Anatomic landmarks for a safe arthroscopic approach to the deep gluteal space: a cadaveric study / Hitos anatómicos para un abordaje artroscópico seguro del espacio glúteo profundo: un estudio cadavérico

SUMMARY: To determine the morphometric landmarks and anatomical variants relevant to the arthroscopic approach to the deep gluteal space. Twenty deep gluteal spaces from cadaveric specimens were dissected. The anatomical variants of the sciatic nerve (SN) were determined according to the Beaton and Anson classification. A morphometric study of the distances in the subgluteal space was carried out to define the anatomical references to achieve a safe arthroscopic approach for piriformis syndrome [GT-SN=Distance from greater trochanter (GT) to SN emergence; GT-IT=Distance from GT to ischial tuberosity (IT); GT-IGA=distance from GT to inferior gluteal artery (IGA) emergence; IT-SN=distance from IT to SN emergence; IT-IGA=distance from IT to IGA]. The SN showed the most frequent anatomical pattern with an undivided nerve coming out of the pelvis below the piriformis muscle (Beaton type A) in 16 specimens (80 %). The common peroneal nerve emergence in the subgluteal space through the piriformis muscle (PM) with the tibial nerve being located at the lower margin of the piriformis muscle (Beaton type B) was observed in 4 specimens (20 %). The morphometric measurements of the surgical area of study were: GT-SN=7.23 cm (±8.3); GT-IT=8.56 cm (±0.1); GT-IGA=8.46 cm (±0.97); IT-SN=5.28 cm (±0.73), IT- IGA=5.47 cm (±0.74). When planning surgery for the deep gluteal syndrome in adult patients, the fact that the emergence of the SN in the subgluteal space is approximately 7 cm from the greater trochanter and 5 cm from the ischial tuberosity must be considered.

RESUMEN: El objetivo del estudio fue determinar referentes morfométricos y variantes anatómicas relevantes en el abordaje artroscópico del espació subglúteo. Se disecaron veinte regiones glúteas procedentes de cadáver. Las variaciones anatómicas del nervio ciático (SN) se determinaron de acuerdo con la clasificación de Beaton y Anson. Se llevó a cabo un estudio morfométrico de distancias en el espacio subglúteo, con objeto de determinar referencias que permitan un abordaje artroscópico seguro del sindrome piriforme [GT-SN= distancia trocánter mayor (GT) a la emergencia del nervio ciático (SN); GT-IT= distancia GT a la tuberosidad isquiática (IT); GT-IGA= distancia GT a la emergen- cia de la arteria glútea inferior (IGA); IT-SN= distancia IT a la emergencia del SN; IT-IGA= distancia IT a la IGA]. El patrón más frecuente del SN fue su emergencia no dividida por el margen inferior del músculo piriforme (tipo A Beaton) en 16 especímenes (80 %). La salida del nervio fibular común a través del músculo piriforme (PM) con el nervio tibial localizado en el margen inferior del PM (tipo B Beaton) se observó en 4 especímenes (20 %). Las medidas en el área quirúrgica de estudio fueron: GT-SN= 7,23 cm ± 8,3; GT-IT= 8,56 cm ± 0,1; GT-IGA= 8,46 cm ± 0,97; IT-SN= 5,28 cm ± 0,73 IT-IGA= 5,47 cm ± 0,74. En la cirugía del síndrome glúteo profundo en adultos, debe considerarse que la sa- lida del SN hacia el espacio subglúteo tiene lugar aproximadamente a 7 cm del GT y a 5 cm de la IT.

Recommendation of the best site based on the distribution pattern of extramuscular and intramusular nerves for gluteal muscle injection / Recomendación del mejor sitio para la inyección del músculo glúteo basado en el patrón de distribución de los nervios extramusculares e intramusculares

