Estudio biométrico de la distribución de los ramos motores del nervio fibular superficial en el compartimiento lateral de la pierna en individuos brasileiros: implicancias clínicas y variaciones / Biometric study of the distribution of the motor branches of the superficial fibular nerve in the lateral compartment of the leg in Brazilian individuals: clinical implications and variations

El propósito del presente estudio fue conocer la distribución de los ramos motores del nervio fibular superficial (NFS) y de sus respectivas penetraciones en los músculos fibulares en relación al ápice de la cabeza de la fíbula, dividiendo el compartimiento lateral de la pierna en tres regiones a fin de hacer posible una visión más segura de sus correlaciones clínicas y quirúrgicas. A través de disección, se estudiaron 60 piernas pareadas de 30 cadáveres adultos, de ambos sexos, Brasileños, con edad promedio de 44,9 años, siendo 8 de sexo femenino y 22 del masculino. Después de la disección se registraron las distancias de los puntos de penetración de los ramos del NFS en los músculos fibular largo (mFL) y corto (mFC), localizándolos en los tercios proximal, medio o distal, según fuere el caso. Se observó que el mayor número de ramos penetraron en el mFL a nivel de la parte distal del tercio proximal de la pierna, mientras que en el mFC lo hicieron en las partes proximal y distal del tercio medio de la pierna. Los ramos motores para el mFL penetraban en el vientre muscular entre 48,06 y 141,56 mm, y los ramos para el mFC lo hicieron entre 163,34 y 209,67 mm del origen del nervio. No hubo diferencias estadísticamente significativas ni entre los lados derecho e izquierdo ni entre genéros. Independiente de las diferencias metodológicas entre los estudios disponibles, el detalle de la distribución nerviosa en este compartimiento, permitirá una mayor precisión en el momento de elegirse un área para colgajo de injerto autólogo y una menor chance de lesiones iatrogénicas durante cirugías de la región.

The purpose of the present study was to know the distribution of the motor branches of the superficial fibular nerve (SFN) and their respective motor points in the fibular muscles in relation to the apex of the head of the fibula, dividing the lateral compartment of the leg in three regions in order to make possible a safer view of your clinical and surgical correlations. Through dissection, 60 paired legs of 30 adult cadavers, of both sexes, Brazilians, with an average age of 44.9 years, 8 being female and 22 male, were studied. After the dissection, the distances of the motor points of the NFS branches in the fibularis longus (FLm) and brevis (FBm) muscles were recorded, locating them in the proximal, middle or distal thirds. It was observed that the largest number of branches penetrated the FLm at the level of the distal part of the proximal third of the leg, while in the FBm they did so in the proximal and distal parts of the middle third of the leg. The motor branches for the FLm penetrated into the muscular belly between 48.06 and 141.56 mm, and the branches for the FBm did between 163.34 and 209.67 mm of the origin of the nerve. There were no statistically significant differences between the right and left sides or between genres. Regardless of the methodological differences between the available studies, the detail of the nervous distribution in this compartment will allow a greater precision at the time of choosing an area for autologous graft flap and a lower chance of iatrogenic injuries during surgeries of the region.

Study of variations in medial sural cutaneous nerve, lateral sural cutaneous nerve and peroneal communicating nerve.

The sural nerve complex includes the Medial sural cutaneous nerve (MSCN), Lateral sural cutaneous nerve (LSCN), Peroneal communicating nerve (PCN) and Sural nerve. The sural nerve is the most frequently used donor nerve for peripheral nerve grafting. LSCN can be an alternative to sural nerve in situations requiring a limited length of nerve graft material, the peroneal communicating nerve may also be harvested. Fifty lower limb specimens were dissected and data was collected. The study included 16 male and 9 female cadavers. MSCN was observed in all 50 specimens, out of which 74% specimens had normal course and 22% had a transmuscular course. LSCN was present in 82% of specimens. PCN was arising from Common Peroneal Nerve (CPN) directly in 16% and as a common trunk with LSCN in 14% of specimens. PCN was absent in 28% of cases. So knowledge of variation in these nerves will help the surgeons while considering these nerves for nerve grafting.

The common fibular nerve (and its branches) in fetuses / El nervio fibular comun (y sus ramos) en fetos

The common fibular nerve (CFN), is a branch of the sciatic nerve (SN) that exits the popliteal fossa and is located at the tuberculum of the fibula. At the tuberculum of the fibula, the CFN bifurcates into deep (DFN) and superficial (SFN) fibular nerves. Forty fetuses were micro-dissected to (i) describe the course of the CFN in relation to the tuberculum and neck of the fibula in fetuses; (ii) describe the branches, distribution and relation of the DFN and SFN to muscles within the anterolateral compartment of the leg. The CFN, DFN and SFN were present in all specimens dissected; the CFN measured a mean length (mm) of 16.03 and 16.69 on the right and left sides respectively. Bifurcation of the CFN related to the tuberculum of fibula (right; left) - above 20/80 (25%); 14/80 (17.5%); below 6/80 (7.5%); 10/80 (12.5%) and at the tuberculum 54/80 (67.5%); 56/80 (70%). The DFN bifurcated into medial and lateral branches in 68/80 (85%) and 54/80 (67.5%) on the right and left sides, respectively. The SFN bifurcated into a medial branch in 78/80 (97.5%) and 76/80 (95%) on right and left sides, respectively and a lateral branch in 78/80 (97.5%) and 76/80 (95%) on right and left sides, respectively. The course and distribution of the CFN, DFN and SFN were consistent with the literature reviewed and descriptions found in standard anatomical textbooks. However, our findings show that the DFN has a variable number of branching patterns, which is unique to this fetal study and an intermediate branch of the SFN which was recorded in 3/80 cases.

