Sergio Ruiz de Galarreta scite author profile

The goal of this work is to develop a framework for manufacturing nonuniform wall thickness replicas of abdominal aortic aneurysms (AAAs). The methodology was based on the use of computed tomography (CT) images for virtual modeling, additive manufacturing for the initial physical replica, and a vacuum casting process and range of polyurethane resins for the final rubberlike phantom. The average wall thickness of the resulting AAA phantom was compared with the average thickness of the corresponding patient-specific virtual model, obtaining an average dimensional mismatch of 180 μm (11.14%). The material characterization of the artery was determined from uniaxial tensile tests as various combinations of polyurethane resins were chosen due to their similarity with ex vivo AAA mechanical behavior in the physiological stress configuration. The proposed methodology yields AAA phantoms with nonuniform wall thickness using a fast and low-cost process. These replicas may be used in benchtop experiments to validate deformations obtained with numerical simulations using finite element analysis, or to validate optical methods developed to image ex vivo arterial deformations during pressure-inflation testing.

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Additively manufactured lattice structures with controlled transverse isotropy for orthopedic porous implants

Alaña

Lopez-Arancibia

Ghouse

et al. 2022

Computers in Biology and Medicine

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Analytical model of the elastic behavior of a modified face-centered cubic lattice structure

Alaña

Lopez-Arancibia

Pradera-Mallabiabarrena

et al. 2019

Journal of the Mechanical Behavior of Biomedical Materials

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