To reveal the extra- and intramuscular nerve distribution patterns of the gluteus maximus, medius, and minimus, and to provide guidance for gluteal muscle injection in order to avoid nerve injury. Ten adult and 10 child cadavers were used. The superior and inferior gluteal nerves innervating the gluteus maximus, medius, and minimus were dissected, exposed, and sutured in-situ on the muscle. The three gluteal muscles were removed, and the distribution patterns of the intramuscular nerves were revealed by modified Sihler's nerve staining. The nerve distribution pattern was returned to the corresponding position in the body, and the patterns in the four quadrants of the buttock were analyzed. There were 3-12 extramuscular nerve branches of the gluteus maximus, medius, and minimus. After entering the muscle, these nerve branches arborized and anastomosed to form an arc-shaped, nerve-dense zone. The nerve distribution was most dense in the inferomedial region of the superolateral quadrant and the inferolateral region of the superomedial quadrant of the buttocks. The nerve distribution was relatively dense in the inferolateral region of the superolateral quadrant, and the medial region of the inferomedial quadrant. An arc-shaped, nerve-sparse zone in the superolateral and superomedial quadrants near the lower iliac crest accounted for about two-fifths of the two quadrants' limits. The arc-shaped, nerve-sparse zone in the superolateral quadrant is the preferred injection site, and the superomedial quadrant near the lower iliac crest is also recommended as a gluteal intramuscular injection region, free from nerve injury.

El objetivo de este trabajo fue revelar los patrones de distribución nerviosa extramusculat e intramuscular de los músculos glúteo máximo, medio y mínimo y proporcionar orientación para la inyección en la región glútea con el propósito de evitar lesiones nerviosas. Se utilizaron diez cadáveres adultos y diez niños. Los nervios glúteos superior e inferior que inervan a los músculos glúteo máximo, medio y mínimo fueron disecados, expuestos y suturados in situ en el músculo. Se extirparon los tres músculos glúteos y se revelaron los patrones de distribución de los nervios intramusculares mediante la tinción nerviosa de Sihler modificada. El patrón de distribución nerviosa se devolvió a la posición correspondiente en el cuerpo y se analizaron los patrones en los cuatro cuadrantes de la región glútea. Se encontraron 3 a 12 ramos nerviosos extramusculares de los músculos glúteo máximo, medio y mínimo. Después de ingresar al músculo, estas ramas nerviosas se arborizaron y anastomizaron para formar una zona densamente nerviosa en forma de arco. La distribución nerviosa fue de mayor densidad en la región inferomedial del cuadrante superolateral y en la región inferolateral del cuadrante superomedial de la región glútea. La distribución nerviosa era relativamente densa en la región inferolateral del cuadrante superolateral y en la región medial del cuadrante inferomedial. Una zona en forma de arco en los cuadrantes superolateral y superomedial y con escasa inervación, cerca de la cresta ilíaca representaba una parte de los límites de los dos cuadrantes. La zona de poca inervación en forma de arco en el cuadrante superolateral es el sitio de inyección preferido, y el cuadrante superomedial próximo a la cresta ilíaca también se recomienda como una región de inyección intramuscular glútea, libre de lesión nerviosa.

Superior gluteal nerve: a new block on the block? / Nervo glúteo superior: um novo bloqueio a caminho?

Abstract Background and objectives The superior gluteal nerve is responsible for innervating the gluteus medius, gluteus minimus and tensor fascia latae muscles, all of which can be injured during surgical procedures. We describe an ultrasound-guided approach to block the superior gluteal nerve which allowed us to provide efficient analgesia and anesthesia for two orthopedic procedures, in a patient who had significant risk factors for neuraxial techniques and deep peripheral nerve blocks. Clinical report An 84-year-old female whose regular use of clopidogrel contraindicated neuraxial techniques or deep peripheral nerve blocks presented for urgent bipolar hemiarthroplasty in our hospital. Taking into consideration the surgical approach chosen by the orthopedic team, we set to use a combination of general anesthesia and superficial peripheral nerve blocks (femoral, lateral cutaneous of thigh and superior gluteal nerve) for the procedure. A month and a half post-discharge the patient was re-admitted for debriding and correction of suture dehiscence; we performed the same blocks and light sedation. She remained comfortable in both cases, and reported no pain in the post-operative period. Conclusions Deep understanding of anatomy and innervation empowers anesthesiologists to solve potentially complex cases with safer, albeit creative, approaches. The relevance of this block in this case arises from its innervation of the gluteus medius muscle and posterolateral portion of the hip joint. To the best of our knowledge, this is the first report of an ultrasound-guided superior gluteal nerve block with an analgesic and anesthetic goal, which was successfully achieved.

