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Development of a simplified mock circulation loop for cardiovascular flow measurement

Development of a simplified mock circulation loop for cardiovascular flow measurement
Development of a simplified mock circulation loop for cardiovascular flow measurement
This study aims to develop an in-vitro testing platform for the cardiovascular flow, called mock circulation loop (MCL), where the system is simulated using hydraulic, mechanical, and electrical components. Although MCL’s have been widely used for testing ventricular assist devices or artificial organs, there are often complicate to fabricate. In addition, to aid the dynamic simulation of the aortic valve, a simplified MCL is compared with and without the compliance mechanism, also known as Windkessel effect. The construction of the prototype MCL is presented, which shows how the hydro-mechanical components correspond to that of the cardiovascular circulation. Results of the simulated blood pressure reading are then presented.
Cardiovascular Device Testing, In-Vitro Simulators, Mock Circulatory Loop
IEEE
Clet, Jing Angelo G.
389db60c-7964-43d7-95e9-0b6128e7c622
Lin, Yu-Sheng
440aa9be-06c0-49ef-b078-305bb8783619
Weng, Chen-Hsun
097bbb7b-d6cb-4ee1-bd29-267eaacab5c4
Ho, Ying-Lung Daniel
945e3431-b334-4d98-858f-c3fae452640f
Huang, Chung-Che Kevin
825f7447-6d02-48f6-b95a-fa33da71f106
Yan, Shuangyi
cd68fdb1-0569-4000-82bc-14da6e123ccf
Clet, Jing Angelo G.
389db60c-7964-43d7-95e9-0b6128e7c622
Lin, Yu-Sheng
440aa9be-06c0-49ef-b078-305bb8783619
Weng, Chen-Hsun
097bbb7b-d6cb-4ee1-bd29-267eaacab5c4
Ho, Ying-Lung Daniel
945e3431-b334-4d98-858f-c3fae452640f
Huang, Chung-Che Kevin
825f7447-6d02-48f6-b95a-fa33da71f106
Yan, Shuangyi
cd68fdb1-0569-4000-82bc-14da6e123ccf

Clet, Jing Angelo G., Lin, Yu-Sheng, Weng, Chen-Hsun, Ho, Ying-Lung Daniel, Huang, Chung-Che Kevin and Yan, Shuangyi (2023) Development of a simplified mock circulation loop for cardiovascular flow measurement. In 2023 15th Biomedical Engineering International Conference (BMEiCON). IEEE. 5 pp . (doi:10.1109/BMEiCON60347.2023.10321995).

Record type: Conference or Workshop Item (Paper)

Abstract

This study aims to develop an in-vitro testing platform for the cardiovascular flow, called mock circulation loop (MCL), where the system is simulated using hydraulic, mechanical, and electrical components. Although MCL’s have been widely used for testing ventricular assist devices or artificial organs, there are often complicate to fabricate. In addition, to aid the dynamic simulation of the aortic valve, a simplified MCL is compared with and without the compliance mechanism, also known as Windkessel effect. The construction of the prototype MCL is presented, which shows how the hydro-mechanical components correspond to that of the cardiovascular circulation. Results of the simulated blood pressure reading are then presented.

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More information

e-pub ahead of print date: 22 November 2023
Venue - Dates: The 15th Biomedical Engineering International Conference, Tokyo Institute of Technology: Suzukakedai Campus, Tokyo, Japan, 2023-10-28 - 2023-10-31
Keywords: Cardiovascular Device Testing, In-Vitro Simulators, Mock Circulatory Loop

Identifiers

Local EPrints ID: 486491
URI: http://eprints.soton.ac.uk/id/eprint/486491
PURE UUID: 2cc3c2b2-daa7-46f6-9e43-bd026418f690
ORCID for Chung-Che Kevin Huang: ORCID iD orcid.org/0000-0003-3471-2463

Catalogue record

Date deposited: 24 Jan 2024 17:42
Last modified: 18 Mar 2024 03:02

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Contributors

Author: Jing Angelo G. Clet
Author: Yu-Sheng Lin
Author: Chen-Hsun Weng
Author: Ying-Lung Daniel Ho
Author: Chung-Che Kevin Huang ORCID iD
Author: Shuangyi Yan

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