The Accessory Muscular Head of the Triceps Brachii Muscle with Tendinous Attachment / Cabeza Muscular Accesoria del Músculo Triceps Braquial con Inserción Tendinosa

SUMMARY: Variations in the triceps brachii muscle are uncommon, and especially limited reports exist on the accessory heads of tendinous origin that attach near the upper medial part of the humerus. During anatomical training at Nagasaki University School of Medicine, the accessory head of the triceps brachii muscle was observed on the right upper arm of a 72-year-old Japanese female. It arose tendinously from the medial side of the upper humerus, then formed a muscle belly and joined the distal side of the long head. This accessory head had independent nerve innervation, and the innervating nerve branched from a bundle of the radial nerve, which divided the nerve innervating the long head and the posterior brachial cutaneous nerve. The origin of the innervation of the accessory head was the basis for determining that this muscle head was an accessory muscle to the long head of the triceps brachii muscle. Embryologically, we discuss that part of the origin of the long head of the triceps brachii muscle was separated early in development by the axillary nerve and the posterior brachial circumflex artery, and it slipped into the surgical neck of the humerus and became fixed there. The accessory head crossed the radial nerve and deep brachial artery. When clinicians encounter compression of the radial nerve or profunda brachii artery, they should consider the presence of accessory muscles as a possible cause.

Las variaciones en el músculo tríceps braquial son poco comunes y existen informes especialmente limitados sobre las cabezas accesorias de origen tendinoso que se insertan cerca de la parte medial superior del húmero. Durante un entrenamiento anatómico en la Facultad de Medicina de la Universidad de Nagasaki, se observó la cabeza accesoria del músculo tríceps braquial en la parte superior del brazo derecho de una mujer japonesa de 72 años. Se originaba tendinosamente desde el lado medial de la parte superior del húmero, luego formaba un vientre muscular y se unía al lado distal de la cabeza larga. Esta cabeza accesoria tenía inervación nerviosa independiente, cuyo nervio se ramificaba a partir de un ramo del nervio radial, que dividía el nervio que inervaba la cabeza larga y el nervio cutáneo braquial posterior. El origen de la inervación de la cabeza accesoria fue la base para determinar que esta cabeza muscular era un músculo accesorio de la cabeza larga del músculo tríceps braquial. Embriológicamente, discutimos que parte del origen de la cabeza larga del músculo tríceps braquial se separó temprananamente en el desarrollo por el nervio axilar y la arteria circunfleja braquial posterior, y se deslizó hacia el cuello quirúrgico del húmero y quedó fijado allí. La cabeza accesoria cruzaba el nervio radial y la arteria braquial profunda. Cuando los médicos encuentran compresión del nervio radial o de la arteria braquial profunda, deben considerar la presencia de mús- culos accesorios como una posible causa.

A rare variation of radial nerve coexisting with the intercalated ectopic muscle from latissimus dorsi muscle / Una rara variación del nervio radial que coexiste con el músculo ectópico intercalado del músculo latísimo del dorso

SUMMARY: The axilla is the main communication channel connecting the upper limbs, the neck and chest. Stabilization of the internal structure is essential for upper limb and shoulder mobility. In this case, we observed and recorded the characteristics of the variation of the radial nerve as well as the intercalated ectopic muscle from latissimus dorsi muscle. The position relationship between both, was also particularly noted by us. In view of the presence of the variation we reported, related clinical research, surgery and disease diagnosis are expected to take this case into account.

La axila es el principal canal de comunicación que conecta los miembros superiores, el cuello y el tórax. La estabilización de la estructura interna es fundamental para la movilidad del miembro superior y del hombro. En este caso observamos y registramos las características de la variación del nervio radial así como del músculo ectópico intercalado del músculo latísimo del dorso. La relación de posición entre ambas también fue significativa en este estudio. En vista de la presencia de la variación que informamos, se espera que la investigación clínica relacionada con la cirugía y el diagnóstico de la enfermedad tengan en cuenta este caso.

The posterior interosseous nerve at the proximal forearm: anatomical study and clinical correlation / El nervio interóseo posterior en el antebrazo proximal: estudio anatómico y correlación clínica

SUMMARY: The deep branch of the radial nerve (DBRN) runs through the radial tunnel, which is a muscle-aponeurotic structure that extends from the humeral lateral epicondyle to the distal margin of the supinator muscle (SM). The Posterior Interosseous Nerve (PIN) originates as a direct continuation of the DBRN as it emerges from the SM and supplies most of the muscles of the posterior compartment of the forearm. The PIN can be affected by compressive neuropathies, especially at the "Arcade of Frohse". Its preservation is of special interest in surgical approaches to proximal radius fractures and in compressive syndromes release, for which surgeons must have an adequate anatomical knowledge of its course. This descriptive cross-sectional study evaluated 40 upper limbs of fresh cadavers. The diameters of the DBRN, the length of the radial tunnel, and the distances to the supinator arch, PIN emergence and PIN bifurcation were measured. The deep branch of the radial nerve (DBRN) has a course of 23.8 ± 3.7 mm from its origin to the supinator arch, presenting a diameter of 2.2 ± 0.3 mm at that level. The length of the radial tunnel was 42.2 ± 4 mm. The PIN originated 70.7 ± 3.5 mm distal to the lateral epicondyle. Type I corresponds to the division of the PIN during its journey through the radial tunnel, presenting in 35 % of cases, and Type II corresponds to the division of the PIN distal to its emergence from the radial tunnel presenting in the remaining 65 %. This study enriches the knowledge of the PIN and provides useful reference information on a Latin American mestizo sample. We propose the division pattern of the PIN into two types. Future studies may use this classification not only as a qualitative variable, but also include quantitative morphometric measurements.

