SummaryBackground: Supersonic Shear Imaging (SSI) is a technique which analyses quantitatively the tissue properties in real time. The relation between joint torque and Young's modulus (E) of the agonist muscles is important for obtaining stratification values and ranges of normality. The aim of this study was to evaluate the intra and intersessions reliability of the E values of the Achilles tendon and medial gastrocnemius muscle, bilaterally, during rest, and correlate them with the isometric plantarflexion peak torque.
The Achilles tendon stores and releases strain energy, influencing running economy. The present study aims to verify the influence of the Achilles tendon tangent modulus, as a material property, on running economy by comparing two groups of elite endurance-performance athletes undergoing different running training volumes. Twelve athletes, six long-distance runners and six pentathletes, were studied. Long-distance runners had a higher weekly running training volume (116.7±13.7 vs. 58.3±20.4 km, p<0.05) and a better running economy (204.3±12.0 vs. 222.0±8.7 O2 mL ∙ kg−1 ∙ km−1, p<0.05) evaluated in a treadmill at 16 km·h–1, 1% inclination. Both groups presented similar VO2max (68.5±3.8 vs. 65.7±5.0 mL ∙ min−1 ∙ kg−1, p>0.05). Achilles tendon tangent modulus was estimated from ultrasound-measured deformations, with the ankle passively mobilized by a dynamometer. True stress was calculated from the measured torque. The long-distance runners had a higher maximum tangent modulus (380.6±92.2 vs. 236.2±82.6 MPa, p<0.05) and maximum true stress than pentathletes (24.2±5.1 vs. 16.0±3.5 MPa, p<0.05). The correlation coefficient between tangent modulus at larger deformations was R=–0.7447 (p<0.05). Quantifying tendon tissue adaptations associated with different running training volumes will support subject and modality-specific workouts prescription of elite endurance athletes.
Resumo -Há, atualmente, na literatura, poucas pesquisas de confiabilidade e validação da quantificação de parâmetros de arquitetura muscular por ultrassonografia (US), relatando informações importantes como o erro típico da medida (ETM) e o coeficiente de correlação intraclasse (ICC). O objetivo do estudo foi aplicar a técnica de US para quantificar as medidas de comprimento da fibra (CF) e ângulo de penação (AP) dos músculos gastrocnêmios e determinar a confiabilidade e a reprodutibilidade dessas medidas. Duas imagens de cada gastrocnêmio de 19 indivíduos jovens e saudáveis foram adquiridas com um equipamento de ultrassom modo-B (7,5MHz), em duas visitas. CF e AP foram medidos cinco vezes nas duas imagens de cada indivíduo, totalizando vinte medidas de cada parâmetro para cada participante. A confiabilidade do total das 760 medidas foi determinada através do coeficiente de variação (CV), ICC e ETM. O CV do CF variou de 1,67 a 4,44% e do AP de 3,8 a 11,62%. Todos os ICC se encontram no intervalo de grande confiabilidade, com exceção do valor referente à medida interdias do AP do gastrocnêmio medial (0,67). Os dois valores mais altos de ETM (3,1° e 3,7°) correspondem aos dois valores inferiores do ICC (0,67 e 0,83), referentes às medidas repetidas interdias dos gastrocnêmios. As medidas de CF dos gastrocnêmios medial e lateral apresentaram ETM de 2,17mm e 2,25mm, respectivamente. Os resultados obtidos demonstraram que a metodologia utilizada para medição de CF e AP realizada em imagens de ultrassom apresentou alta confiabilidade. Palavras-chave: Arquitetura muscular; Confiabilidade; Ultrassonografia. (FL) and pennation angle (PA) of the gastrocnemius muscle and to determine the reliability and reproducibility of these measurements. Two images of each gastrocnemius of 19 young healthy subjects were acquired using ultrasound equipment (7.5 MHz)
Abstract -There are few studies in the literature concerning the reliability and validity of the quantification of muscle architecture parameters using ultrasound that also report important information such as typical error of measurement (TEM) and intraclass correlation coefficient (ICC). The aim of this study was to use ultrasound imaging to quantify fiber length
Introduction: Ultrasound biomicroscopy (UBM) is a technique for generating high-resolution images, with frequencies from 20 MHz to 100 MHz. For example, it has been used in animal research related to models of injury and diseases that mimic human conditions. With a three-dimensional ultrasound (3D) image system, an organ can be viewed at various angles and the volume estimated, contributing to an accurate diagnosis. This work refers to the generation of 3D-UBM images, employing a 35 MHz ultrasound system, from multiple two-dimensional (2D) images. Phantoms were used to validate the technique and to determine its reliability of volume measurements. Additionally, the technique was used to obtain 3D images of the rat gastrocnemius muscle. Methods: Four different phantoms were used and ten acquisition sequences of 2D-images acquired for each one. Thereafter, 5 volume segmentations were performed for each acquisition sequence, resulting in 50 measured volumes for each phantom. The physical volumes of all phantoms were used to validate the technique based on the coefficient of variation (CV) and the intraclass correlation coefficient (ICC). Images of the gastrocnemius muscle were acquired and the partial volume quantified. Results: The CV and ICC confirmed the reliability of volume measurements obtained by segmentation. Moreover, cross-sectional 2D images of rat hindlimb were obtained, allowing to identify the gastrocnemius muscle and to partially quantify the muscle volume from 3D images. Conclusion: The results indicated that the technique is valid to generate 3D images and quantify the volume of a muscle compatible with the dimensions of a small animal.
This study used ultrasound biomicroscopy (UBM) to quantify the pennation angle (PA) and muscle thickness (MT) of rat skeletal muscle and evaluated the reliability and reproducibility of the method by statistical analysis, determining the coefficient of variation (CV), intraclass correlation coefficient (ICC) and typical error of measurement. A UBM system with a center frequency of 40 MHz was used to acquire images of the right lateral gastrocnemius of ten male Wistar rats on two different days and with two ankle positions (90° or 150°). Two independent measurements of the PA and MT were randomly performed in each of three picture frames. The analysis resulted in CVs of 10.47% and 4.81% for the PA and the MT, respectively, for the ankle at 90° and 9.24% and 5.98% for the ankle at 150°. Additionally, the ICC values ranged from 0.75 to 0.92 for the PA and 0.57 to 0.99 for the MT. Statistically significant differences between the ankle positions were observed for the PA (p = 0.00013). The reliability of the PA and MT measurements for the rat right lateral gastrocnemius, determined from the ultrasound biomicroscopy images, was high (>0.90) for the methodology proposed. This finding indicates the potential of ultrasound biomicroscopy for quantitative muscle characterization and the longitudinal examination of tissue adaptation to different conditions of use, disease and rehabilitation.
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