was to determine the route and relationships that the GON established in the interval between the OCI muscles and the trapezius muscle (T). For this, the vertical and horizontal distances were measured at the height of the external occipital protuberance and median line, and the OCI muscle was divided into thirds to observe variations in the path of this nerve. Along with measuring the diameter of the GON, the vertical and horizontal distances of this nerve were measured through five muscle reference points and one vascular reference point. These muscle points were: a) on the belly of the OCI muscle (point 1); b) in the deep face of the semispinalis capitis muscle (SCM) (point 2); c) on the surface of the SCM (point 3); d) on the deep face of the T (point 4); and e) on the surface face of the T (point 5). To this was added point 6, in which the vertical and horizontal distances were established with the occipital artery at the height of the superficial face of the T. For this, 18 heads (36 suboccipital triangles) of Brazilian adult corpses belonging to the Anatomy laboratory of the Universidade Federal de Alagoas (UFAL), Maceió, Brazil, were dissected. The vertical and horizontal distances obtained with respect to the six points were: 63.67 and 27.15 mm (point 1); 53.89 and 21.44 mm (point 2); 30.61 and 14.49 mm (point 3); 20.39 and 22.8 mm (point 4); 5.86 and 33.46 mm (point 5); 5.99 and 35.56 mm (point 6), respectively. In relation to the OCI, the GON was located in 72.22 % of the samples in the middle third of this muscle, 19.44 % in its lateral third and 8.33 % in its medial third. All these findings should be considered when correctly diagnosing possible entrapments of GON in the deep cervical region, being a contribution to the success of surgical procedures in this region.

Neuralgias of the Head: Occipital Neuralgia

Occipital neuralgia is defined by the International Headache Society as paroxysmal shooting or stabbing pain in the dermatomes of the greater or lesser occipital nerve. Various treatment methods exist, from medical treatment to open surgical procedures. Local injection with corticosteroid can improve symptoms, though generally only temporarily. More invasive procedures can be considered for cases that do not respond adequately to medical therapies or repeated injections. Radiofrequency lesioning of the greater occipital nerve can relieve symptoms, but there is a tendency for the pain to recur during follow-up. There also remains a substantial group of intractable patients that do not benefit from local injections and conventional procedures. Moreover, treatment of occipital neuralgia is sometimes challenging. More invasive procedures, such as C2 gangliotomy, C2 ganglionectomy, C2 to C3 rhizotomy, C2 to C3 root decompression, neurectomy, and neurolysis with or without sectioning of the inferior oblique muscle, are now rarely performed for medically refractory patients. Recently, a few reports have described positive results following peripheral nerve stimulation of the greater or lesser occipital nerve. Although this procedure is less invasive, the significance of the results is hampered by the small sample size and the lack of long-term data. Clinicians should always remember that destructive procedures carry grave risks: once an anatomic structure is destroyed, it cannot be easily recovered, if at all, and with any destructive procedure there is always the risk of the development of painful neuroma or causalgia, conditions that may be even harder to control than the original complaint.

Origem e distribuição do plexo braquial de Saimiri sciureus / Origin and distribution of the brachial plexus of Saimiri sciureus

Os autores descreveram a origem e composição do plexo braquial de quatro Saimiri sciureus, pertencentes ao Centro Nacional de Primatas (Cenp), Ananindeua/PA, os quais foram fixados com formaldeído e dissecados. Os achados revelaram que o plexo braquial desta espécie é constituído por fibras neurais provenientes da união das raízes dorsais e ventrais das vértebras cervicais C4 a C8 e torácica T1, e organizado em quatro troncos. Cada tronco formou um nervo ou um grupo de nervos, cuja origem variou entre os animais; na maioria, foi encontrado o tronco cranial originando o nervo subclávio, o tronco médio-cranial dando origem aos nervos supraescapular, subescapular, parte do radial, e em alguns casos ao nervo axilar, nervo musculocutâneo e ao nervo mediano; o tronco médio-caudal formou parte do nervo radial, e em alguns casos os nervos axilar, nervo musculocutâneo, nervo mediano, nervo toracodorsal, nervo ulnar e nervo cutâneo medial do antebraço, sendo os dois últimos também originados no tronco caudal.