El ramo profundo del nervio radial (RPNR) discurre por el túnel radial, que es una estructura músculo- aponeurótica que se extiende desde el epicóndilo lateral del húmero humeral hasta el margen distal del músculo supinador (MS). El nervio interóseo Posterior (NIP) se origina como una continuación directa del RPNR cuando emerge del MS e inerva la mayoría de los músculos del compartimiento posterior del antebrazo. El NIP puede verse afectado por neuropatías compresivas, especialmente en la "Arcada de Frohse". Su conservación es de especial interés en los abordajes quirúrgicos de las fracturas proximales de radio y en la liberación de síndromes compresivos, para lo cual los cirujanos deben tener un adecuado conocimiento anatómico de su curso. Este estudio descriptivo transversal evaluó 40 miembros superiores de cadáveres frescos. Se midieron los diámetros de la RPNR, la longitud del túnel radial y las distancias al arco supinador, la emergencia del NIP y la bifurcación del NIP. El RPNR tenía un recorrido de 23,8 ± 3,7 mm desde su origen hasta el arco supinador, presentando un diámetro de 2,2 ± 0,3 mm a ese nivel. La longitud del túnel radial fue de 42,2 ± 4 mm. El NIP se originó 70,7 ± 3,5 mm distal al epicóndilo lateral. El tipo I corresponde a la división del NIP durante su recorrido por el túnel radial presentándose en el 35 % de los casos, y el tipo II corresponde a la división del NIP distal a su salida del túnel radial presentándose en el 65 % restante. Este estudio enriquece el conocimiento del NIP y proporciona información de referencia útil sobre una muestra de mestizos latinoamericanos. Proponemos el patrón de división del NIP en dos tipos. Futuros estudios pueden utilizar esta clasificación no solo como una variable cualitativa, sino también incluir medidas morfométricas cuantitativas.

Tumor de nervio periférico: una localización poco habitual / Peripheral nerve tumor: an unusual location

Benign tumors of peripheral nerves called Schwannomas or neurilemomas, correspond to a rare pathology, represent 5% of all tumors of the upper extremity, and affects, mainly, the ulnar nerve. The incidence of Schwannoma in the literature for the radial nerve is not clearly established given the infrequency of its presentation, there are only reports of isolated cases The following publication presents the case of a male patient with a radial nerve schwannoma. Clinically, presents increased painful volume on palpation, well delimited, of soft consistency in the distal third of the right arm of 3 years of evolution, without history of previous trauma, without irradiation, or paresthesia, with preservation of motor and sensory function of radial, median and ulnar nerve. Considering that the involvement of the radial nerve is very low frequency, a review is carried out in PubMed, in the last 10 years, there are only 9 studies, grouped in case reports and imaging studies for diagnosis.

Parálisis del nervio radial neonatal: relato de un caso / Isolated radial nerve palsy in a newborn: case report

La parálisis radial neonatal aislada (PRNA) es un cuadro clínico infrecuente que debe distinguirse de otras entidades más frecuentes, como la parálisis braquial obstétrica (PBO). Debemos sospechar una PRNA en neonatos que presentan incapacidad para la extensión de muñeca y de dedos, pero mantienen intacta la función del deltoides, del bíceps, y del tríceps, así como la flexión de muñeca y de dedos. Mientras la PBO tiene una evolución clínica variable dependiendo de la extensión de la lesión neurológica, la PRNA presenta una resolución espontánea, independientemente del grado de afectación inicial. Presentamos el caso de un recién nacido con PRNA cuyo diagnóstico inicial fue de PBO.

Isolated radial nerve palsy (IRNP) in the newborn is a rare clinical condition that must be distinguished from entities that are more common, such brachial plexus birth palsy (BPBP). It should be suspected in newborns presenting with absent wrist and digital extension but intact deltoid, biceps, and triceps function, as well as wrist and digital flexor function. Whereas BPBP is highly variable depending on the extent of the neurological involvement, IRNP resolves spontaneously, regardless of the severity of the initial presentation. We herein present a case of newborn with IRNP whose initial diagnosis was of BPBP.

Neurotización del nervio circunflejo por vía axilar, estudio cadavérico / Neurotization of the circumflex nerve through an axillary approach, cadaveric study

Objetivo Confirmar factibilidad técnica de la neurotización del nervio axilar por la rama motora de la porción larga del tríceps con el fin de definir la anatomía quirúrgica de los nervios radial y axilar. Materiales y métodos Veinte hombros de cadáver fueron intervenidos para transferencia de la rama del Nervio Radial para la porción larga del tríceps a la rama anterior del Nervio Axilar por abordaje axilar. Se confirmó la escogencia correcta del nervio receptor por abordaje posterior. Resultados Se logró una disección adecuada de la primera rama motora del nervio radial del nervio axilar y de la rama anterior del Nervio Axilar. El origen de la rama motora se encontró en promedio a 3,8mm (+/- 7,3mm) distal al borde superior del tendón del dorsal ancho. El nervio axilar se encontró cefálico al borde superior del dorsal ancho a una distancia promedio de 11,3mm (+/-2,13mm) y distal al redondo menor 3.05mm (+/- 1,3mm), sutura con la primera rama del radial en el 100% de los casos sin tensión y se confirmó la adecuada transferencia en todos los casos. Conclusión La neurotización del nervio axilar con la primera rama del nervio radial se logró con éxito en el 100% por vía axilar. Este abordaje es adecuado, evitando tener que realizar cambios de posición a prono y doble abordaje, y si se requiere procedimientos adicionales de reconstrucción en el mismo tiempo quirúrgico tipo Oberlin y exploraciones supraclaviculares del plexo braquial se pueden realizar sin cambio de posición.