El nervio fibular común (NFC), es un ramo del nervio isquiático (NI) que sale de la fosa poplítea y se ubica a nivel de la cabeza de la fíbula. A ese nivel, el NFC se bifurca en los nervios fibular profundo (NFP) y superficial (NFS). Cuarenta fetos fueron micro disecados para (i) describir el curso del NFC en relación con la cabeza y cuello de la fíbula en fetos; (ii) describir los ramos, distribución y relación del NFP y NFS con los músculos dentro del compartimento anterolateral de la pierna. El NFC, NFP y NFS estuvieron presentes en todos los especímenes disecados; el NFC presentó una longitud promedio de 16,03 y 16,69 (mm) en el lado derecho e izquierdo, respectivamente. La bifurcación del NFC se relacionó con la cabeza de la fíbula del lado derecho e izquierdo: por encima en 25% y 17,5%; por debajo 7,5% y 12,5 % y a nivel de la cabeza en 67,5 % y 70%. El NFP se bifurcó en ramos medial y lateral en un 85% en el lado derecho y 67,5% en el izquierdo. El NFS se bifurcó en una ramo medial en el 97,5% y 95% en los lados derecho e izquierdo, respectivamente, y un ramo lateral en el 97,5% y 95% del lados derecho e izquierdo, respectivamente. El curso y distribución del NFC, NFP y NFS coincidieron con la literatura revisada y textos de anatómia normal. Sin embargo, observamos que el NFP tiene un número variable de patrones de ramificación, único para este estudio fetal y un ramo intermedio del NFS que fue visto en 3/80 casos.

Distribuição do nervo fibular comum em fetos de equinos e descrição anatômica de pontos para bloqueio anestésico / Distribution of common peroneal nerve in equine fetuses and anatomical description of sites for anesthetic block

Analisou-se a distribuição do nervo fibular comum em 30 fetos de equinos, sem raça definida, provenientes do acervo do Laboratório de Anatomia Animal da Faculdade de Medicina Veterinária da Universidade Federal de Uberlândia, que foram injetados e conservados em solução aquosa de formaldeído a 10%. Contatou-se que o referido nervo deriva do isquiático, divide-se em nervos fibulares superficial e profundo, distribuindo-se para os músculos extensores lateral e longo do dedo, fibular terceiro e tibial cranial. Traçando-se uma linha imaginária na região médio-lateral da tuberosidade do osso tíbia, o nervo fibular comum pode ser bloqueado em sua parte proximal, no terço caudal, entre o tendão de inserção do músculo bíceps femoral e a face lateral do músculo gastrocnêmio lateral (terço médio); e o nervo fibular profundo, na parte proximal da tíbia, crânio-distalmente ao fibular comum. O bloqueio do nervo fibular superficial pode ser realizado em duas regiões da tíbia: na proximal, considerando-se a linha imaginária, distalmente ao ponto citado para o fibular comum e caudalmente ao descrito para o fibular profundo; e na distal, na face lateral da articulação tíbio-társica, entre os tendões de inserção dos músculos extensores lateral e longo do dedo.

The distribution of the nervus fibularis communis was analyzed in 30 equine fetuses, mongrel, from the collection of the Animal Anatomy Laboratory at the School of Veterinary Medicine of Universidade Federal de Uberlândia, which were injected and stored in an aqueous solution of 10% formaldehyde. It was found that this nerve emerges from the ischiadicus, divides itself into nervus fibularis profundus and nervus fibularis superficialis distributing to the musculi extensor digitorum lateralis, extensor digitorum longus, fibularis tertius, and tibialis cranialis. Drawing an imaginary line in the medial-lateral region of the tuberositatis tibia, the nervus fibularis communis may be blocked in its proximal portion, in the caudal third, between the tendon of insertion of the biceps femoris and the lateral side of the musculus gastrocnemius (medium third); and the nervus fibularis profundus may be blocked in the proximal tibia, cranio-distally to the nervus fibularis communis. The block of nervus fibularis profundus may be performed in two regions of the tibia: proximal, considering the imaginary line, distal to the site referred to the nervus fibularis communis, and caudal to that described for the nervus fibularis profundus; and distal, on the lateral side of the tibiotarsal joint, between the tendons of insertion of the musculi extensor digitorum lateralis and extensor digitorum longus.

Bloqueio dos nervos tibial e fibular comum em fossa poplítea com punção única utilizando o estimulador percutâneo de nervos: considerações anatômicas e descrição ultrassonográfica / Tibial and common fibular nerve block in the popliteal fossa with single puncture using percutaneous nerve stimulator: anatomical considerations and ultrasound description

JUSTIFICATIVA E OBJETIVOS: As técnicas de bloqueios de nervos periféricos têm ganhado popularidade nas últimas duas décadas, tornando-se crescente opção anestésica para a cirurgia de membros. Este estudo propõe uma técnica de abordagem dos nervos tibial e fibular comum na fossa poplítea por punção única e utilizando o estimulador percutâneo de nervos, considerando a correlação com estudo anatômico e ultrassonográfico. MÉTODO: Estudo prospectivo, observacional e aleatório realizado com 28 pacientes escalados para cirurgias no pé. Após localização dos nervos tibial e fibular comum por meio de estimulação percutânea, realizou-se punção no ponto de estímulo do nervo tibial com agulha de 5 cm (B.Braun, Stimuplex 50) e foram injetados 10 mL de levobupivacaína. A agulha foi recuada e redirecionada para o ponto de estímulo do nervo fibular comum em busca da resposta motora correspondente, injetando-se 10 mL do anestésico. Realizado estudo fotográfico da região poplítea por ultrassonografia para correlação da anatomia com a técnica utilizada. RESULTADOS: Obteve-se anestesia adequada em todos os casos. O tempo médio para a localização dos nervos tibial e fibular comum, utilizando o estimulador percutâneo de nervos, foi de 57,1 e 32,8 segundos, respectivamente, e com o estimulador de nervos foi de 2,22 e 1,79 minutos. A profundidade média da agulha para o nervo tibial foi de 10,7 mm. CONCLUSÕES: A abordagem dos nervos tibial e fibular comum com punção única na fossa poplítea utilizando o estimulador percutâneo de nervos é uma boa opção para anestesia e analgesia para cirurgias do pé.

