S Condino1, G Turini2,3, S Parrini4, A Stecco5, F Busoni6, V Ferrari7,8, M Ferrari9,10, M Gesi11,12. 1. EndoCAS Center, Department of Translational Research on New Technologies in Medicine and Surgery, University of Pisa, Ospedale di Cisanello, Via Paradisa 2, 56124, Pisa, Italy. sara.condino@endocas.org. 2. EndoCAS Center, Department of Translational Research on New Technologies in Medicine and Surgery, University of Pisa, Ospedale di Cisanello, Via Paradisa 2, 56124, Pisa, Italy. gturini@kettering.edu. 3. Department of Computer Science, Kettering University, Flint, MI, USA. gturini@kettering.edu. 4. EndoCAS Center, Department of Translational Research on New Technologies in Medicine and Surgery, University of Pisa, Ospedale di Cisanello, Via Paradisa 2, 56124, Pisa, Italy. simone.parrini@endocas.org. 5. Department of Internal Medicine, Sport Medicine Unit, University of Padua, Padua, Italy. antonio.stecco@unipd.it. 6. Information Engineering Department, University of Pisa, Pisa, Italy. 7. EndoCAS Center, Department of Translational Research on New Technologies in Medicine and Surgery, University of Pisa, Ospedale di Cisanello, Via Paradisa 2, 56124, Pisa, Italy. vincenzo.ferrari@endocas.org. 8. Information Engineering Department, University of Pisa, Pisa, Italy. vincenzo.ferrari@endocas.org. 9. EndoCAS Center, Department of Translational Research on New Technologies in Medicine and Surgery, University of Pisa, Ospedale di Cisanello, Via Paradisa 2, 56124, Pisa, Italy. mauro.ferrari@med.unipi.it. 10. Department of Translational Research on New Technologies in Medicine and Surgery, University of Pisa, Pisa, Italy. mauro.ferrari@med.unipi.it. 11. EndoCAS Center, Department of Translational Research on New Technologies in Medicine and Surgery, University of Pisa, Ospedale di Cisanello, Via Paradisa 2, 56124, Pisa, Italy. 12. Department of Translational Research on New Technologies in Medicine and Surgery, University of Pisa, Pisa, Italy.
Abstract
PURPOSE: Recently, there has been an increasing interest in the role of deep fascia mobility in musculoskeletal dynamics and chronic pain mechanisms; however, no strategies have been presented so far to study in vivo fascial motion in 3D. This paper presents a semiautomatic method, based on ultrasound (US) imaging, enabling a 3D evaluation of fascia mobility. METHODS: The proposed approach relies on the acquisition of 3D US datasets at rest and during a voluntary muscular contraction and consists of two phases: 3D US dataset analysis and generation of a displacement vector field using a block matching technique (Phase 1) and validation and filtering of the resulting displacement vector field for outliers removal (Phase 2). The accuracy and effectiveness of the proposed method were preliminarily tested on different 3D US datasets, undergoing either simulated (procedural) or real (muscular contraction) deformations. RESULTS: As for the simulated deformation, estimated displacement vectors resulting from Phase 1 presented a mean magnitude percentage error of 8.05 % and a mean angular error of 4.78° which, after Phase 2, were reduced by 69.44 and by 83.05 %, respectively. Tests on real deformations further validated the effectiveness of Phase 2 in the removal of outliers from the displacement vector field. CONCLUSIONS: Obtained results preliminarily demonstrate the viability of the proposed algorithm for the analysis of fascia mobility. Such analysis can enable clinicians to better understand the fascia role in musculoskeletal dynamics and disorder. Further experiments are needed to optimize the method in consideration of the anatomical region to be studied.
PURPOSE: Recently, there has been an increasing interest in the role of deep fascia mobility in musculoskeletal dynamics and chronic pain mechanisms; however, no strategies have been presented so far to study in vivo fascial motion in 3D. This paper presents a semiautomatic method, based on ultrasound (US) imaging, enabling a 3D evaluation of fascia mobility. METHODS: The proposed approach relies on the acquisition of 3D US datasets at rest and during a voluntary muscular contraction and consists of two phases: 3D US dataset analysis and generation of a displacement vector field using a block matching technique (Phase 1) and validation and filtering of the resulting displacement vector field for outliers removal (Phase 2). The accuracy and effectiveness of the proposed method were preliminarily tested on different 3D US datasets, undergoing either simulated (procedural) or real (muscular contraction) deformations. RESULTS: As for the simulated deformation, estimated displacement vectors resulting from Phase 1 presented a mean magnitude percentage error of 8.05 % and a mean angular error of 4.78° which, after Phase 2, were reduced by 69.44 and by 83.05 %, respectively. Tests on real deformations further validated the effectiveness of Phase 2 in the removal of outliers from the displacement vector field. CONCLUSIONS: Obtained results preliminarily demonstrate the viability of the proposed algorithm for the analysis of fascia mobility. Such analysis can enable clinicians to better understand the fascia role in musculoskeletal dynamics and disorder. Further experiments are needed to optimize the method in consideration of the anatomical region to be studied.
Entities:
Keywords:
3D ultrasound; Fascia; Fascial layers mobility
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