Objective To confirm the technical feasibility of neurotization of the axillary nerve by the motor branch of the long head of the triceps in order to define the surgical anatomy of the radial and axillary nerves. Materials and method Twenty cadaver shoulders were operated on for transfer of the radial nerve branch for the long head of the triceps to the anterior branch of the axillary nerve by axillary approach. The correct choice of the receiving nerve was confirmed by posterior approach. Results An adequate dissection of the first motor branch of the radial nerve of the axillary nerve and of the anterior branch of the Axillary Nerve was achieved, The origin of the motor branch was found on average at 3.8mm (+/−7.3mm) distal to the superior border of the latissimus dorsi tendon. The axillary nerve was found 11.3mm (+/−2.13mm) cephalad to the upper border of the latissimus dorsi and 3.05mm (+/−1.3mm) distal to the teres minor. A tensionless coaptation was obtained in all cases. Conclusion Neurotization of the axillary nerve with the first branch of the radial nerve was successfully achieved through the axillary approach. This approach is adequate, avoiding position change to prone and double approach, and if additional reconstruction procedures are required at the same surgical time, Oberlin type and supraclavicular explorations of the brachial plexus can be performed without changing position.

Anatomy of the nerves, vessels, and muscular compartments of the forearm, as revealed by high-resolution ultrasound. Part 1: overall structure and forearm compartments

Abstract In recent decades, high-resolution ultrasound (HRUS) has revolutionized the morphological and structural evaluation of peripheral nerves and muscles, revealing details of the internal structure of the neural fascicles and muscle architecture. Applications range from diagnostics to interventional procedures. The anatomy of the forearm region is complex, with several muscles and an extensive network of vessels and nerves. To guarantee the success of the evaluation by HRUS, knowledge of the normal anatomy of the region is essential. The aim of these two companion articles is to present the normal anatomy of the nerves and compartments of the forearm, as revealed by HRUS, as well as the relationships between the main vessels and nerves of the region. Part 1 aims to review the overall structure of nerves, muscles and tendons, as seen on HRUS, and that of the forearm compartments. We present a practical approach, with general guidelines and tips on how best to perform the study. Part 2 is a pictorial essay about compartment vascularization and cutaneous innervation. Knowledge of the normal anatomy of the forearm improves the technical quality of the examinations, contributing to better diagnoses, as well as improving the performance and safety of interventional procedures.

Nervio interóseo posterior: origen, localización y trayecto nervioso: una revisión / Posterior interosseous nerve: origin, location and nerve path: a review

RESUMEN: El nervio interóseo posterior (NIP) ha sido utilizado como sinónimo ocontinuación inmediata del ramo profundo del nervio radial (RPNR) al emerger en el compartimiento posterior del antebrazo. Su origen tampoco es claro, describiéndose como nervio interóseo posterior a su trayecto proximal, intermedio o distal al músculo supinador. El objetivo de esta revisión es detallar la visión de diversos autores respecto al origen y trayecto del NIP, proponiendo una correcta terminología para estas estructuras. Se realizó una revisión bibliográfica de varios textos y de algunos artículos utilizados para la enseñanza de la anatomía humana, publicados entre los años 1800 y la actualidad. En la búsqueda, se determinaron criterios de inclusión que consideraban, anatomía humana, escritos en español, francés o inglés y que aludieran al NIP. Tras la exploración inicial se localizaron 18 libros, procedentes de Francia, Rusia, España, Argentina, Estados Unidos, Canadá, Reino Unido, Alemania, India y México. Una descripción del NIP más precisa, en cuanto al origen, trayecto y función, es aquella postulada por la vertiente francesa, correspondiendo a un origen terminal del ramo profundo del nervio radial, luego de emitir sus ramos musculares. Este delgado nervio transcurre adosado a la membrana interósea para luego avanzar por el cuarto compartimiento extensor, distribuyéndose en las articulaciones dorsales del carpo a quienes inerva sensitiva y propioceptivamente.

SUMMARY: The posterior interosseous nerve (PIN) has been used as a synonym or immediate continuation of the deep branch of the radial nerve as it emerges in the posterior compartment of the forearm. Its origin is not clear either, being described as a posterior interosseous nerve to its proximal, intermediate or distal path to the supinator muscle. The objective of this review is to detail the vision of various authors regarding the origin and path of the PIN, proposing a correct terminology for these structures. A bibliographic review of several texts and some articles used for the teaching of human anatomy, published between the 1800s and the present day, was carried out. In the search, inclusion criteria were determined that considered human anatomy, written in Spanish, French or English and that alluded to the PIN. After the initial exploration, 18 books were located, coming from France, Russia, Spain, Argentina, the United States, Canada, the United Kingdom, Germany, India and Mexico. A more precise description of the PIN, in terms of origin, path and function, is that postulated by the French literature, corresponding to a terminal origin of the deep branch of the radial nerve, after emitting its muscular branches. This thin nerve runs attached to the interosseous membrane to then advance through the fourth extensor compartment, distributing itself in the dorsal carpal joints to which it innervates sensitively and proprioceptively.

