Investigations on 3D foot posture, also with pathological musculoskeletal alterations, are of large clinical and biomechanical interest. However, a robust and reliable definition of relevant Anatomical Reference Systems (ARS) for the foot bones is still lacking. Thanks to the advancements in 3D medical imaging techniques, like Weight-Bearing CT, original characterisations of the foot posture are now feasible, based on novel ARS [1] which overcome the limitations of standard 2D measurements [2]. The present study is aimed at reporting an original technique based on the morphology of articular surfaces for the identification of ARS in the foot bones [3], and its application to characterize the foot in normal and pathological conditions.
A Novel Technique for Morphology-based Anatomical Reference System Definitions / M. Conconi, A. Pompili,N. Sancisi, A. Leardini, S. Durante, C Belvedere. - ELETTRONICO. - (2022), pp. 1-3. (Intervento presentato al convegno WCB 2022 tenutosi a Taipei nel 10-14 July 2022).
A Novel Technique for Morphology-based Anatomical Reference System Definitions
M. Conconi;N. Sancisi;
2022
Abstract
Investigations on 3D foot posture, also with pathological musculoskeletal alterations, are of large clinical and biomechanical interest. However, a robust and reliable definition of relevant Anatomical Reference Systems (ARS) for the foot bones is still lacking. Thanks to the advancements in 3D medical imaging techniques, like Weight-Bearing CT, original characterisations of the foot posture are now feasible, based on novel ARS [1] which overcome the limitations of standard 2D measurements [2]. The present study is aimed at reporting an original technique based on the morphology of articular surfaces for the identification of ARS in the foot bones [3], and its application to characterize the foot in normal and pathological conditions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.