The authors described the origin and composition of the brachial plexus of four Saimiri sciureus, from the National Primate Center (Cenp), Ananindeua/PA, which were fixed with formaldehyde and dissected. Findings revealed that the brachial plexus of this species is composed by nervous fibers from the roots of cervical vertebrae C4 to C8 and thoracic vertebrae T1, and organized into four branchs. Each branch has formed a nerve or a group of nerves, the origin was varied between animals, mostly were found the cranial trunk originate the subclavian nerve; the medium-cranial originate the suprascapular, subscapular, part of radial and in some cases the axillary, musculocutaneous and median nerves; the medium-caudal trunk originate part of radial nerve and in some cases the axillary, musculocutaneous, median, thoracodorsal, ulnar and medial cutaneous of forearm nerves, the last two nerves also originate from the caudal trunk.

Anatomia do plexo braquial de macaco-barrigudo (Lagothrix lagothricha) / Anatomy of the brachial plexus of the Woolly-Monkey (Lagothrix lagothricha

The woolly-monkey (Lagothrix lagothricha) is an antropoid belonging to the Atelidae Family which includes the largest neotropical primates. A female cadaver woolly-monkey was fixed in a 10 percent formaldehyde solution and dissected using a stereoscopic magnifying glass and photodocumented. The brachial plexus originated from the spinal nerves C5 to C8 and T1, forming the cranial, medium, and caudal stems, from which derived the peripheral nerves; those nerves had similar origin and innervation area when compared to plexuses from other primates, with the exception of the musculocutaneous nerve that crossed the coracobraquial muscle. Data from studies with brachial plexus from primates allow the access to valuable information regarding the morphology of those animals, and could also assist in the establishment of anatomical parameters among species, which could then contribute to anesthetic procedures and injury treatments.

O macaco-barrigudo (Lagothrix lagothricha) é um antropóide pertencente à Família Atelidae que possui os maiores primatas neotropicais. Um cadáver fêmea de macaco-barrigudo foi fixado com solução de formaldeído a 10 por cento, posteriormente dissecado com o auxílio de lupa estereoscópica e fotodocumentado. O plexo braquial originou-se dos nervos espinhais C5 a C8 e T1, formando os troncos cranial, médio e caudal, dos quais derivaram os nervos periféricos que se assemelharam na origem e no território de inervação com os plexos de outros primatas, com exceção do nervo musculocutâneo que atravessou o músculo coracobraquial. Pesquisas sobre o plexo braquial de primatas fornecem dados que disponibilizam o acesso a informações valiosas sobre a morfologia destes animais e auxiliam no estabelecimento de parâmetros anatômicos entre as espécies, contribuindo também no tratamento de injúrias e procedimentos anestésicos.

Anatomia cirúrgica do nervo acessório espinhal: comoevitar lesões em procedimentos cirúrgicos no trígonocervical posterior / Surgical anatomy of the spinal accessory nerve: how to avoid injuries to the posterior cervical triangle during surgical procedures

Introdução: A síndrome resultante da lesão iatrogênica do nervo acessório espinhal (NAE) secaracteriza por dor, paralisia e escápula alada, estando relacionada a morbidade considerável. Opresente estudo investiga o grau de variação na ramificação e no curso do NAE no trígono cervicalposterior (TCP). Método: A região cervical de oito cadáveres foi dissecada bilateralmente paraexpor o NAE. A ramificação e as variações no curso do NAE no TCP foram registradas. Medidasrelacionadas a estruturas anatômicas do Músculo Esternocleidomastóideo (MEC) e do MúsculoTrapézio (MTZ) foram analisadas. Resultados: As 16 dissecções demonstraram padrão de ramificaçãodo NAE como: nenhum ramo em 25%, um ramo em 37,5% e dois ramos em 37,5%dos casos. Considerável variação foi observada na anatomia regional do NAE no TCP. Medidasrevelaram que o NAE tem relação relativamente constante com o nervo auricular magno (NAM)e esta é uma importante referência anatômica para identificação do NAE no TCP. Conclusões:O NAM é uma referência anatômica útil para a identificação do NAE no TCP. Essa abordagemsugere uma possibilidade para diminuição de lesão iatrogênica do NAE, frequentemente relacionadaà manipulação cervical de estruturas anatômicas adjacentes sem exposição direta do nervo.