Triple transferencia tendinosa en la parálisis radial alta. A propósito de un caso / Triple tendinous transference in high radial paralysis. Apropos of a case

RESUMEN La parálisis del nervio radial producida por lesiones a nivel del brazo es considerada una parálisis alta, y se caracteriza por presentar la muñeca y los dedos flexionados y el pulgar en aducción con imposibilidad para la extensión de los mismos (muñeca y dedos). Todos los autores coinciden en que, para la extensión de la muñeca, el músculo de elección a transferir es el pronador redondo para el segundo radial. Sin embargo, hay diversidad de criterios sobre la utilización del palmar mayor o del cubital anterior para el extensor común de los dedos, y del palmar menor para el extensor largo del pulgar. Se presentó el caso de un paciente de 31 años de edad, con antecedente de accidente de tránsito y diagnóstico de parálisis radial alta de 18 meses de evolución, en el que se decide tratamiento quirúrgico utilizando el músculo cubital anterior después de una rehabilitación exitosa, obteniéndose excelentes resultados (AU).

ABSTRACT The radial nerve paralysis produced by lesions at the level of the arm is considered a high paralysis, and is characterized by presenting the wrist and fingers flexed and the thumb in adduction with impossibility of extending them (wrist and fingers). All consulted authors agree that, for wrist extension, the elective muscle to transfer is the round pronator for the second radial. However, there are different criteria on the use of the palmar major or anterior ulnar for the common finger extender, and the palmar minor for the long thumb extender. We presented the case of a 31-year-old patient, with a history of traffic accident and diagnosis of 18-month high radial paralysis, in which surgical treatment using the anterior ulnar muscle after a successful rehabilitation was decided, obtaining excellent results (AU).

Value of high-frequency ultrasonography in diagnosis of proximal radial nerve injuries associated with humeral shaft fractures / 中华创伤杂志

Objective:To evaluate the diagnostic accuracy and application value of high-frequency ultrasonography in proximal radial nerve injuries associated with humeral shaft fractures.Methods:A retrospective case series study was performed for 19 patients with proximal radial nerve injuries associated with humeral shaft fractures treated in Huashan Hospital Affiliated to Fudan University from August 2014 to September 2020. The were 17 males and 2 were females，with the age range of 16-55 years ［（38.1±12.7）years］. Of all，11 patients were injured at the left side and 8 at the right side. All the patients had histories of traumatic humeral shaft fracture and were treated in other hospitals，including internal fixation in 17 patients，external fixation in 1 and internal fixation combined with external fixation in 1. All patients underwent radial nerve exploration surgeries，among which 8 had high-level radial nerve release and 11 had high-level radial nerve suture or graft transplantation. All patients underwent high-frequency ultrasound examination before surgery. The ultrasonographic characteristics of the radial nerve were recorded，including the continuity of the epineurium，honey-comb structure on the transversal section，neuromas on the longitudinal section and external scar or callus or metal fixation compressing the nerve. The injury type and neural continuity of each radial nerve were evaluated. The radial nerves of type Ⅰ，type Ⅱ，type Ⅲa ，type Ⅲa ，type Ⅲb and type Ⅳ appeared as normal，swelling，short-segment compressed，neuroma-like and ruptured，respectively. Taking the intraoperative findings as the gold standard，the diagnostic coincidence rate，sensitivity，specificity，positive predictive value and negative predictive of high-frequency ultrasound were analyzed in diagnosis of proximal radial nerve injuries associated with humeral shaft fractures.Results:According to ultrasonographic characteristics，proximal radial nerve injuries were classified into 4 types in 5 subtypes. It was confirmed by surgeries that there were 1 patient with type Ⅱ，4 with type Ⅲa，1 with type Ⅲb and 13 with type Ⅳ，with no type Ⅰ. The diagnostic coincidence rate of high-frequency ultrasound was 89%. The diagnostic coincidence rate of type Ⅱ，type Ⅲa，type Ⅲa，type Ⅲb and type Ⅳ was 100%，100%，100% and 85%，respectively. The sensitivity of high-frequency ultrasound for evaluating the neural continuity was 75%，the specificity was 100%，the positive predictive value was 100%，the negative predictive value was 85%.Conclusions:The high-frequency ultrasound has a relatively high sensitivity and specificity in diagnosis of proximal radial nerve injuries associated with humeral shaft fractures，which can provide relatively accurate morphological information for clinical diagnosis and treatment.

