Anterior Cruciate Ligament (ACL) typically exhibits non-linear stress-strain characteristics related to its fibers behavior and distribution, which intrinsically define its functional properties. Aim of this study was to design and test a dedicated setup able to acquire the volumetric fibrous microstructure in ACL samples, under increasing mechanical strain, thus to obtain useful information for the definition of an optimal graft to be used during its reconstruction.

G. Marchiori, A.P. (2018). MicroCT-traction apparatus to follow anterior cruciate ligament fibrous structure under strain. Milano.

MicroCT-traction apparatus to follow anterior cruciate ligament fibrous structure under strain

N. Sancisi;M. Conconi;L. Luzi;S. Zaffagnini;
2018

Abstract

Anterior Cruciate Ligament (ACL) typically exhibits non-linear stress-strain characteristics related to its fibers behavior and distribution, which intrinsically define its functional properties. Aim of this study was to design and test a dedicated setup able to acquire the volumetric fibrous microstructure in ACL samples, under increasing mechanical strain, thus to obtain useful information for the definition of an optimal graft to be used during its reconstruction.
2018
Proceedings of GNB2018
1
3
G. Marchiori, A.P. (2018). MicroCT-traction apparatus to follow anterior cruciate ligament fibrous structure under strain. Milano.
G. Marchiori, A. Parrilli, N. Sancisi, M. Conconi, M. Berni, L. Luzi, R. Calzoni, G. Cassiolas, Milena Fini, S. Zaffagnini, N. Lopomo
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/677590
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