In Vitro Clot Trapping Efficiency of the FDA Generic Inferior Vena Cava Filter in an Anatomical Model: An Experimental Fluid–Structure Interaction Benchmark-Reference-Cited by-同舟云学术

In Vitro Clot Trapping Efficiency of the FDA Generic Inferior Vena Cava Filter in an Anatomical Model: An Experimental Fluid–Structure Interaction Benchmark

Published:2021-03-08 Issue:3 Volume:12 Page:339-352
ISSN:1869-408X
Container-title:Cardiovascular Engineering and Technology
language:en
Short-container-title:Cardiovasc Eng Tech

Author:

Riley J. M.,Price N. S.,Saaid H. M.,Good B. C.,Aycock K. I.,Craven B. A.,Manning K. B.^ORCID

Funder

U.S. Food and Drug Administration

Publisher

Springer Science and Business Media LLC

Subject

Cardiology and Cardiovascular Medicine,Biomedical Engineering

Link

https://link.springer.com/content/pdf/10.1007/s13239-021-00524-z.pdf

Reference55 articles.

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3. Aycock, K. I., R. L. Campbell, F. C. Lynch, K. B. Manning, and B. A. Craven. Computational predictions of the embolus-trapping performance of an IVC filter in patient-specific and idealized IVC geometries. Biomech. Model. Mechanobiol. 16:1957–1969, 2017.

4. Aycock, K. I., R. L. Campbell, K. B. Manning, and B. A. Craven. A resolved two-way coupled CFD/6-DOF approach for predicting embolus transport and the embolus-trapping efficiency of IVC filters. Biomech. Model. Mechanobiol. 16:851–869, 2017.

5. Aycock, K. I., R. L. Campbell, K. B. Manning, S. P. Sastry, S. M. Shontz, F. C. Lynch, and B. A. Craven. A computational method for predicting inferior vena cava filter performance on a patient-specific basis. J. Biomech. Eng. 136(8):081003, 2014.

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