BACKGROUND AND OBJECTIVES: Techniques of peripheral nerve block have gained popularity over the last two decades becoming a growing anesthetic option for limb surgeries. This study proposes a technical approach of the tibial and common fibular nerves in the popliteal fossa with single puncture using percutaneous nerve stimulator, considering the correlation with an anatomical and ultrasound study. METHODS: This prospective, observational, randomized study was performed with 28 patients scheduled for foot surgeries. After localizing the tibial and common fibular nerves through percutaneous stimulation, the puncture was performed at the point of tibial nerve stimulation with a 5-cm needle (B.Braun, Stimuplex 50), and 10 mL of levobupivacaine were injected. The needle was pulled back and redirected to the point of common fibular nerve stimulation looking for the corresponding motor response, and 10 mL of the local anesthetic were injected. Imaging study of the popliteal region was performed by ultrasound to correlate the anatomy with the technique used. RESULTS: Adequate anesthesia was obtained in all cases. The mean time to localize the tibial and common fibular nerves suing the percutaneous stimulator was 57.1 and 32.8 seconds, respectively, and with the nerve stimulator it was 2.22 and 1.79 minutes, respectively. The mean depth of the needle into the tibial nerve was 10.7 mm. CONCLUSIONS: The approach for tibial and common fibular nerves with single puncture in the popliteal fossa using peripheral nerve stimulator is a good option for anesthesia and analgesia for foot surgeries.

JUSTIFICATIVA Y OBJETIVOS: Las técnicas de bloqueos de nervios periféricos ha venido obteniendo popularidad en las últimas de los décadas, y convirtiéndose cada vez más en una opción anestésica para la cirugía de los miembros. Este estudio propone una técnica de abordaje de los nervios tibial y fibular común en la fosa poplítea por punción única y utilizando el estimulador percutáneo de nervios, considerando la correlación con el estudio anatómico y ultrasonográfico. MÉTODO: Estudio prospectivo, observacional y aleatorio realizado con 28 pacientes selecionados para cirugías en el pie. Después de la localización de los nervios tibial y fibular común a través de la estimulación percutánea, se realizó una punción en el punto de estímulo del nervio tibial con la aguja de 5 cm (B.Braun, Stimuplex 50), y fueron inyectados 10 mL de levobupivacaína. La aguja se echó hacia atrás y fue redirigida hacia el punto de estímulo del nervio fibular común en busca de la respuesta motora correspondiente, inyectando 10 mL del anestésico. Se realizó el estudio fotográfico de la región poplítea por ultrasonografía para la correlación de la anatomía con la técnica utilizada. RESULTADOS: En todos los casos se obtuvo la anestesia adecuada. El tiempo promedio para la localización de los nervios tibial y fibular común, utilizando el estimulador percutáneo de nervios, fue de 57,1 y 32,8 segundos respectivamente y con el estimulador de nervios fue de 2,22 y 1,79 minutos. La profundidad promedio de la aguja para el nervio tibial fue de 10,7 mm. CONCLUSIONES: El abordaje de los nervios tibial y fibular común con punción única en la fosa poplítea utilizando el estimulador percutáneo de nervios, es una buena opción para la anestesia y la analgesia en cirugías del pie.

División Alta del Nervio Fibular Superficial: Origen Precoz de los Nervios Cutáneos Dorsales del Pie / High Division of Superficial Fibular Nerve: Early Origin of the Dorsal Cutaneous Nerves of the Foot

Los nervios cutáneos dorsales del pie se originan a partir del nervio fibular superficial (NFS), después que éste pasa desde el compartimiento lateral de la pierna a través de la fascia profunda, para luego distribuirse superficialmente en el dorso del pie. A veces, el nervio fibular superficial se divide precozmente, por lo que estos nervios se originan profundamente y con una disposición diferente. Con el propósito de dar a conocer en estos casos, los niveles de origen de los nervios cutáneos dorsales del pie y el punto de penetración en la fascia profunda de la pierna, se estudiaron 16 muestras de individuos, chilenos, adultos, fijadas en formaldehido al 10 por ciento. En 2 de ellas, su origen se observó a un nivel alto, cerca de la parte proximal de la fíbula. En el primer caso, el nervio cutáneo dorsal intermedio se originó directamente de la división posterior del NFS; la división anterior del NFS se subdividió en dos ramos, los que después de un corto trayecto se unieron y formaron el nervio cutáneo dorsal medial. En el segundo caso, los nervios cutáneos dorsales intermedio y medial se originaron directamente del NFS, que después de un corto trayecto se dividió en estos dos nervios. El origen de los nervios cutáneos dorsales del pie se registró en relación al epicóndilo lateral del fémur y el paso de éstos a través de la fascia profunda de la pierna hacia su distribución cutánea fue relacionado al maléolo lateral. Aunque el origen de los nervios cutáneos dorsales del pie ocurra a un nivel próximo a la cabeza de la fíbula, perforan la fascia mencionada, en su tercio distal. Un conocimiento detallado del NFS y de sus ramos y variaciones anatómicas puede reducir lesiones iatrogénicas en éstos durante los procedimientos quirúrgicos realizados en el compartimiento lateral de la pierna.