Background: The resulting syndrome from iatrogenic injury to the spinal accessory nerve (SAN)is characterized by pain, paralysis and winging of the scapula are often the source of considerablemorbidity. This study analyses the degree of ramification and variations of the SAN at the posteriortriangle (PT). Method: The necks of 8 adult cadavers were dissected bilaterally to expose the SAN.The ramifications and variations of the SAN at the PT were recorded. Measurements related toanatomical landmarks of the Sternocleidomastoid Muscle (SM) and the Trapezius Muscle (TM)were analyzed. Results: The sixteen dissections performed showed the ramification pattern ofthe SAN as: no ramus in 25%, one ramus in 37.5% and 2 ramus in 37.5% of cases. Considerablevariation was seen in regional anatomy of the SAN at the PT. Measurements revealed that the SANhas a relatively constant relationship with the great auricular nerve (GAN) and this is a importantlandmark for the identification of the SAN at the PT. Conclusions: The GAN is a useful landmarkfor identification of the SAN at the PT. This approach suggests a possibility to decrease theincidence of iatrogenic injury of the SAN, that is frequently related to dissection of surroundinganatomical structures and reduced direct exposure of the nerve.

Origin and distribution of the femoral nerve in fetuses of zebu-crossed bovines

In this study the femoral nerve origin and distribution was assessed through the dissection of 30 fetuses of zebu-crossed bovines, 20 males and 10 females. These animals samples fixation in 10% formaldehyde aqueous medium occurred either by subcutaneous, intra-muscle, and intra-cavity injections in different sites, or by immersion of the mentioned pieces in vessels containing the same medium. The femoral nerve originated from the forth (L4), fifth (L5), and sixth (L6) spinal lumbar ventral branches in 14 animals (46.7%), from L4 and L5 in 13 samples (43.3%), and L5 and L6 in three cases (10%). In the course of its way, on both antimeres the mentioned nerve was branched to the greater psoas (100%), iliac (100%), pectinal (56.7%), femoral quadriceps (100%), muscles, and gave off saphena nerve, which gave branches for the pectinal (43.3%) and sartorius (100%) muscles and continued distally along the saphena artery to spread on the medial face of the knee and leg medial articulation skin. Statistically, there was no significant difference between the muscle branch frequencies given by the femoral nerve to the right and left antimeres. The obtained results related to the femoral nerve origin and distribution in fetuses of zebu-crossed bovines generally presented common characteristics with the ruminant corresponding data found in the literature, and this information is important as the basis for clinical or surgical approaches involving the studied structures.

Arranjos configurados pelos nervos do plexo braquial no urubu (Coragyps atratus foetens -Linnaeus, 1758) / The arragement of configurat of nervs of brachial plexus in vulture (Coragyps atratus foetens - Linnaeus, 1758)

O estudo anatômico da origem e distribuição do plexo braquial no urubu (Coragyps atratus foetens) foi efetuado em 14 animais, adultos,machos e fêmeas oriundos da região de Araçatuba (SP). Após a fixação em solução aquosa de formaldeído a 10,00%, realizou-se a dissecação bilateral da origem dos plexos braquiais e sua distribuição. A análise permitiu verificar, que o plexo braquial do urubu, possui quatro troncos, os quais originam-se dos ramos ventrais dos nervos espinhais cervicais onze (C11), doze (C12) e treze (C13) e dos ramos ventrais dos nervos espinhais torácicos um (T1) e (T2) em 100% dos casos em ambos antímeros. O primeiro tronco parte de C11 nos antímeros direito e esquerdo, e da margem cranial do cordão dorsal partem os nervos subescapular, subcoracoescapular e supracoracóide; em ambos antímeros (100%). O segundo tronco origina-se de C12 em ambos antímeros, dando origem ao cordão dorsal, dele partem os nervos axilar, radial e anconeal (100%). O terceiro tronco do plexo origina-se unicamente de C13 (100%) e o quarto tronco de T1 em ambos antímeros (100%). Os troncos de C12, C13 e T1 unem-se dando origem ao cordão ventral, o qual partem os nervos medianoulnar quese divide em mediano e ulnar e os nervos peitorais (100%). T2 emite filamentos que se unem à raiz nervosa de T1, sendo um filamento(35,55%) e dois filamentos (64,29%) no antímero direito, enquanto que no esquerdo um filamento (42,85%), dois filamentos (50%) e três filamentos (7,15%)

