A Parametric Analysis of Endovascular Stent Geometry Manipulation on Radial Force Performance

Stents were manufactured to investigate the impact of altering stent design characteristics (leg length, bend angle, bend radius, and wire diameter) on radial force generation. Results from this design parameter study showed that leg length, bend angle, and wire diameter have a statistically signifi...

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Veröffentlicht in:	Journal of medical devices 2020-12, Vol.14 (4)
Hauptverfasser:	Scott, Joel C. R, Doman, Darrel A, Johnston, Clifton R
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Sprache:	eng
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container_title	Journal of medical devices
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creator	Scott, Joel C. R Doman, Darrel A Johnston, Clifton R
description	Stents were manufactured to investigate the impact of altering stent design characteristics (leg length, bend angle, bend radius, and wire diameter) on radial force generation. Results from this design parameter study showed that leg length, bend angle, and wire diameter have a statistically significant impact on radial force generation, while lesser changes in bend radius did not (1.00 mm versus the original 0.794 mm). However, a larger variation of this parameter (1.588 mm) was statistically significant. Results gathered for all parameters were used in the creation of a prototypal software. Using input values of patient-specific arterial diameter and compliance, as well as stent design characteristic dimensions, this program has been developed to predict stent radial force at varying levels of expansion.
doi_str_mv	10.1115/1.4048233
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title	A Parametric Analysis of Endovascular Stent Geometry Manipulation on Radial Force Performance
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