The dorsal cutaneous nerves of the foot originate from the superficial fibular nerve (SFN), then pass from the lateral compartment of the leg piercing the deep fascia, thus distributed superficially in the dorsum of the foot. Sometimes SFN splits early, so these nerves originate deeply and with a different arrangement. The objective of this research was to study in these cases, the origin of the dorsal cutaneous nerves of the foot and pierce point level in the deep fascia of the leg. We studied 16 formolized samples of Chilean adult individuals. In two of them its origin was observed at a high level, near the proximal epiphysis of the fibula. In the first case the intermediate dorsal cutaneous nerve arose directly from the posterior division of SFN, of short course; the anterior division of SFN was subdivided into two branches, which after a short course, both branches joined to form the medial dorsal cutaneous nerve. In the second case the medial and intermediate dorsal cutaneous nerves originated directly from the SFN, which after a short course, it divided in these two nerves. The origin level was recorded in relation to the lateral epicondyle of the femur and the passage of these nerves through the deep fascia of the leg for its skin distribution was located in relation to the lateral malleolus. Although the origin of the dorsal cutaneous nerves of the foot occur very close to the proximal epiphysis of the fibula, passing through the mentioned fascia in its distal third. A detailed knowledge of the branches of the SFN and variations can reduce injuries in these nerves during surgical procedures in the lateral compartment of the leg.

Morfometría de los nervios sensitivos del dorso del pie en el hombre / Morphometry of the sensitive nerves of the dorsum of the foot in man

La inervación cutánea del dorso del pie, está dada por los nervios fibular superficial (NFS), ramo del nervio fibular común; sus ramos, cutáneo dorsal medial (NCDM) y cutáneo dorsal intermedio (NCDI), así como también por el cutáneo dorsal lateral (NCDL), ramo del nervio sural y el ramo cutáneo del nervio fibular profundo (RCNFP). Estos, pueden ser lesionados en su proximidad con estructuras óseas en su ubicación más superficial, en intervenciones quirúrgicas, por compresión, tracción o fricción crónica. Realizamos un estudio morfométrico y estereológico en 5 muestras de NFS, NCDM, NCDI, NCDL y RCNFP en cadáveres de individuos adultos, masculinos. Se obtuvieron secciones transversales de cada uno de los nervios después de su origen, a nivel del tercio distal de la pierna y del dorso del pie. Realizamos cortes de 4 um de grosor, teñidos con H.E. El promedio de fascículos fue: NFS 12 (D.E. 2,39); NCDM 8 (D.E. 4,82); NCDI 5 (D.E. 1,67); NCDL 7 (D.E. 3,27) y RCNFP 4 (D.E. 1,30). El promedio de fibras para el NFS, NCDM, NCDI, NCDL y RCNFP fue: 14.080, 7.636, 4.602, 3.732 y 2.941, respectivamente. El área promedio del NFS, NCDM, NCDI, NCDL y RCNFP fue: 1,54 mm2 (D. E. 0,22), 0,82 mm2 (D. E. 0,31), 0,54 mm2 (D. E. 0,23), 0,42 mm2 (D.E. 0,19) y 0,32 mm2 (D.E. 0,13) respectivamente. Con este estudio, se espera contribuir al conocimiento morfológico respecto a los factores que podrían influir en el grado de recuperación de lesiones nerviosas, importantes en la clínica y en las técnicas de microcirugía.

The cutaneous innervation on the dorsum of the foot, is given by the superficial fibular nerves (SFN) a branch of the common fibular nerve: its branches, and cutaneous medial dorsal (MDCn) and cutaneous intermediate dorsal (IDCn). Also, the cutaneous lateral dorsal (LDCn) branch of the sural nerve and cutaneous branch of the deep fibular nerve (DFCBn). These can be injured in their proximity with osseous structures in their most superficial location, in surgical procedures, by compression, traction or chronic friction. We carried out a morphometric and stereological study in 5 samples of SFN, MDCn, IDCn, LDCn and DFCBn in cadavers of adult male individuals. Transverse sections of each of the nerves were obtained following its origin, at the level of the distal third of the leg and dorsum of the foot. We realized slices of 4 um thick, stained with H.E. The average of the fascicles was: SFN 12 (D. E. 2.39); MDCn 8 (D. E. 4.82); IDCn 5 (D. E. 1.67); LDCn 7 (D. E. 3.27) and DFCBn 4 (D. E. 1.30). The average of fibers for SFN, MDCn, IDCn, LDCn, and DFCBn was: 14.080, 7.636, 4.602, 3.732 y 2.941 respectively. Average area of SFN, MDCn, IDCn, LDCn, and DFCBn was 1.54 mm2 (D. E. 0.22), 0.82 mm2 (D. E. 0.31), 0.54 mm2 (D. E. 0.23), 0.42 mm2 (D. E. 0.19) y 0.32 mm2 (D. E. 0.13) respectively. With this study we hope to contribute to morphological information in reference to factors that could influence in the degree of recovery of nerve lesions, important in clinic as well as microsurgery techniques.

