Distensibility of Deformable Aortic Replicas Assessed by an Integrated In-Vitro and In-Silico Approach

Distensibility of Deformable Aortic Replicas Assessed by an Integrated In-Vitro and In-Silico Approach

The correct estimation of the distensibility of deformable aorta replicas is a challenging issue, in particular when its local characterization is necessary. We propose a combined in-vitro and in-silico approach to face this problem. First, we tested an aortic silicone arch in a pulse-duplicator ana...

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Bibliographic Details
Published in:Bioengineering (Basel) Vol. 9; no. 3; p. 94
Main Authors: Di Micco, Luigi, Comunale, Giulia, Bonvini, Stefano, Peruzzo, Paolo, Susin, Francesca Maria
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 26-02-2022
MDPI
Subjects:
Aorta
Aortic arch
aortic compliance
aortic distensibility
aortic phantom
Bioengineering
Compliance
Coronary vessels
Deformation
Diameters
Experiments
Flow velocity
Fluid dynamics
Fluid-structure interaction
Formability
FSI simulation
Hemodynamics
in-vitro experiments
Medical equipment
Physiology
pulse-duplicator
Silicones
aortic phantom
pulse-duplicator
aortic distensibility
FSI simulation
aortic compliance
in-vitro experiments
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Summary:The correct estimation of the distensibility of deformable aorta replicas is a challenging issue, in particular when its local characterization is necessary. We propose a combined in-vitro and in-silico approach to face this problem. First, we tested an aortic silicone arch in a pulse-duplicator analyzing its dynamics under physiological working conditions. The aortic flow rate and pressure were measured by a flow meter at the inlet and two probes placed along the arch, respectively. Video imaging analysis allowed us to estimate the outer diameter of the aorta in some sections in time. Second, we replicated the in-vitro experiment through a Fluid-Structure Interaction simulation. Observed and computed values of pressures and variations in aorta diameters, during the cardiac cycle, were compared. Results were considered satisfactory enough to suggest that the estimation of local distensibility from in-silico tests is reliable, thus overcoming intrinsic experimental limitations. The aortic distensibility ( ) is found to vary significantly along the phantom by ranging from 3.0 × 10 mmHg in the ascending and descending tracts to 4.2 × 10 mmHg in the middle of the aortic arch. Interestingly, the above values underestimate the obtained in preliminary tests carried out on straight cylindrical samples made with the same material of the present phantom. Hence, the current results suggest that should be directly evaluated on the replica rather than on the samples of the adopted material. Moreover, tests should be suitably designed to estimate the local rather than only the global distensibility.
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In memory of Professor Paolo Bariani.
ISSN:2306-5354
2306-5354
DOI:10.3390/bioengineering9030094