Resumo Justificativa e objetivos O nervo glúteo superior é responsável pela inervação dos músculos glúteo médio, glúteo mínimo e tensor da fáscia lata, todos podem ser lesados durante procedimentos cirúrgicos. Descrevemos uma abordagem guiada por ultrassom para bloqueio do nervo glúteo superior, o que nos permitiu fornecer analgesia e anestesia eficientes para dois procedimentos ortopédicos a uma paciente que apresentava fatores de risco significativos para técnicas neuraxiais e bloqueios profundos de nervos periféricos. Relato de caso Paciente do sexo feminino, 84 anos, cujo uso regular de clopidogrel contraindicava técnicas neuraxiais ou bloqueios profundos de nervos periféricos, apresentou-se para hemiartroplastia bipolar urgente em nosso hospital. Levando em consideração a abordagem cirúrgica escolhida pela equipe de ortopedia, estabelecemos o uso de uma combinação de anestesia geral e bloqueios superficiais de nervos periféricos (femoral, cutâneo lateral da coxa e nervo glúteo superior) para o procedimento. Um mês e meio após a alta, a paciente foi readmitida para desbridamento e correção da deiscência de sutura quando fizemos os mesmos bloqueios e sedação leve. A paciente permaneceu confortável em ambos os casos, sem queixa de dor no período pós-operatório. Conclusões A compreensão profunda da anatomia e da inervação capacita os anestesiologistas a resolver casos potencialmente complexos com abordagens mais seguras, até criativas. A relevância desse bloqueio neste caso resulta da sua inervação do músculo glúteo médio e da porção posterolateral da articulação do quadril. De acordo com nossa pesquisa, este é o primeiro relato de um bloqueio do nervo glúteo superior guiado por ultrassom com objetivo analgésico e anestésico que foi obtido com sucesso.

Unusual relationship between the piriform muscle and sciatic, inferior gluteal and posterior femoral cutaneous nerves / Relación inusual entre el músculo piriforme y los nervios isquiático, glúteo inferior y cutâneo femoral posterior

Piriformis muscle syndrome has been increasingly recognized as a cause of leg pain. Overuse, strain, or anatomical variations of the relationship between the nerve and the piriformis muscle are thought to be the underlying causes of the entrapment of the sciatic nerve. We report a variation not previously described which was found during a routine dissection. During routine dissection of the left gluteal region of an adult male cadaver we observed a high division of the sciatic nerve and the presence of an accessory piriformis muscle. The sciatic nerve divided beneath the piriformis muscle and the common fibular nerve passed over the accessory piriformis muscle, whereas the tibial nerve reflected anteriorly to pass between the accessory piriformis and the superior gemellus muscle. Additionally, both nerves communicated with a side branch under the inferior border of the accessory piriformis muscle and the inferior gluteal nerve originated from the fibular nerve. Anatomical variations in the relationship between the piriformis muscle and the sciatic nerve may be present in up to 17% of the population. Six different variations have been described and none of them is similar to our description. Though complete understanding of the physiopathology of the piriformis muscle syndrome remains to be elucidated, knowledge of the possible anatomical variations may be useful for its adequate diagnosis and treatment.

El síndrome del músculo piriforme se ha reconocido cada vez más como una causa de dolor en los miembros inferiores. Tensión excesiva o variaciones anatómicas del nervio y del músculo piriforme se cree son las causas subyacentes de pinzamiento del nervio isquiático. Se presenta una variación no descrita anteriormente. Durante una disección de rutina en un cadáver de sexo masculino, se observó una división más alta del nervio isquiático y la presencia de un músculo piriforme accesorio. El nervio isquiático se dividía bajo el músculo piriforme y el nervio fibular común pasaba sobre el músculo piriforme accesorio. Por otra parte, el nervio tibial cruzaba entre los músculos piriforme accesorio y gemelo superior. Además, ambos nervios se comunicaban con un ramo lateral bajo el margen inferior del músculo piriforme accesorio y el nervio glúteo inferior se originaba desde el nervio fibular. Variaciones anatómicas y relaciones entre el músculo piriforme y nervio isquiático pueden estar presentes hasta en el 17% de la población. Seis variaciones diferentes se han descrito en este artículo y ninguna es similar a nuestra descripción. A pesar del completo entendimiento de la fisiopatología del síndrome del músculo piriforme, aún queda por esclarecer y conocer las posibles variaciones anatómicas que pueden ser útiles tanto para su diagnóstico como para el tratamiento adecuado.