Measurement of the Radial Nerve Danger Zone in Filipino Adults: A Cadaveric Study

@#Introduction: The radial nerve danger zone (RNDZ) is an important anatomic consideration to anticipate or prevent injury in trauma assessment or surgical fixation. No published estimate currently exists for Filipinos. In this study, we sought to provide a local estimate and explore potential predictors of this anatomic region in Filipino adult cadavers. Materials and methods: Posterior dissection to expose and measure the radial nerve, from the lateral epicondyle to the lateral intermuscular septum, was performed in 60 upper limbs from 30 formalin-preserved cadavers in the laboratory of the Department of Anatomy, College of Medicine, University of the Philippines Manila. Univariate and multivariate linear regression modelling was performed with RNDZ as the dependent variable and age, sex, height and humeral length as potential independent variables individually and in combinations. Results: The mean radial nerve length from the lateral epicondyle to the lateral intermuscular septum was estimated at 10.6 cm (95% confidence interval: 10.3 cm, 10.9cm). Height and humeral length were statistically significant univariate predictors in female cadavers, while only height was significant in male cadavers. In addition, all multivariate regression models were statistically significant and accounted for more than 57% of the variability in female RNDZ estimates. In comparison, only models that included height and age were statistically significant predictors of RNDZ and accounted for at most 22% of the variability of the estimate in males. Conclusion: The estimated length of the radial nerve danger zone generated in this study should be strongly considered over other published estimates in surgical fixation procedures performed in adult Filipinos.

Neuroapraxia tardía del nervio radial luego de manejo no quirúrgico de fractura de húmero por atrapamiento en callo óseo. Reporte de caso / Delayed neuroapraxia of the radial nerve after non-surgical management of humerus fracture due to entrapment in bone callus. Case report

Introducción Las fracturas de la diáfisis del húmero son frecuentes, con distribución bimodal en la población. El manejo no quirúrgico con inmovilización y brace funcional es considerado como el estándar de oro con algunas complicaciones determinadas que pueden ocurrir de forma temprana o tardía durante el tratamiento. El atrapamiento del nervio radial por el callo óseo con afectación neurológica es un evento raro publicado en la literatura. Materiales y métodos Se describen dos casos de neuroapraxia tardía del nervio radial en pacientes que sufrieron fracturas de trazos simples quienes cumplían criterios para tratamiento no quirúrgico. Se realizó una revisión narrativa de la literatura en bases de datos conocidas buscando casos similares para optimizar el manejo médico. Resultados Se presentan los desenlaces clínicos de los dos casos que fueron intervenidos quirúrgicamente por el mismo cirujano y que compartían los mismos diagnósticos de atrapamiento del nervio radial por callo óseo durante tratamiento inicial no quirúrgico. Se reportan los resultados de la revisión narrativa de la literatura. Discusión La neuroapraxia del nervio radial por atrapamiento en callo óseo en los primeros días de un tratamiento no quirúrgico para fracturas de trazos simples en diáfisis de húmero es una complicación rara pero posible que confirma la necesidad de una vigilancia estricta del paciente y de aclarar dicho evento.

Background Fractures of the shaft of the humerus are frequent, with bimodal distribution in the population. Non-surgical management with immobilization and a functional brace is considered the gold standard with some specific complications that can occur early or late during treatment. The entrapment of the radial nerve by the bone callus with neurological involvement is a rare event reported in literature. Methods Two cases of late radial nerve neuropraxia are described in patients who suffered simple line fractures who met criteria for nonsurgical treatment. A narrative review of the literature in known databases was carried out looking for similar cases to optimize medical management. Results The clinical outcomes of the two cases that underwent surgery by the same surgeon and that shared the same diagnoses of radial nerve entrapment due to bone callus during initial non-surgical treatment are presented. The results of the narrative review of the literature are reported. Discussion Neuropraxia of the radial nerve due to entrapment in bone callus in the first days of a non-surgical treatment for fractures of simple lines in the diaphysis of the humerus is a rare but possible complication that confirms the need for strict monitoring of the patient.

Anatomical Study of the Motor Branches of the Radial Nerve in the Forearm / Estudo anatômico dos ramos motores do nervo radial no antebraço

Abstract Objective To analyze the anatomical variations of the motor branches of the radial nerve in the elbow region. The origin, course, length, branches, motor points and relationships with neighboring structures were evaluated. Materials and Methods Thirty limbs from15 adult cadavers were dissected and prepared by intra-arterial injection of a 10% glycerin and formaldehyde solution. Results The first branch of the radial nerve in the forearm went to the brachioradialis muscle (BR), originating proximally to the division of the radial nerve into superficial branch of the radial nerve (SBRN) and posterior interosseous nerve (PIN) in all limbs. The branches to the extensor carpi radialis longus muscle (ECRL) detached from the proximal radial nerve to its division into 26 limbs, in 2, at the dividing points, in other 2, from the PIN. In six limbs, the branches to the BR and ECRL muscles originated from a common trunk. We identified the origin of the branch to the extensor carpi radialis brevis muscle (ECRB) in the PIN in 14 limbs, in the SBRN in 12, and in the radial nerve in only 4. The branch to the supinator muscle originated from the PIN in all limbs. Conclusion Knowledge of the anatomy of the motor branches of the radial nerve is important when performing surgical procedures in the region (such as the approach of the proximal third and the head of the radius, release of compressive syndromes of the posterior interosseous nerve and radial tunnel, and distal nerve transfers) in order to understand the order of recovery of muscle function after a nerve injury.