Morfometría de los nervios isquiático, tibial y fibular común en el hombre / Morphometry of the sciatic, tibial and common fibular nerves in man

El nervio isquiático, el más extenso del cuerpo humano, emerge de la pelvis por el foramen isquiático mayor, dividiéndose proximal a la articulación de la rodilla en los nervios tibial y fibular común. Con frecuencia, estos nervios son afectados por accidentes, por tanto, la microcirugía reparadora requiere de detallada información anatómica para efectuar con éxito sus procedimientos. El nervio isquiático puede ser lesionado por heridas penetrantes, en las luxaciones posteriores de la articulación coxal y por inyecciones intramusculares mal aplicadas en la región glútea, siendo rara la lesión del nervio tibial por estar situado profundamente protegido. En cambio, la lesión del nervio fibular común, es frecuente debido a su posición superficial, quedando muy expuesto cuando abandona la fosa poplítea y rodea el cuello de la fíbula. Realizamos el estudio debido a la escasa información morfométrica y estereológica de estos nervios. Se disecaron en 5 cadáveres de individuos adultos, de sexo masculino los nervios isquiático, tibial y fibular común. Se obtuvieron secciones transversales de cada uno de los nervios a nivel de la división del nervio isquiático y del origen de los nervios tibial y fibular común. Realizamos cortes de 5 µm de grosor, los que fueron teñidos con H.E. Obtuvimos información cuantitativa sobre medidas morfométricas, determinamos el número de fibras nerviosas de cada fascículo así como el número de fascículos existente en cada nervio. Además, determinamos, por planimetría a través del conteo de puntos, el área de los fascículos que constituían cada nervio. El número de fascículos en el nervio isquiático varió de 63 a 70, con un promedio de 66,8 (D. E. 2,59). En el nervio tibial, el número de fascículos varió de 35 a 43, con un promedio de 30 (D. E. 3,00) y en el nervio fibular común el número de fascículos varió de 17 a 25, con un promedio de 21 (D. E. 2,92). El número promedio de fibras en el nervio ciático fue de 64.535 (D. E. 3.193). En los ...

The sciatic nerve, the longest of the human body, emerging from the pelvis through the greater sciatic foramen, dividing proximal to the knee joint in the tibial and common fibular nerves. Frequently these nerves are affected by accidents, therefore, the repairing microsurgery requires detailed anatomical information in order to successfully complete these procedures. The sciatic nerve can be damaged by penetrating injuries in the posterior luxations of the hip joint, and by intramuscular injections, given incorrectly the gluteal region. Injury to the tibial nerve is rare as it is deeply located and protected. On the other hand, injury to the common fibular nerve is frequent due to its superficial position, leaving it exposed when it leaves the popliteal fossa and surrounds the fibular neck. The study was conducted due to scarce morphometric and stereologic information on these nerves. The sciatic tibial and common fibular nerves in five cadavers of individual male adults were dissected. Transverse section of each of the nerves were obtained at the level of the division of the sciatic nerve and of the origin of the tibial and common fibular nerves. Sections of 5 µm were cut which were stained with H.E. We obtained quantitative information regarding morphomtric measurements, determined the number of nerve fibres of each fascicle, as well as the number of existing fascicles in each nerve. We also determined by planimetry, through counting of points, the area of the fascicles that constituted each nerve. The number of fascicles in the sciatic nerve varied from 63 to 70 with an average of 66.8 (S.D. 2.59). In the tibial nerve the number of fascicles varied from 17 to 25 with an average of 21 (S.D. 2.92). The mean number of fibres in the sciatic nerve as of 64,535 (S.D. 3,193). In the tibial nerve it was 40,317 (S.D. 4,067) and in the common fibular nerve it was: 22,191 (S.D. 1,038). The median area of the sciatic, tibial and common fibular nerves was: 11,42 mm².

Topographical variations of the sciatic nerve in Pakistani population

The aim of the study was to find the topographical variations in the sciatic nerve. Embalmed lower limbs of 30 male cadavers, age range between 30-60 years were dissected and examined at the Anatomy Departments of Khyber medical College, Peshawar, Khyber Girls Medical College, Peshawar, and Bolan Medical College, Quetta. Ten cadavers were dissected at each Anatomy Department. Variations in the sciatic nerve were observed. Variations were observed in the course of the sciatic nerve. In 88.33% of the cases the sciatic nerve emerged from the pelvis through the greater sciatic foramen beneath the piriformis muscle. In 5% of the cases it emerged as a single trunk passing through the piriformis muscle and in 6.66% of the cases it emerged as two separate trunks. In 60% of the cases the Sciatic nerve divided at the apex of the popliteal fossa. In 3.33% of the cases the sciatic nerve divided in the politeal fossa. In 31.66% of the cases the sciatic nerve divided at variable levels between the apex of the popliteal fossa and the greater sciatic foramen. In 5% cases it was observed that the sciatic nerve divided inside pelvis. Sciatic nerve shows considerable variations in its course through the back of thigh. In 11.66% of the cases atypical course of sciatic nerve was observed as it emerged from the pelvis and in 39.99% of the cases variations were observed in the division of the sciatic nerve into its terminal branches

Anatomical study of the fibularis longus muscle motor points and electrical stimulation therapy application / Estudio anatómico de los puntos motores del músculo fibularis longus y su aplicación en la terapia de electroestimulación

The fibularis longus muscle (FLM) has an important role in the movement of eversion of the foot and in maintaining the plantar arch. The electrostimulation procedures seek to maintain muscle trophism, increase strength and endurance, and are frequently used in physiotherapy, for which the clinician needs to know the location of the motor points of the FLM. Therefore, the purpose of this study was to determine the number and distribution of motor points of the FLM and relate them to observable parameters in the surface anatomy. Ten formalin-preserved limbs were used, and the lateral regions of the leg were dissected in detail. In all the cases, the muscle presented three fascicular patterns, the superior and anteroinferior fascicles presented two motor points each, while the posteroinferior fascicles were between 2 and 3 motor points. Our results suggest that there is a pattern of distribution of the superficial fibular nerve, whose knowledge is useful for clinical application in the FLM electrostimulation proceedings.

