RESUMEN
BACKGROUND: Currently, there is no available method that can objectively and reliably detect subtle instability of the distal tibiofibular joint. The purpose of this study is to diagnose, using computerized axial tomography and an adjustable simulated loading device, subtle instability of the tibiofibular syndesmosis. METHODS: Fifteen healthy individuals and 15 patients with clinical suspicion of subtle instability of the tibiofibular syndesmosis (total 60 ankles) were studied using an adjustable simulated loading device (ASLD). This device allows to perform bilateral ankle CT scans in two forced foot and ankle positions (30° of plantar flexion, 15° of inversion, 20° of internal rotation and 15° of dorsal flexion, 15° of eversion, 30° of external rotation). Axial load was applied simultaneously in a controlled manner (70% body weight). Measurements on the axial image of computed tomography were: syndesmotic area (SA), fibular rotation (FR), position of the fibula in the sagittal plane (FPS), depth of the incisura (ID), anterior direct difference (ADD), middle direct difference (MDD) and posterior direct difference (PDD). RESULTS: Statistically significant differences were observed in the variable syndesmotic area between healthy (mean=-0.14, SD=4.33) and diseased (mean=16.82, SD=12.3)(p < 0.001). No statistically significant differences were found in the variables ADD, MDD, PDD, ID, FPS and FR. CONCLUSIONS: Measurement of syndesmotic area employing axial force and forced foot positions using the ASLD may be useful for the diagnosis of subtle tibiofibular syndesmosis instability.
Asunto(s)
Traumatismos del Tobillo , Inestabilidad de la Articulación , Humanos , Traumatismos del Tobillo/diagnóstico por imagen , Traumatismos del Tobillo/cirugía , Soporte de Peso , Peroné , Articulación del Tobillo/diagnóstico por imagen , Tomografía Computarizada por Rayos X/métodos , Inestabilidad de la Articulación/diagnóstico por imagenRESUMEN
Objetivo: Probar un método diagnóstico objetivo, fiable y reproducible que permita detectar la inestabili- dad sutil de la sindesmosis tibioperonea. Material y métodos: Se presenta el caso de un paciente con dolor recurrente sobre la articulación tibioperonea tras un esguince de tobillo. Ante la sospecha de lesión de los ligamentos tibioperoneos se realizó un TAC con carga axial y posiciones forzadas de ambos pies. Resultados: La diferencia en el área del espacio tibiopero- neo entre la posición de relajación y la posición de tensión de la sindesmosis en el tobillo sano fue de 5,79 mm2, mientras que en el tobillo lesionado fue de 22,58 mm2. Conclusión: El TAC con carga axial y posiciones forzadas de ambos pies puede ser útil para el diagnóstico de la inestabilidad sutil de la sindesmosis tibio- peronea. (AU)
Objetive: To test an objective, reliable and reproducible diagnostic method to detect subtle tibiofibular syn- desmosis instability. Material and methods: A case with recurrent pain over tibiofibular joint after an ankle sprain is presented. It was sus- pected injury to the tibiofibular ligaments so a CT with axial load and forced foot positions was done. Results: Difference in tibiofibular space area between the syndesmosis relaxed position and the tension position in the uninjured ankle was 5.79 mm2, while in the injured ankle it was 22.58 mm2. Conclusion: CT with axial load and forced foot positions can be useful for the diagnosis of subtle tibiofibular syndesmosis instability. (AU)
Asunto(s)
Humanos , Masculino , Adolescente , Articulación del Tobillo , Soporte de Peso , Esguinces y Distensiones , Ejercicio de SimulaciónRESUMEN
BACKGROUND: Syndesmosis measurments and indices have been controversial and showed interindividual variability. The purpose of this study was to analyze, by conventional axial computed tomography images and a simulated load device, the uninjured tibiofibular syndesmosis under axial force and forced foot positions. METHODS: A total of 15 healthy patients (30 ankles) were studied using adjustable simulated load device (ASLD). This device allowed to perform bilateral ankle CT scans in two forced foot and ankle positions (30° of plantar flexion, 15° of inversion, 20° of internal rotation and 15° of dorsal flexion, 15° of eversion, 30° of external rotation). Axial load was applied simultaneously in a controlled manner (70% body weight). Measurements on the axial image of computed tomography were: syndesmotic area (SA), fibular rotation (FR), position of the fibula in the sagittal plane (FPS), depth of the incisura (ID) and direct anterior difference (ADD), direct middle difference (MDD) and direct posterior difference (PDD). RESULTS: In patients without injury to the tibiofibular syndesmosis, the application of axial load and forced foot and ankle positions showed statistically significant differences on the distal tibiofibular measurements between the stressed and the relaxed position, it also showed interindividual variability : SA (median = 4.12 [IQR = 2.42, 6.63]) (p < 0.001), ADD (0.67 [0.14, 0.67]) (p < 0.001), MDD(0.45, [0.05, 0.9]) (p < 0.001), PDD (0.73 [-0.05, 0.73]) (p < 0.002). However, it did not detect statistically significant differences when the tibiofibular differences between the stressed and the relaxed position in one ankle were compared with the contralateral side: SA (-0.14, SD = 4.33 [95% CI = -2.53, 2.26]), ADD (-0.42, 1.08 [-1.02, 0.18]), MDD (0.29, 0.54 [-0.01, 0.59]), PDD (-0.1, 1.42 [-0.89, 0.68]). Interobserver reliability showed an Intraclass correlation coefficient of 0.990 [95% CI = 0.972, 0.997]. CONCLUSIONS: Wide interindividual variability was observed in all syndesmotic measurements, but no statistically significant differences were found when comparing one ankle to the contralateral side. Measuring syndesmosis alignment parameters, may only be of value, if those are compared to the contralateral ankle.
Asunto(s)
Articulación del Tobillo , Ligamentos Articulares , Articulación del Tobillo/diagnóstico por imagen , Peroné/diagnóstico por imagen , Humanos , Reproducibilidad de los Resultados , Tomografía Computarizada por Rayos X/métodosRESUMEN
The purpose of this study was to describe the normal 3D orientation and shape of the subtalar calcaneal posterior facet. This is not adequately described in current literature. In a supine position both feet of 20 healthy subjects were imaged in a simulated weight-bearing CT. A cylinder and plane were fitted to the posterior facet of the surface model. The orientation of both shapes was expressed by two angles in (1) the CT-based coordinate system with the axis of the foot aligned with the sagittal axis and (2) a coordinate system based on the geometric principal axes of the subject's calcaneus. The subtalar vertical angle was determined in the intersection in three different coronal planes of the cylinder. The cylinder's axis oriented from supero-postero-laterally to infero-antero-medially. The plane's normal directed supero-antero-medially in the CT-based coordinate system, and supero-antero-laterally in the other coordinate system. The subtalar vertical angle was significantly different (p < 0.001) between the three defined coronal planes and increased from anterior to posterior. The mean diameter of the fitted cylinder was 42.0 ± 7.7 mm and the root mean square error was 0.5 ± 0.1 mm. The posterior facet can be modelled as a segment of a cylinder with a supero-postero-lateral to infero-antero-medial orientation. The morphometry of the posterior facet in a healthy population serves as a reference in identifying abnormal subtalar joint morphology. More generally this study shows the need to include the full 3D morphology in assessing the orientation of the subtalar posterior facet. © 2018 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 9999:1-8, 2018.