Resumo Objetivo Analisar as variações anatômicas dos ramos motores do nervo radial na região do cotovelo. Foram avaliadas a origem, curso, comprimento, ramificações, pontos motores e relações com estruturas vizinhas. Materiais e Métodos Foram dissecados 30 membros de 15 cadáveres adultos, preparados por injeção intra-arterial de uma solução de glicerina e formol a 10%. Resultados O primeiro ramo do nervo radial no antebraço foi para o músculo braquiorradial (BR), que se origina proximalmente à divisão do nervo radial em ramo superficial do nervo radial (RSNR) e nervo interósseo posterior (NIP) em todos os membros. Os ramos para o músculo extensor radial longo do carpo (ERLC) se desprenderam do nervo radial proximalmente à sua divisão em 26 membros, em 2, nos pontos de divisão, em outros 2, do NIP. Em seis, os ramos para os músculos BR e ERLC originavam-se de um tronco comum. Identificamos a origem do ramo para o músculo extensor radial curto do carpo (ERCC) no NIP em 14 membros, no RSNR em 12, e no nervo radial em apenas 4. O ramo para o músculo supinador originou-se do NIP em todos os membros. Conclusão O conhecimento da anatomia dos ramos motores do nervo radial é importante quando se realizam procedimentos cirúrgicos na região, como a abordagem do terço proximal e da cabeça do rádio, a liberação das síndromes compressivas do nervo interósseo posterior e do túnel radial, as transferências nervosas distais, e para entender a ordem de recuperação da função muscular após uma lesão nervosa.

Rama muscular hipertrófica de la arteria recurrente radial (Cuerda de Henry) en relación con el ramo profundo del nervio radial: reporte de caso / Hypertrophic muscular branch of radial recurrent artery (Leash of Henry), in relation to the deep branch of radial nerve: case report

La arteria recurrente radial nace en el extremo proximal de la arteria radial y desde ahí asciende oblicuamente para anastomosarse con la arteria colateral radial, entregando en ese trayecto una serie de ramas para los músculos cercanos. Dicha arteria junto con sus ramas fueron descritas (por su importancia en abordajes quirúrgicos) por Arnold K. Henry como "the radial leash". Actualmente en clínica se utiliza el nombre "leash of Henry" para referirse a una o más ramas musculares de la arteria recurrente radial, sobretodo cuando cuando se encuentran en relación con el ramo profundo del nervio radial, pudiendo llegar a causar compresiones de dicho nervio en algunos casos. Se realizó una descripción de caso de una leash of Henry atípica, encontrada en una muestra cadavérica del laboratorio de anatomía de la Universidad Católica del Maule, de sexo masculino y nacionalidad chilena. La arteria encontrada corresponde a la rama de mayor calibre de la arteria recurrente radial, que se dirige directamente al músculo extensor de los dedos, dibujando un trayecto horizontal y cruzando por anterior al ramo profundo del nervio radial. Esta hallazgo difere a lo descrito por Henry y otros autores más recientes, y por lo tanto aporta información potencialmente útil a la hora de realizar procedimientos quirúrgicos que requieran un abordaje posterior o lateral de la cabeza del radio, como también descompresiones del nervio radial en esta zona.

The radial recurrent artery originates at the proximal end of the radial artery and from there ascends obliquely to anastomosing with the radial collateral artery. It gives off several branches for nearby muscles on its path. This artery along with its branches were described (due to its importance in surgical approaches) by Arnold K. Henry as "the radial leash". Currently, in clinical terms, the name "Leash of Henry" is used to refer to one or more muscular branches of the radial recurrent artery, especially when they are in relation to the deep branch of the radial nerve, and may cause compression of the nerve in some cases. A case description of an atypical Leash of Henry was found, found in a Chilean, male cadaveric sample of the anatomy laboratory, Universidad Católica del Maule. The artery corresponds to the branch of greater caliber of the recurrent radial artery, which goes directly to the extensor digitorum muscle. It draws a horizontal path and crosses the deep branch of the radial nerve anteriorly. This finding differs from what was described by Henry and other more recent authors. Therefore, this is potentially useful information when performing surgical procedures that require a posterior or lateral approach to the radius head, as well as radial nerve decompressions in this area.

Fractura de húmero por estrés en lanzador de beisbol. Presentación de un caso / Humerus fracture by stress in baseball pitcher. Case presentation

RESUMEN Se presentó el caso de un adolescente que sufrió fractura por estrés del húmero izquierdo, mientras lanzaba en un partido de béisbol. Las fracturas de húmero por estrés son infrecuentes. Generalmente ocurre en los atletas que practican deportes de lanzamiento, es más frecuente en los lanzadores de béisbol amateurs de poca experiencia. Esta lesión es debida a la tracción muscular incoordinada y fuerza de torsión cuando la pelota es lanzada, asociada a la fatiga física. Puede ocurrir a nivel de los tercios medio y superior del húmero, entre las inserciones del deltoides y el pectoral mayor, así como en el tercio distal. Es común la presencia de dolor poco antes de producirse la fractura. Se enfatizó en la importancia de tener presente la posibilidad de presentación de este tipo de fractura en los atletas que practican deportes de lanzamientos, así como tener presente además las complicaciones que puedan presentarse a partir de este tipo de lesión. Se analizaron los datos recogidos en la historia clínica del paciente. Es importante pensar en este tipo de lesión, pues en ocasiones el cuadro clínico no es evidente. Se señaló además la necesidad de realizar un estricto seguimiento del paciente ante la posibilidad de lesión del nervio radial (AU).