The anatomical study of the origin and distribution of brachial plexus in vulture (Coragyps atratus foetens) was performed in 14 animals, adults,males and females, deriving of the region of Araçatuba (SP). After fixed in watery solution of formaldehyde 10,00%, became dissected bilateral of the origin of the brachial plexus, and yours distribution. The analysis allowed verify that brachial plexus of vulture, four root possess, which originate from the ventral branches of cervical spinal nerves eleven (C11),twelve (C12) and thirteen (C13) and of the ventral branches of thoracic spinal nerve one (T1) and (T2) in both sides (100%). The first root part of C11 in the right and left side, and of the edge skull of the dorsal lace the nerves subescapular, subcoracoescapular e supracoracóide in bothantímeros (100%). As the root originates from C12 in both sides, giving origin to the dorsal lace, giving the axilar, radial and anconeal nerves(100%). The third root of plexus originates solely from C13 (100%)and the root of T1 in both sides (100%). The roots of C12, C13 and T1 was united the ventral lace originates, which breaks the nerves to medianoulnar that divided in medium and to ulnar and the pectoral nerves (100%). T2 emits filaments that join it root nervous of T1,being one filament (35,55%) and two filaments (64,29%) in side right,while that in the left one filament (42,85%), two filaments (50%) and three filaments (7,15%)

Análise comparativa da origem do plexo branquial de catetos (Tayassu tajacu) / Comparative analysis of the origin of the brachial plexus of the collared peccary (Tayassu tajacu)

O cateto (Tayassu tajacu) pertence à familia Tayassui-dae e é caracterizado por "colar" de pêlos brancos ao redor do pescoço que se estende bilateralmente cranialmente aos ombros. Pode ser encontrado do sudoeste dos Estados Unidos da América até a Argentina. Na literatura verificou-se a falta de dados a respeito da anatomia funcional do cateto especialmente trabalhos que envolvem a anatomia do plexo braquial. Visando elucidar o comportamento do plexo braquial do cateto e com a finalidade de contribuir para o desenvolvimento da anatomia comparada, realizou-se esta pesquisa. Utilizou-se 30 animais de idades diferentes (13 fêmeas e 17 machos) provenientes do Centro de Multiplicação de Animais Silvestres, Universidade Federal Rural do Semi-árido, Mossoró, Rio Grande do Norte. Após o abate, realizou-se a dissecação bilateral dos plexos braquiais e registraram-se os resultados através de desenhos esquemáticos e as disposições agrupadas em tabelas para subseqüente análise estatística e obtidas as freqüências percentuais. Observou-se que o plexo braquial de catetos é resultado das comunicações estabelecidas, principalmente, entre os ramos ventrais dos três últimos nervos espinhais cervicais (C6, C7 e C8) e dos dois primeiros nervos espinhais torácicos (T1 e T2), tendo uma contribuição do quarto e quinto nervos cervicais em 16,67 por cento e 50,00 por cento dos casos, respectivamente. Em 40,00 por cento das dissecações a formação do plexo, mais freqüente, foi do tipo C6, C7, C8, T1 e T2. Os principais nervos derivados do plexo braquial dos catetos e suas respectivas origens foram: nervo supraescapular (C6 e C7), nervo subscapular (C5, C6 e C7 ou C6 e C7), nervo axilar (C6 e C7), nervo músculocutâneo (C7 e C8), nervo mediano (C7, C8, T1 e T2), nervo ulnar (C8, T1 e T2), nervo radial (C8, T1 e T2), nervos peitorais craniais (C7) e caudais (C7 e C8), nervo toracodorsal (C6, C7 e C8), nervo torácico longo (C7 e C8) e nervo torácico lateral (C8, T1 e T2).

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 Semiárido" 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 percent and 50.00 percent of the cases, respectively. In 40.00 percent 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).

Análise comparativa da origem do plexo branquial de catetos (Tayassu tajacu) / Comparative analysis of the origin of the brachial plexus of the collared peccary (Tayassu tajacu)

