Localización biométrica de los puntos motores del músculo cuádriceps femoral de individuos brasileños / Biometric localization of the motor points of the femoral quadriceps muscle of Brazilian individuals

El músculo cuadríceps femoral es un músculo que participa principalmente en los movimientos de la rodilla y también en la cadera, pudiendo ser afectado por alteraciones en el trofismo muscular, tras lesiones de estas articulaciones o afecciones en el tono muscular, como la espasticidad, tras lesiones cerebrovasculares. Cada una de sus cabezas está inervada por ramos del nervio femoral. El presente estudio tuvo por objetivo la identificación y medición de la distancia de los puntos motores (Pm) del músculo cuadríceps femoral, en relación a estructuras anatómicas de relevancia clínica. Se utilizaron 30 miembros inferiores de 23 cadáveres formolizados, de individuos brasileños adultos. El estudio fue realizado en la Universidade Estadual de Ciências da Saúde de Alagoas (UNCISAL), Maceió, Brasil. Se realizó la disección por planos en la zona medial, anterior y lateral del muslo, identificando a los ramos del nervio femoral para cada componente, músculos recto femoral (mRf), vasto medial (mVm), vasto intermedio (mVint) y vasto lateral (mVlat), localizando cada uno de los Pm. Las mediciones se realizaron con un cáliper marca Mitutoyo de 0,05 mm de precisión. Los datos obtenidos fueron tratados estadísticamente, utilizando para ello, el software STATA (versión 14.1). El mRf, tuvo un promedio de 2,45 ± 1,39 Pm, estando la gran mayoría de los Pm (63 %), en la zona distal del tercio proximal del muslo; el mVm presentó 4,42 ± 2,74 Pm en promedio, encontrándose el 41 % de ellos en el tercio medio del muslo, zona distal; el mVint tuvo 3,99 ± 2,34 Pm en promedio y el 58 % de ellos, se localizaron en la zona proximal del tercio medio del muslo; el mVlat presentó un promedio de 3,88 ± 2,37 Pm y el 50 % de éstos se encontraron en del tercio proximal del muslo. La localización biométrica de los Pm se informa en resultados. La ubicación biométrica de los Pm, favorecerá el quehacer, tanto clínico como quirúrgico, de la zona anterior del muslo.

The quadriceps femoris muscle is a muscle that participates mainly in the movements of the knee and also in the hip, being able to be affected by alterations in muscle trophism, after injuries of these joints or muscular tone conditions, such as spasticity, after injuries cerebrovascular. Each of its heads is innervated by branches of the femoral nerve. The objective of this study was to identify and measure the distance of the motor points (MP) of the quadriceps femoris muscle, in relation to anatomical structures of clinical relevance. Thirty lower limbs of 23 formolized corpses of adult Brazilian individuals were used. The study was conducted at the State University of Ciências da Saúde de Alagoas (UNCISAL), Maceió, Brazil. The dissection was performed by planes in the medial, anterior and lateral thigh, identifying the femoral nerve branches for each component, rectus femoris muscles (Rfm), medial vastus (mVm), vastus intermedius (intVm) and vastus lateralis ( latVm), locating each of the MP. The measurements were made with a Mitutoyo caliper of 0.05 mm accuracy. The data obtained were treated statistically, using the STATA software (version 14.1). The Rfm had an average of 2.45 ± 1.39 MP, the great majority of the MP (63 %) being in the distal area of the proximal third of the thigh; the mVm presented 4.42 ± 2.74 MP on average, with 41 % of them in the middle third of the thigh, distal zone; the intVm had 3.99 + 2.34 MP on average and 58 % of them were located in the proximal area of the middle third of the thigh; the latVm presented an average of 3.88 ± 2.37 MP and 50 % of these were found in the proximal third of the thigh. The biometric localization of the MP is reported in results. The biometric location of the MP, will favor the task, both clinical and surgical of the anterior thigh area.

Transient Receptor Potential Vanilloid 1-Immunoreactive Innervation Increases in Fractured Rat Femur

PURPOSE: Pain from vertebral or femoral neck fractures is a particularly important problem in clinical orthopaedics. Transient receptor potential vanilloid 1 (TRPV1) is a ligand-gated nonselective cation channel, and there are recent reports on an association between bone pain and TRPV1. However, an increase in TRPV1 activity has not been reported following femoral fracture. MATERIALS AND METHODS: We applied a neurotracer [Fluoro-gold (FG)] onto femur to detect dorsal root ganglia (DRGs) innervating the cortex of the femur in 30 Sprague Dawley rats. Seven days after application, a closed mid-diaphyseal fracture of the femur was performed. FG labeled TRPV1-immunoreactive (ir) DRGs innervating the femur were examined in nonfractured controls, and 3 days, 1 week, 2 weeks, and 4 weeks after fracture. We evaluated bone healing of the femur and compared the ratio of TRPV1-ir DRG neurons innervating the femur at the time points. RESULTS: Four weeks after fracture, complete bone union was observed. There was no significant difference in the ratio of FG labeled DRG neurons to total DRG neurons at each time point. The percentages of TRPV1-ir neurons in DRGs innervating the femur at 3 days and 1 week after fracture were significantly higher than those in control, 2 weeks, and 4 weeks after fracture (p<0.05). CONCLUSION: Fracture induced an increase of TRPV1-ir neurons in DRGs innervating the fractured femur within 3 days, and decreased during bone healing over 4 weeks. These findings show that TRPV1 may play a role in sensory sensation of bone fracture pain.

Increase of TRPV1-Immunoreactivity in Dorsal Root Ganglia Neurons Innervating the Femur in a Rat Model of Osteoporosis

PURPOSE: Transient receptor potential vanilloid 1 (TRPV1) is a ligand-gated nonselective cation channel, which can be activated by capsaicin and other noxious stimuli. Recently, an association between bone pain and TRPV1 has been reported. However, the influence of osteoporosis on TRPV1 in the sensory system innervating the femur has not been reported. MATERIALS AND METHODS: TRPV1-immunoreactive (ir) in dorsal root ganglia (DRG) neurons labeled with neurotracer [Fluoro-Gold (FG)] innervating the femurs of Sprague Dawley rats were examined in control, sham, and ovariectomized (OVX) rats. We evaluated osteoporosis in the femurs and compared the proportion of TRPV1-ir DRG neurons innervating femur between the 3 groups of rats. RESULTS: OVX rats showed osteoporotic cancellous bone in the femur. FG labeled neurons were distributed from L1 to L6 DRG, but there was no significant difference in the proportion of labeled neurons between the 3 groups (p>0.05). The proportions of FG labeled TRPV1-ir DRG neurons were 1.7%, 1.7%, and 2.8% of DRG neurons innervating the femur, in control, sham-operated, and OVX rats, respectively. The proportion of TRPV1-ir neurons in DRG innervating the femur in OVX rats was significantly higher than that in control and sham-operated rats (p<0.05). CONCLUSION: Under physiological conditions, DRG neurons innervating femurs in rats contain TRPV1. Osteoporosis increases the numbers of TRPV1-ir neurons in DRG innervating osteoporotic femurs in rats. These findings suggest that TRPV1 may have a role in sensory perception of osteoporotic femurs.