ABSTRACT The authors present the case of a teenager who suffered left humerus fracture due to stress while he was pitching a baseball game. Humerus fractures caused by stress are infrequent. They commonly occur in athletes practicing throwing sports, being more frequent in amateur baseball pitchers with little experience. This lesion is due to uncoordinated muscular traction and torsion strength when the ball is thrown, all associated to physical fatigue. It can happen at the level of the medial and upper third of the humerus, between the insertions of deltoids and pectoral major muscles, and also in the distal third. The presence of pain is common a little before the fracture happens. The authors emphasize in the importance of taking into account the possibility of this kind of fracture occurring in athletes practicing throwing sports, and also the complications appearing after this kind of lesion. Data collected from the patient?s clinical record were analyzed. It is important to think in this kind of lesion because sometimes clinical characteristics are not evident. It was also pointed out the necessity of performing a strict follow-up of the patient given the possibility of radial nerve lesion (AU).

Peripheral nerve entrapments - rare causes of a common condition: case series

Compressive syndromes of peripheral nerves both in the upper and lower limbs are part of daily clinical practice; however, the etiological diagnosis can be challenging and impact on the outcome of the patient. We report five cases with rare etiologies of nerve entrapments: one in the lower limb and four in the upper limbs with the final diagnosis made only during the operation. The patients evolved without post-operative complications and had good outcomes. This series includes the first report of sciatic compression by a lipoma in the popliteal fossa, two lipomas one with compression of infraclavicular brachial plexus and another with compressing the posterior interosseous nerve, and two reports of vascular lesions due to blunt traumas, which are also uncommon. This series adds to the literature more hypotheses of differential diagnoses in nerve entrapments, which is fundamental to surgical decisions and pre-operative planning—and perhaps most importantly prevents wrong diagnosis of idiopathic compressions, which would lead to a completely wrong approach and unfavorable outcomes.

Anatomical Study of Radial Tunnel and its Clinical Implications in Compressive Syndromes / Estudo anatômico do túnel radial e suas implicações nas síndromes compressivas

Abstract Objective The purpose of the present study was to analyze the structures in the radial tunnel that can cause posterior interosseous nerve entrapment. Methods A total of 30 members of 15 adult cadavers prepared by intra-arterial injection of a 10% solution of glycerol and formalin were dissected. All were male, belonging to the laboratory of anatomy of this institution. Results The branch for the supinator muscle originated from the posterior interosseous nerve in all limbs. We identified the Frohse arcade with a well-developed fibrous constitution in 22 of the 30 dissected limbs (73%) and of muscular constitution in 8 (27%). The distal margin of the supinator muscle presented fibrous consistency in 7 of the 30 limbs (23.5%) and muscular appearance in 23 (76.5%). In the proximal margin of the extensor carpi radialis brevis muscle, we identified the fibrous arch in 18 limbs (60%); in 9 (30%) we noticed the arcade of muscular constitution; in 3 (10%) there was only the radial insertion, so that it did not form the arcade. Conclusion The Frohse arcade and the arcade formed by the origins of the extensor carpi radialis brevis are normal anatomical structures in adult cadavers. However, from the clinical point of view, these structures have the potential to cause entrapment of the posterior interosseous nerve.

Resumo Objetivo O objetivo do presente estudo foi analisar as estruturas contidas no túnel radial que podem causar neuropatia compressiva do nervo interósseo posterior. Métodos Foram dissecados 30 membros de 15 cadáveres adultos, preparados por injeção intra-arterial de uma solução de glicerina e formol a 10%. Todos do sexo masculino, pertencentes ao laboratório de anatomia desta instituição. Resultados O ramo para o músculo supinador originou-se do nervo interósseo posterior em todos os membros. Identificamos a arcada de Frohse com uma constituição fibrosa bem desenvolvida em 22 dos 30 membros dissecados (73%) e de constituição muscular em 8 (23%) A margem distal do músculo supinador apresentou consistência fibrosa em 7 dos 30 membros (23,5%) e uma aparência muscular em 23 (76,5%). Na margem proximal do músculo extensor radial curto do carpo, identificamos a arcada fibrosa em 18 membros (60%); em 9 (30%), notamos a arcada de constituição muscular; e em três (10%) havia apenas a inserção radial, de maneira que não formava a arcada. Conclusão A arcada de Frohse e a arcada formada pelas origens do músculo extensor radial curto do carpo são estruturas anatômicas normais em cadáveres adultos. No entanto, sob o ponto de vista clínico, essas estruturas têm potencial para causar a compressão do nervo interósseo posterior.

The Innervation Of Brachialis Muscle By Radial Nerve In Gujarat Region - A Human Cadaveric Study

Background: Though the supply to the human brachialis muscle by radial nerve has been investigated by manyauthors in past, but there is no consistency in these reports. The aim of the present study was to record theanatomical variations in radial nerve supply to the brachialis muscle.Materials and Methods: The material of the study consisted of 62 superior extremities obtained from dissectionlaboratory of department of anatomy, Medical College Baroda (Gujarat). All these extremities belonged to adultcadavers of known sex.Human brachialis muscle was identified with its proximal and distal attachment. The radial nerve branchinnervating to brachialis was identified and parameters like presence or absence of radial nerve branchinnervating to brachialis; number of branches; its length; site of emergence and its distance from lateral epicondyleand site of entry into brachialis were noted.Result: Brachialis muscle was innervated by a branch from radial nerve in 87.09% of cases. Varying number ofradial nerve branches (1 to 3) innervated the brachialis muscle. Most of these branches (91.93%) entered thelower one third of the muscle. The average length of these muscular branches was 9.17mm. The average distancefrom the site of emergence to the lateral epicondyle of humerus was 6.54 cm.Conclusion: Significant variations in supply of brachialis muscle were recorded. These variations are of clinicalimportance for surgeons, orthopaedicians and anaesthetists.