Aspectos anatómicos y topográficos del nervio pudendo en la región glútea / Anatomical and topographical aspects of the pudendal nerve in gluteal region

El nervio pudendo distribuye ramos motores y sensitivos para la región perineal y órganos genitales externos. Tiene importancia funcional en la micción, defecación, erección y parto. Desde el punto de vista clínico, se realiza bloqueo anestésico del mismo en la práctica obstétrica, se electroestimula en casos de incontinencia fecal o urinaria, entre otros procedimientos. Investigaciones anatómicas han señalado que puede presentar variaciones en su conformación y topografía. Con el propósito de complementar el conocimiento sobre este nervio en su trayecto por la región glútea, se estudió su conformación, biometría y relaciones con los vasos pudendos internos y ligamentos adyacentes. Se disecaron 30 regiones glúteas de 15 cadáveres formolizados de individuos brasileños, adultos, de ambos sexos, observando la conformación del nervio, número de ramos, disposición respecto a los vasos pudendos internos y ligamentos sacrotuberoso y sacroespinoso, registrando también su ancho en el trayecto entre los forámenes isquiático mayor y menor. El nervio pudendo se presentó como tronco único en 53,3 por ciento de los casos y dividido en ramos en 46,7 por ciento (dos ramos en 36,7 por ciento, tres en 6,7 por ciento y cuatro en 3,3 por ciento). Cuando estaba dividido, en 36,7 por ciento los ramos permanecieron separados y en 10 por ciento se unieron antes de ingresar en el foramen isquiático menor. El nervio (único o dividido) fue medial a los vasos pudendo internos en 70 por ciento y lateral a ellos en 3,3 por ciento. En el 26,7 por ciento restante, estaba dividido en dos o tres ramos, que se situaban medial y lateralmente a los vasos o los cruzaban posteriormente. Su posición fue anterior al ligamento sacrotuberoso en 93,3 por ciento. El nervio pudendo presenta interesantes variaciones en su conformación y topografía, que deben ser consideradas durante los procedimientos clínicos y quirúrgicos que lo involucren.

The pudendal nerve distributes motor and sensory branches to the perineum and genital external organs. It has functional importance in the micturition, defecation, erection and labor. From the clinical point of view, anaesthetic blockade of the same one is realized in the obstetric practice, electroestimulation in cases of fecal or urinary incontinence, among other procedures. Anatomical investigations have indicated that it can present variations in its conformation and topography. The objective of this study was complete knowledge about this nerve in its course through the gluteal region, its conformation, biometry and its relationship with the internal pudendal vessels and adjacent ligaments were studied. We dissected 30 gluteal regions of 15 corpses fixed in formaldehyde 10 percent of Brazilian individuals, adult, of both sexes, observing the conformation of the nerve, number of branches, disposition with regard to the internal pudendal vessels and sacrotuberous and sacrospinous ligaments, also recording its external diameter in the distance between greater sciatic foramen and lesser sciatic foramen. The pudendal nerve appeared as a single trunk in 53.3 percent of the cases and divided in branches in 46.7 percent (two branches in 36.7 percent, three in 6.7 percent and four in 3.3 percent). When it was divided, in 36,7 percent the branches remained separated and in 10 percent they joined before the lesser sciatic foramen. The nerve (single or divided) was medial to the internal pudendal vessels in 70 percent and lateral to them in 3.3 percent. In 26.7 percent, it was divided in two or three branches, which were located medially and laterally to these vessels or crossing posterior to them. Its position was anterior to the sacrotuberous ligament in 93.3 percent. The pudendal nerve presents interesting variations in its conformation and topography which must be considered during the clinical and surgical procedures.

