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Aurelio Cappozzo
Researcher at Foro Italico University of Rome
Publications - 148
Citations - 12033
Aurelio Cappozzo is an academic researcher from Foro Italico University of Rome. The author has contributed to research in topics: Kinematics & Gait (human). The author has an hindex of 42, co-authored 148 publications receiving 11243 citations. Previous affiliations of Aurelio Cappozzo include Indiana University & University of Sassari.
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Mobility assessment of patients with facioscapulohumeral dystrophy.
Marco Iosa,Claudia Mazzà,Roberto Frusciante,Mounir Zok,Irene Aprile,Enzo Ricci,Aurelio Cappozzo +6 more
TL;DR: Instrumented movement analysis was able to distinguish from normal controls also a group of patients in which clinical assessments did not show any obvious abnormalities and had been evaluated as normal, encouraging its use for the evaluation of therapeutic trial outcomes for this disease.
Journal ArticleDOI
A soft tissue artefact model driven by proximal and distal joint kinematics
TL;DR: The generalizability of a calibrated model across different movements was proved doable, albeit limited to movement patterns similar to those of the calibration movement, even if joint rotation ranges can be remarkably different.
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Generalized mathematical representation of the soft tissue artefact
TL;DR: The objective of this study was to propose a generalized mathematical representation of the STA which would be applicable for most plausible definitions of it, and a modal approach was used that allows for the splitting of a given STA into additive components (modes).
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A hip joint kinematics driven model for the generation of realistic thigh soft tissue artefacts.
TL;DR: This study aimed at modelling STAs, in twelve selected areas of the thigh, as a linear function of the hip angles, assuming no knee joint movement, and confirmed the subject-dependency of the phenomenon.
Journal ArticleDOI
Wheelchair Propulsion Biomechanics in Junior Basketball Players: A Method for the Evaluation of the Efficacy of a Specific Training Program
Elena Bergamini,Francesca Morelli,Flavia Marchetti,Giuseppe Vannozzi,L. Polidori,Francesco Paradisi,Marco Traballesi,Aurelio Cappozzo,Anna Sofia Delussu +8 more
TL;DR: The biomechanical indicators proved to be effective in providing additional information about the wheelchair propulsion technique with respect to the final test outcome and demonstrated the efficacy of the developed program.