El músculo fibular largo (MFL) tiene una importante función en el movimiento de eversión del pié y en la mantención del arco plantar. Los procedimientos de electroestimulación buscan mantener el trofismo muscular, aumentar la potencia y resistencia y es frecuente su utilización en fisioterapia, para ello el clínico necesita conocer la localización de los puntos motores del MFL, por ello, el propósito de este estudio fue determinar el número y distribución de los puntos motores del MFL y relacionarlos con parámetros observables en la anatomía de superficie. Se utilizaron 10 miembros inferiores conservados y se disecó detalladamente la región lateral de la pierna. El músculo presentó en todos los casos una estructura trifascicular, los fascículos superiores y anteroinferiores presentaron dos puntos motores cada uno, mientras en el fascículo posteroinferior encontramos entre 2 y 3 puntos motores. Nuestros resultados sugieren que existe un patrón de distribución del nervio fibular superficial cuyo conocimiento es de utilidad clínica para los procedimientos de electroestimulación del MFL.

Estudo radiomorfológico do tendão fibular longo junto ao osso cuboide / Radiomorphological study of the peroneus longus tendon adjacent to the cuboid bone

OBJETIVO: Relatar os aspectos morfológicos e avaliar, radiograficamente, o segmento do tendão do músculo fibular longo em contato com o osso cuboide, em cadáveres, e relatar a incidência do ossículo fibular em seu interior, utilizando-se, em alguns casos, da análise histológica. MATERIAIS E MÉTODOS: Foram estudados 50 segmentos tendinosos, sendo radiografados para determinar a presença ou não de ossículo acessório no interior do tendão. As peças nas quais a presença era duvidosa foram seccionadas e submetidas a avaliação macroscópica. Nos casos em que ainda persistiam dúvidas, as peças foram histologicamente avaliadas em hematoxilina-eosina. Um segmento que demonstrou a presença de ossificação também foi analisado histologicamente, a título de ilustração. RESULTADOS: Todos os fragmentos apresentavam dilatação fusiforme na área de curvatura sob o cuboide. Após o estudo radiográfico, 29 desses fragmentos não tinham ossificação, 13 tinham ossificação e 8 eram duvidosos. Após a análise macroscópica, uma peça apresentou ossificação e cinco, não. As duas peças restantes continuaram indefinidas, sendo então analisadas histologicamente, e não se observou ossificação. CONCLUSÃO: Todas as peças demonstraram espessamento local na curvatura sob o cuboide. Entretanto, após análise quantitativa, nos dois casos submetidos ao estudo histológico foi verificado que o tendão era composto de fibrocartilagem e revestido por cartilagem hialina na superfície de contato com o osso. Assim, os segmentos apresentaram o ossículo fibular do ponto de vista morfológico em 28%, e do ponto de vista radiográfico, em 26% dos casos.

OBJECTIVE: To describe morphological aspects, and radiographically evaluate the segment of the peroneus longus tendon adjacent to the cuboid bone, in cadavers, and reporting the incidence of a fibular ossicle, in some cases with the help of histological analysis. MATERIALS AND METHODS: Fifty tendon segments were evaluated and radiographed for determining the presence or absence of an accessory ossicle inside the tendon. The specimens where such presence was dubious were sectioned and submitted to macroscopic evaluation. In the cases where doubts persisted, the specimens were submitted to hematoxylin-eosin staining for histological analysis. One specimen where the accessory ossicle had been detected was also histologically evaluated for illustration purposes. RESULTS: All the specimens presented a fusiform dilatation of the area under the arc of the cuboid bone. Radiographic images demonstrated 29 specimens without ossification, 13 with ossification and 8 were doubtful. After macroscopic analysis, only one presented ossification, five did not, and two remained dubious, being submitted to histological analysis that demonstrated no ossification. CONCLUSION: All the specimens presented focal thickening of the tendon under the arc of the cuboid bone. However, quantitative analysis of both specimens submitted to histological evaluation demonstrated that the tendon consisted of fibrocartilaginous tissue lined by hyaline cartilage on the surface of contact with the bone. Thus, under the morphological point of view, fibular ossicle was found in 28% of cases, and, under the radiographic point of view, in 26%.

Anatomia do nervo isquiático em mocós (Kerodon rupestris WIED, 1820) aplicada a clínica de animais silvestres / Ischiatic nerve anatomy in mocós (Kerodon rupestris WIED, 1820) applicable to clínic of wild animals

Para conhecer a origem do nervo isquiático de mocós (Kerodon rupestris WIED,1820) junto aos forames intervertebrais e a musculatura envolvida em seu trajeto, foram utilizados 10 animais adultos, oriundos do Centro de Multiplicação de Animais Silvestres da Escola Superior de Agricultura de Mossoró (CEMAS-ESAM). Após o óbito natural, estes foram fixados em formol a 10%, e foram dissecados para exposição e visualização do nervo isquiático. Os resultados foram expressos em percentual. Foram verificadas variações na quantidade de vértebras lombares e sacrais. Cinco animais (50%) apresentaram sete vértebras lombares e três sacrais, dois (20%) apresentaram sete vértebras lombares e quatro sacrais, e dois (20%) apresentaram seis vértebras lombares e três sacrais. Um animal (10%) apresentou seis vértebras lombares e quatro sacrais. Portanto, a origem do nervo foi diferenciada. Cinco animais (50%) tiveram a participação de Lsubscrito7, Ssubscrito1, Ssubscrito2; dois animais (20%) Lsubscrito7, Ssubscrito1, com pequena contribuição de Ssubscrito2. Dois animais (20%), de Lsubscrito6, Ssubscrito1, Ssubscrito2; e um animal (10%), de Lsubscrito6, Ssubscrito1 com uma pequena contribuição de Ssubscrito2. A última raiz do nervo isquiático em todas as suas origens, contribuiu para a formação da primeira raiz do nervo pudendo. Constatou-se que ao longo de seu trajeto os nervos isquiáticos cederam ramos para os músculos glúteo médio, glúteo profundo, glúteo surpeficial, emitindo ramos musculares para o bíceps femoral ou da coxa, e para os músculos semimembranoso e semitendinoso, que continua com um tronco calibroso, originando os nervos fibular lateralmente, medialmente o tibial e caudalmente o cutâneo sural plantar lateral.