L4-L5-S1 human dermatomes: a clinical, electromyographical, imaging and surgical findings / Dermátomos humanos L4, L5 e S1: achados clínicos, eletromiográficos, de imagem e cirúrgicos

There is substantial controversy in literature about human dermatomes. We studied L4, L5, and S1 inferior limb dermatomes by comparing clinical signs and symptoms with conduction studies, electromyographical data, neurosurgical findings, and imaging data from computerized tomography (CT) or magnetic resonance imaging (MRI). After analyzing 60 patients, we concluded that L4 is probably located in the medial aspect of the leg, L5 in the lateral aspect of the leg and foot dorsus, and S1 in the posterior aspect of the backside, tight, leg and plantar foot skin. This is the first time that these human dermatomes have been evaluated by combined analysis of clinical, electromyographical, neurosurgical, and imaging data.

Há controvérsia na literatura sobre os dermátomos humanos. Estudamos dermátomos do membro inferior comparando sinais e sintomas com estudos eletromiográficos, de imagem e achados cirúrgicos. Analisando 60 pacientes, concluímos que o dermátomo L4 provavelmente está localizado na região medial da perna, o dermátomo L5 na região lateral da perna e dorso do pé, e o dermátomo S1 na nádega, região posterior da coxa e da perna e na região plantar. Este é o primeiro estudo que os dermátomos do membro inferior foram analisados através de dados clínicos, eletromiográficos, imagem e achados cirúrgicos.

anatomical study of the relation between the descending branch of the inferior gluteal artery and the posterior cutaneous nerve of the thigh

The gluteal thigh flap is a myofascio-cutaneous flap receiving its blood supply from a descending branch of the inferior gluteal artery. The superior and inferior myocutaneous gluteal free flaps have been considered as valuable alternatives to the latissimus dorsi or TRAM flap since 1975. The purpose of this study was to gain a better understanding of the anatomical relationship between the posterior cutaneous nerve of the thigh, and the descending branch of the inferior gluteal artery. Twenty four posterior thigh specimens of adult human cadavers were dissected after latex injection of the internal iliac artery. The inferior gluteal artery and the posterior cutaneous nerve of the thigh were carefully dissected. The relation between the descending branch of inferior gluteal artery and the posterior cutaneous nerve of the thigh was studied and photographed. The external diameter and the length of the descending branch of the inferior gluteal artery were measured. The inferior gluteal artery gave off a descending branch that is accompanied by the posterior cutaneous nerve of the thigh. The descending branch was observing in all cadavers dissected. Its average external diameter was 0.3 +/- 0.07mm and it was arising about 7.15 +/- 0.68cm away from the tip of the greater trochanter of the femur. In 5 lower limbs [20.8%] the descending branch was passing medial to the posterior cutaneous nerve of the thigh. In the remaining cadavers the descending branch of the inferior gluteal artery was passing lateral to the posterior cutaneous nerve of the thigh in 19 out of 24 specimens [79.2% of lower limbs]. It was descending below the gluteal fold with the posterior cutaneous nerve of the thigh in a common connective tissue sheath in 21 out of 24 specimens. In all dissected lower limbs, one or two cutaneous branches of the descending branch of inferior gluteal artery and one or two cutaneous nerves were supplying the infragluteal perforator flap. Loop of nerves was found surrounding the inferior gluteal artery and its descending branch in 3 out of 24 lower limbs [12.5%]. Knowledge of the vascular anatomy extends the clinical applicability of the posterior thigh fasciocutaneous flap to patients who might otherwise be excluded because of prior injury or operative procedure

Pentazocine-induced fibrous myopathy and localized neuropathy.

A 47 year-old woman who had a 4-year history of intramuscular pentazocine injections in the lower extremities, developed gradual stiffness and weakness of the lower extremities. The thigh and buttock muscles were "wooden-hard" on palpation. The skin was hard, shiny and hairless. Associated clinical and electrophysiological polyradiculopathy and multiple mononeuropathy of the lower extremities were observed. Imaging studies showed calcification and fibrosis of the involved muscles. Muscle biopsy revealed fibrous myopathy. Caution in longterm usage and early recognition of pentazocine toxicity as a neuromuscular complication are important in order to prevent irreversible drug-induced fibrous myopathy and localized neuropathy.

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