O cateto (Tayassu tajacu) pertence à familia Tayassui-dae e é caracterizado por "colar" de pêlos brancos ao redor do pescoço que se estende bilateralmente cranialmente aos ombros. Pode ser encontrado do sudoeste dos Estados Unidos da América até a Argentina. Na literatura verificou-se a falta de dados a respeito da anatomia funcional do cateto especialmente trabalhos que envolvem a anatomia do plexo braquial. Visando elucidar o comportamento do plexo braquial do cateto e com a finalidade de contribuir para o desenvolvimento da anatomia comparada, realizou-se esta pesquisa. Utilizou-se 30 animais de idades diferentes (13 fêmeas e 17 machos) provenientes do Centro de Multiplicação de Animais Silvestres, Universidade Federal Rural do Semi-árido, Mossoró, Rio Grande do Norte. Após o abate, realizou-se a dissecação bilateral dos plexos braquiais e registraram-se os resultados através de desenhos esquemáticos e as disposições agrupadas em tabelas para subseqüente análise estatística e obtidas as freqüências percentuais. Observou-se que o plexo braquial de catetos é resultado das comunicações estabelecidas, principalmente, entre os ramos ventrais dos três últimos nervos espinhais cervicais (C6, C7 e C8) e dos dois primeiros nervos espinhais torácicos (T1 e T2), tendo uma contribuição do quarto e quinto nervos cervicais em 16,67 por cento e 50,00 por cento dos casos, respectivamente. Em 40,00 por cento das dissecações a formação do plexo, mais freqüente, foi do tipo C6, C7, C8, T1 e T2. Os principais nervos derivados do plexo braquial dos catetos e suas respectivas origens foram: nervo supraescapular (C6 e C7), nervo subscapular (C5, C6 e C7 ou C6 e C7), nervo axilar (C6 e C7), nervo músculocutâneo (C7 e C8), nervo mediano (C7, C8, T1 e T2), nervo ulnar (C8, T1 e T2), nervo radial (C8, T1 e T2), nervos peitorais craniais (C7) e caudais (C7 e C8), nervo toracodorsal (C6, C7 e C8), nervo torácico longo (C7 e C8) e nervo torácico lateral (C8, T1 e T2).

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 Semiárido" 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 percent and 50.00 percent of the cases, respectively. In 40.00 percent 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).

Origem, ramificação e distribuição do nervo radial no braço do gato doméstico (Felis catus domesticus, Linnaeus 1758) / The radial nerve origin, ramification and distribution in the arm of the domestic cat (Felis catus domesticus, Linnaeus 1758)

Estudou-se a origem, a distribuição e a ramificação do nervo radial em 30 gatos adultos, 15 machos e 15 fêmeas, sem raça definida, mediante dissecação macroscópica, após a fixação dos espécimes em solução aquosa de formaldeído a 10 %. O referido nervo originou-se dos ramos ventrais do sexto (18,33 %), sétimo (100,0 %) e oitavo (100,0 %) nervos espinhais cervicais e do ramo ventral do primeiro (100,0 %) nervo espinhal torácico. O nervo radial cedeu ramos musculares em todos os animais para os músculos tensor da fáscia antebraquial, cabeça longa do tríceps braquial, cabeça acessória do tríceps braquial, cabeça medial do tríceps braquial, cabeça lateral do tríceps braquial e ancôneo, emitindo de 14 a 25 ramos nervosos na região do braço. O ramo ventral do sexto nervo espinhal cervical apresentou diferença significativa (p<0,05) em relação ao sexo dos animais.

The origin and distribution of the radial nerves were studied in 30 adult domestic cats. The sample included 15 females and 15 males of unknown breed. The specimens were fixed in 10 % formaldehyde solution. Radial nerves were observed to originate, in 11 cases (18.33 %), from the ventral branch of the sixth cervical spinal nerve; in 60 cases (100.0 %), from the ventral branch of the seventh cervical spinal nerve; in 60 cases (100.0 %), from the ventral branch of the eight cervical nerve and in 60 cases (100.0 %), from the ventral branch of the first thoracic nerve. The radial nerves branched out, in all of the animals studied, to the tensor fasciae antebrachii, long, accessory, medial and lateral heads of the triceps branchii and anconeus muscles. The radial nerve emits of 14 to 25 nervous branches in the arm region. However, the branch of the sixth cervical spinal nerve reveal significant differences (p<0.05) with relation to sex of the animals.

Investigation on the morphologic and morphometric changes in perikaryon and nucleus of spinal neuron during prenatal and postnatal life of male dogs

To study the growth process of perikaryon and nucleus of spinal neurons, 15 domestic male dogs in 5 age groups including 42-day-old fetus, 52-day-old fetus, newborn 6-month-old and adult dogs were studied. After preparation of animals, the spinal cord was dissected and then the spinal segments were studied by light and electron microscopy. The results of the present study showed that the maximum diameter of perikaryon and nucleus in all age groups belonged to the eighth cervical segment and the minimum diameter of nucleus belonged to the first coccygeal segment in 42-day-old fetus, the seventh thoracic segment in 52-day-old fetus, first coccygeal segment in newborn and the fourth thoracic segment in 6-month-old and adult animals, respectively. The minimum diameter of perikaryon in all age groups belonged to the first coccygeal segment except in 42-day-old fetus, which was related to the fourth thoracic segment