To know the origin of the ischiatic nerve in mocos (Kerodon rupestris Wied,1820) near by intervertebral forames and the muscling belonging to its routes were used 10 adult animals, from CEMAS-ESAM. After natural obit, they were fixed in formol (10%) and dissected to exposition and to singt of the ischiatic nerve. The results were indicated in percentage. Variations in the quantity of the lumber and sacral vertebras nere observed, five animals (50,00%) reveled seven lumbar vertebras and three sacral ones; two animals recrealed seven lumbar vertebras and four sacral ones, and two animals reveled six lumbar vertebras and three sacral ones. An animal (10,00%) revealed six lumbar vertebras and four ones. Therefore, the origin of the nerve was differentiated five animals (50,00%) had the participation of Lsubscript7,Ssubscript1,Ssubscript2; two animals (20,00%) with Lsubscript7,Ssubscript1; and a little part of Ssubscript2. Two animals (20,00%) with Lsubscript6,Ssubscript1,Ssubscript2, and an animal (10,00%) with Lsubscript6,Ssubscript1, and a little part of Ssubscript2. The last root of the ischiatic nerve in all its origins, contribute to the constitution of the first root of pudental nerve. It was verified that in all its route, the ischiatic nerves (100,00%) ceded branches to the muscles: medial gluteus, deep gluteus, superficial gluteus, emiting muscular branches to the femoral biceps or to thigh, and to the semi-membranous and semi-tendinous muscles, that is continuous with a high calibre trunk, originating the fibular nerve(sideways), the tibial nerve(medial) and the lateral plantar sural cutaneous nerve (caudal).

Unilateral high division of right sciatic nerve

A thorough knowledge of pelvis and lower extremity is of paramount importance in providing effective care to patients with lower extremity neuralgia. Neuroanatomy knowledge typically acquired in medical colleges at undergraduate level is limited and may not adequately equip the clinicians to effectively manage a patient with intractable pain of lower extremity especially if the nerves are not following a typical course. Sciatic nerve is the main nerve supplying most of the muscles and all of the joints of lower limb. It is a branch of Sacral plexus that leaves the pelvis usually below the piriformis muscle and after supplying the hamstring compartment divide at the level of apex of popliteal fossa into its two terminal divisions namely; Tibial And Common peroneal nerves. Sometimes Sciatic nerve while in the pelvis divides into its terminal branches that leave the pelvis in a number of ways in relation to piriformis muscle. This high division is responsible for ischalgia, wrongly placed intra-muscular inje ctions and piriformis syndrome. This study is carried out in various medical colleges of Lahore including FMH college of Medicine and Dentistry to update the statistical data provided to the therapist and clinicians managing patients of sciatica, ischalgia or piriformis syndrome

The Relative Contributions of the Medial Sural and Peroneal Communicating Nerves to the Sural Nerve

The medial sural cutaneous nerve (MSCN) and peroneal communicating nerve (PCN) conjoin in the calf area to form the sural nerve (SN). In previous anatomic studies, there was unresolved debate as to the main contributor to the sural nerve, and the relative contributions of MSCN and PCN had not been studied. The purpose of this study is to determine their relative neurophysiologic contributions to the SN by nerve conduction study (NCS). A total of 47 healthy subjects (25 males and 22 females, mean age 29.6+/-10.4 yrs, range 20-59 yrs) participated in the study. This study employed the orthodromic nerve conduction technique: stimulation at the ankle and recording at the mid calf (SN); specifically, we preformed stimulation at the mid calf (MSCN, PCN) and recording at 14cm proximal to the middle of the popliteal fossa (MSCN) and fibular head (PCN). The onset and peak latencies (ms) were SN 2.3+/-0.2 and 3.0+/-0.2; MSCN 2.1+/-0.2 and 2.8+/-0.2; and PCN 2.1+/-0.2 and 2.8+/-0.2. The peak-to-peak amplitudes (micro) and areas (nVsec) of the SN, MSCN, and PCN were 9.7+/-3.9, 7.0+/-4.7, and 5.0+/-3.2; and 7.2+/-2.9, 5.7+/-3.4, and 4.0+/-2.4, respectively. The side-to-side difference was not statistically significant. The main contributor to the SN was found to be the MSCN. The relative contribution ratio of the MSCN to the PCN was 1.37:1 by amplitude and 1.42:1 by area. However, in 32.9% of the subjects, the contribution of the PCN was greater than that of the MSCN.

