Abstract
BackgroundMuscle fiber orientation (MFO) is an important parameter related to musculoskeletal functions. The traditional manual method for MFO estimation in sonograms was labor-intensive. The automatic methods proposed in recent years also involved voting procedures which were computationally expensive.MethodsIn this paper, we proposed a new framework to efficiently estimate MFO in sonograms. We firstly employed Multi-scale Vessel Enhancement Filtering (MVEF) to enhance fascicles in the sonograms and then the enhanced images were binarized. Finally, line-shaped patterns in the binary map were detected one by one, according to their shape properties. Specifically speaking, for the long-and-thinner regions, the orientation of the targeted muscle fibre was directly computed, without voting procedures, as the orientation of the ellipse that had the same normalized second central moments as the region. For other cases, the Hough voting procedure might be employed for orientation estimation. The performance of the algorithm was evaluated using four various group of sonograms, which are a dataset used in previous reports, 33 sonograms of gastrocnemius from 11 young healthy subjects, one sonogram sequence including 200 frames from a subject and 256 frames from an aged subject with cerebral infarction respectively.ResultsIt was demonstrated in the experiments that measurements of the proposed method agreed well with those of the manual method and achieved much more efficiency than the previous Re-voting Hough Transform (RVHT) algorithm.ConclusionsResults of the experiments suggested that, without compromising the accuracy, in the proposed framework the previous orientation estimation algorithm was accelerated by reduction of its dependence on voting procedures.
Highlights
Muscle fiber orientation (MFO) is an important parameter related to musculoskeletal functions
In a previous study, we proposed the Re-voting Hough Transform (RVHT) algorithm to realize the automatic estimation of MFO in muscular sonograms [3]
Results on the dataset from previous reports Totally 314 lines were detected in the 45 sonograms from previous reports [3,5], among which 313 were regarded as being valid according to visual verification and 8 lines were detected using Hough transform (HT)
Summary
Muscle fiber orientation (MFO) is an important parameter related to musculoskeletal functions. Ultrasonography is being widely used as a clinical and research tool for dynamic studies of the muscle during contraction and relaxation, since it’s real-time, widely available, radiation-free and low-cost Muscle architectural characteristics, such as pennation angle or fiber orientation [1,2,3,4,5,6,7,8], fascicle length [1,2,9,10,11,12], fascicle curvature [13,14,15,16] and muscle thickness [9,17,18,19,20,21], can be extracted from ultrasonography to evaluate the muscle function and activity. Some methods have been developed to extract curve features of muscle fiber [12,27], the detection of lineshaped patterns in musculoskeletal sonograms, as key step of pennation angle estimation, is still of great interests to the field [9,28,29,30]
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