Anteromedial Surface Plating for Midshaft Fracture Humerus Through an Anterolateral Approach - A Better Option than Anterolateral Plating

@#Introduction: Osteosynthesis by plate fixation of humeral shaft fractures as a gold standard for fracture fixation has been proven beyond doubt. However, during conventional anterolateral plating Radial nerve injury may occur which can be avoided by applying plate on the medial flat surface. The aim of this study was to evaluate the results of application of plate on the flat medial surface of humerus rather than the conventional anterolateral surface. Materials and Methods: This study was conducted between Oct 2010 to Dec 2015. One-hundred-fifty fracture shafts of the humerus were treated with the anteromedial plating through the anterolateral approach. Results: One-hundred-fifty patients with a fracture shaft of the humerus were treated with anteromedial plating. Twenty were female (mean ±SD,28 years±4.5) and 130 were male (mean ± SD, 38 years±5.6). One hundred and forty-eight out of 150 (98.6%) patients achieved union at 12 months. Two of three patients developed a superficial infection, both of which were treated successfully by antibiotics and one developed a deep infection, which was treated by wound debridement, prolonged antibiotics with the removal of the plate and subsequently by delayed plating and bone grafting. Conclusion: In the present study, we applied plate on the anteromedial flat surface of humerus using the anterolateral approach. It is an easier and quicker fixation as compared to anterolateral plating because later involved much more dissection than a medial application of the plate and this application of plate on a medial flat surface, does not required Radial nerve exposure and palsy post-operatively. The significant improvement in elbow flexion without brachialis dissection is also a potential benefit of this approach. Based on our results, we recommend the application of an anteromedial plate for treatment of midshaft fractures humerus.

The course and branching patterns of the superficial branch of radial nerve in foetuses and clinical significance / Curso y patrones de ramificación del ramo superficial del nervio radial en fetos y su importancia clínica

Knowing the anatomical, topographic and morphometric properties of the superficial branch of the radial nerve (SBRN) in the forearm and the dorsum of the hand is important for minimizing nerve damage. The purpose of this study is to evaluate the anatomical and morphometric properties of SBRN in foetuses. Forty forearms of twenty-one foetuses (n=21) were dissected. The anatomical variations of SBRN in the dorsal forearm were assessed in three types (Type-1, Type-2 and Type-3). The innervation areas in dorsum of hand were assessed in four types (Type-1, Type-2, Type-3 and Type-4). The forearm length was divided to three part and emerging point of SBRN was determined as topographically. The relation of the SBRN with lateral antebrachial cutaneous nerve (LACN), anatomic snuffbox and cephalic vein was also evaluated. In forearm, Type-1 variation rate of SBRN was 87.5 %. In the dorsum of hand, Type-3 innervation pattern was 32.5 %. The emerging rate of SBRN in the middle third of the forearm was 74.4 %. There were nerve branches between LACN and SBRN or its terminal branches in 32.5 % of the forearms. The branches of SBRN passed within the margins of anatomic snuffbox in 50 % of the forearms. The most frequently branching type of SBRN was Type-1 in the forearm and Type-3 in the dorsum of hand in foetuses. These results may aid to minimize nerve injuries performed in clinical applications.

Conocer las propiedades anatómicas, topográficas y morfométricas del ramo superficial del nervio radial (RSNR) en el antebrazo y el dorso de la mano es importante para minimizar el daño a los nervios. El propósito de este estudio fue evaluar las propiedades anatómicas y morfométricas de RSNR en fetos. Fueron disecados 40 antebrazos de veintiún fetos. Las variaciones anatómicas de RSNR en el dorso del antebrazo se clasificaron en tres tipos (Tipo-1, Tipo-2 y Tipo-3). Las áreas de inervación en el dorso de la mano se evaluaron en cuatro tipos (Tipo 1, Tipo 2, Tipo 3 y Tipo 4). La longitud del antebrazo se dividió en tres partes y el punto emergente de RSNR se determinó topográficamente. Se evaluó la relación del RSRN con el nervio cutáneo antebraquial lateral (NCAL), la tabaquera anatómica y la vena cefálica. En el antebrazo, la tasa de variación de Tipo 1 de RSNR fue de 87,5 %. En el dorso de la mano, el patrón de inervación tipo 3 fue del 32,5 %. La emergencia del RSNR en el tercio medio del antebrazo fue de 74,4 %. En el 32,5 % de los antebrazos se observaron ramos nerviosos entre NCAL y RSNR. Los ramos de RSNR pasaron dentro de los límites de la tabaquera anatómica en 50 % de los antebrazos. El tipo de RSNS con ramificación más frecuente fue el Tipo 1 en el antebrazo y el Tipo 3 en el dorso de la mano en los fetos. Conocer las variaciones anatómicas de RSNS puede ayudar a minimizar las lesiones nerviosas durante los procedimientos clínicos.