Estudo anatômico e eletrodiagnóstico do nervo fibular profundo acessório / Anatomic study and electrodiagnostic fibular deep accessory nerve

Foram dissecados 42 membros inferiores direitos e esquerdos de cadaveres humanos, de ambos os sexos, idades, racas. Com objetivo de observar o nervo fibular profundo acessorio, em 5 casos (11,9%) foram encontrados este nervo, dos quais 2 (4,8%) no antimero direito e 3 (7,1%) no antimero esquerdo. Desse total de 5 casos, em 4 casos (9,6%) o nervo fibular profundo acessorio alcancou a regiao superior do maleolo lateral e, em 1 caso (2,3%), este nervo destinou-se a porcao do musculo extensor curto dos dedos. Com relacao ao estudo eletrodiagnostico foram analisados bilateralmente 100 voluntarios normais adultos; dos 200 membros inferiores, 21 (10,5%) apresentaram o nervo fibular profundo acessorio. Neste estudo, o nervo fibular profundo acessorio foi encontrado de acordo com os percentuais da literatura

Bloqueo del nervio peroneo profundo / Deep peroneal nerve block

En un trabajo de disección cadavérica, determinamos que: "a la altura de la línea intermaleolar, el nervio peroneo profundo se halla ubicado siempre por fuera o lateral al tendón del extensor propio del hallux y se ubica superficial o anterior a la arteria". Con el objetivo de evaluar clínicamente nuestros hallazgos en cadáveres, realizamos 116 bloqueos nerviosos (84 uni y 16 bilaterales) con este abordaje en 100 pacientes. El bloqueo fue efectivo en el 98,72 por ciento (114/116) y debió ser suplementado en el 1,72 por ciento (2/116). En conclusión, los hallazgos clínicos se correspondieron con los de la disección cadavérica y, por lo tanto, recomendamos que el punto de entrada de la aguja a la altura de la línea que une ambos maleolos sea inmediatamente lateral o externo al tendón del extensor propio del hallux, independientemente de la identificación o no del latido de la arteria tibial anterior.

fibre size of the hindlimb nerves and their roots in albino rat

OBJECTIVE: To estimate the number and diameters of myelinated fibres in the tibial nerve[TN]; common peroneal nerve[CPN] and their dorsal and ventral roots L4, L5 and L6 in albino rat. SETTING: Department of Anatomy, Basic Medical Sciences Institute, Jinnah Postgraduate Medical Centre, Karachi. SUBJECT: Male adult albino rats. Period: One year. MATERIAL AND METHODS: The number and diameters of myelinated fibres were estimated from the photomicrographic montages of their araldite embedded transverse sections. The mean count of myelinated fibres in TN was more than CPN while their population in both the dorsal and ventral roots of L5 segment outnumbered the other two segments. The mean diameters of myelinated fibres forming TN and CPN ranged between 2.3-12.2 [micro]m and 2.4-12 [micro]m respectively, while their dorsal and ventral roots measured between 1-12 [micro]m and 2-14 [micro]m. A decrease in the fibre size in both the nerve roots occurred rostrocaudally, however, the size range in the ventral roots appeared to be larger than in the dorsal roots whereas the CPN has slightly more larger sized fibres than the TN

Trayecto del nervio gluteo inferior asociado a la división alta del nervio isquiático / Inferior gluteal nerve course associated to the high division of the sciatic nerve

El nervio glúteo inferior, ramo del plexo sacro, abandona la pelvis pasando generalmente por debajo del músculo piriforme. De este plexo se origina también el nervio isquiático, el cual puede presentar variaciones en su relación con el músculo mencionado, entre ellas, las que se refieren a la division alta del mismo. Sin embargo, son escasos los trabajos que correlacionen esta división con el trayecto del nervio glúteo inferior y su relación con el músculo iriforme. Con el propósito de verificar una posible asociación entre los trayectos de estos nervios, fueron disecadas 80 regiones glúteas de cadáveres de individuos brasileños adultos en el Departamento de Morfología de la Universidade Federal de Sao Paulo. Se encontraron dos tipos de variación entre el nervio isquiático y el músculo piriforme: en 9 casos (11,2 por ciento) el nervio fibular común pasó a través del músculo y el nervio tibial transcurrió por debajo de su margen inferior (Tipo I); en dos casos (2,5 por ciento), correspondientes a un mismo individuo, el nervio fibular común hizo su trayecto por sobre el margen superior del músculo piriforme y el nervio tibial pasó por debajo de su margen inferior (Tipo II). En el tipo I, el nervio glúteo inferior pasó a través del músculo en 65 casos y en los 3 restantes una parte del nervio perforó al músculo y la otra pasó por debajo de su margen inferior; en el tipo II, el nervio glúteo inferior transcurrió por debajo del margen inferior del músculo en uno de los casos y en el otro, una parte de este nervio se originó del nervio fibular común y la otra, pasó por debajo del margen inferior del músculo. El trayecto del nervio glúteo inferior a través del músculo piriforme podría estar relacionado con la atrofia glútea observada en los pacientes con síndrome del músculo piriforme

Latero-terminal neurorrhaphy without removal of the epineural sheath: experimental study in rats

Termino-lateral neurorrhaphies have been used up to the beginning of this century. After this period, they have no longer been reported. We tested the efficacy of a new type of latero-terminal neurorrhaphy and evaluated the role of the epineural sheath. A group of 10 rats had the fibular nerve sectioned and the distal ending was sutured to the lateral face of the tibial nerve without removing the epineurium. All experiments were made on the right side, the left one remaining untouched in half of the animals of each group. The other half were denervated by sectioning and inverting the endings of the fibular nerves. In this way, tibial cranial muscles were either normal or denervated in the left side and reinnervated through latero-terminal neurorrhaphy in the right side. After 7.7 months, the animals were subjected to electrophysiological tests, sacrificed, and the nerves and muscles were taken for histological exams. A response of the tibial cranial muscle was obtained in 75% of the animals. The distal ending of the fibular nerve showed an average of 498 nerve fibers. The average areas of the reinnervated tibial cranial muscles were (mu 2):841.30 for M2n and 1798.33 for M2d. We concluded that the termino-lateral neurorrhaphy was functional, conducting electrical stimuli and allowing the passage of axons from the lateral surface of a healthy nerve, to reconstitute the distal segment of a sectioned nerve. The presence of the epineurium was no impediment to axonal regeneration or to the passage of electrical stimuli.(ABSTRACT TRUNCATED AT 250 WORDS)