Application of multiobjective neural predictive control to biventricular assistance using dual rotary blood pumps

Rotary blood pumps are used to provide mechanical circulatory support to the failing heart in patients who are ineligible or waiting for a transplant. One of the major challenges when implementing two rotary blood pumps for biventricular support is the difficulty in maintaining pulmonary and systemi...

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Main Authors: Ng, Boon Chiang, Salamonsen, Robert F., Gregory, Shaun D., Stevens, Michael C., Wu, Yi, Mansouri, Mahdi, Lovell, Nigel H., Lim, Einly
Format: Article
Published: Elsevier 2018
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Online Access:http://eprints.um.edu.my/21152/
https://doi.org/10.1016/j.bspc.2017.07.028
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spelling my.um.eprints.211522019-05-07T07:57:31Z http://eprints.um.edu.my/21152/ Application of multiobjective neural predictive control to biventricular assistance using dual rotary blood pumps Ng, Boon Chiang Salamonsen, Robert F. Gregory, Shaun D. Stevens, Michael C. Wu, Yi Mansouri, Mahdi Lovell, Nigel H. Lim, Einly R Medicine Rotary blood pumps are used to provide mechanical circulatory support to the failing heart in patients who are ineligible or waiting for a transplant. One of the major challenges when implementing two rotary blood pumps for biventricular support is the difficulty in maintaining pulmonary and systemic circulatory volume balance. In this study, a novel multiobjective neural predictive controller (MONPC) hybridized with a preload-based Frank-Starling-like controller (PFS) has been proposed for a dual rotary blood pump biventricular assist device in two different configurations: PFS L -MONPC R and MONPC L -PFS R . The flow rate of one pump is regulated by PFS as a function of preload, while the other pump is controlled by MONPC, which is intended to meet cardiac demand, avoid pulmonary congestion and ventricular suction. A comparative assessment was performed between the proposed controllers and a Dual Independent Frank-Starling-like control system (DI-FS) as well as a constant speed controller. The numerical simulation results showed that MONPC L -PFS R helped unload the congested left ventricle while maintaining high cardiac output during exercise. In contrast, improper flow regulation by DI-FS has resulted in pulmonary congestion. During blood loss, PFS L -MONPC R delivered the lowest suction risk, as compared to the constant speed mode, which produced negative right ventricular preload. When sensor noise and time delays were introduced in the flow and end-diastolic pressure signals, the proposed controllers were able to respond with adequate robustness during the transition from rest to exercise. This study demonstrated that the proposed controllers are superior in matching the pump flow with the cardiac demand without causing hemodynamic instabilities. Elsevier 2018 Article PeerReviewed Ng, Boon Chiang and Salamonsen, Robert F. and Gregory, Shaun D. and Stevens, Michael C. and Wu, Yi and Mansouri, Mahdi and Lovell, Nigel H. and Lim, Einly (2018) Application of multiobjective neural predictive control to biventricular assistance using dual rotary blood pumps. Biomedical Signal Processing and Control, 39. pp. 81-93. ISSN 1746-8094 https://doi.org/10.1016/j.bspc.2017.07.028 doi:10.1016/j.bspc.2017.07.028
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic R Medicine
spellingShingle R Medicine
Ng, Boon Chiang
Salamonsen, Robert F.
Gregory, Shaun D.
Stevens, Michael C.
Wu, Yi
Mansouri, Mahdi
Lovell, Nigel H.
Lim, Einly
Application of multiobjective neural predictive control to biventricular assistance using dual rotary blood pumps
description Rotary blood pumps are used to provide mechanical circulatory support to the failing heart in patients who are ineligible or waiting for a transplant. One of the major challenges when implementing two rotary blood pumps for biventricular support is the difficulty in maintaining pulmonary and systemic circulatory volume balance. In this study, a novel multiobjective neural predictive controller (MONPC) hybridized with a preload-based Frank-Starling-like controller (PFS) has been proposed for a dual rotary blood pump biventricular assist device in two different configurations: PFS L -MONPC R and MONPC L -PFS R . The flow rate of one pump is regulated by PFS as a function of preload, while the other pump is controlled by MONPC, which is intended to meet cardiac demand, avoid pulmonary congestion and ventricular suction. A comparative assessment was performed between the proposed controllers and a Dual Independent Frank-Starling-like control system (DI-FS) as well as a constant speed controller. The numerical simulation results showed that MONPC L -PFS R helped unload the congested left ventricle while maintaining high cardiac output during exercise. In contrast, improper flow regulation by DI-FS has resulted in pulmonary congestion. During blood loss, PFS L -MONPC R delivered the lowest suction risk, as compared to the constant speed mode, which produced negative right ventricular preload. When sensor noise and time delays were introduced in the flow and end-diastolic pressure signals, the proposed controllers were able to respond with adequate robustness during the transition from rest to exercise. This study demonstrated that the proposed controllers are superior in matching the pump flow with the cardiac demand without causing hemodynamic instabilities.
format Article
author Ng, Boon Chiang
Salamonsen, Robert F.
Gregory, Shaun D.
Stevens, Michael C.
Wu, Yi
Mansouri, Mahdi
Lovell, Nigel H.
Lim, Einly
author_facet Ng, Boon Chiang
Salamonsen, Robert F.
Gregory, Shaun D.
Stevens, Michael C.
Wu, Yi
Mansouri, Mahdi
Lovell, Nigel H.
Lim, Einly
author_sort Ng, Boon Chiang
title Application of multiobjective neural predictive control to biventricular assistance using dual rotary blood pumps
title_short Application of multiobjective neural predictive control to biventricular assistance using dual rotary blood pumps
title_full Application of multiobjective neural predictive control to biventricular assistance using dual rotary blood pumps
title_fullStr Application of multiobjective neural predictive control to biventricular assistance using dual rotary blood pumps
title_full_unstemmed Application of multiobjective neural predictive control to biventricular assistance using dual rotary blood pumps
title_sort application of multiobjective neural predictive control to biventricular assistance using dual rotary blood pumps
publisher Elsevier
publishDate 2018
url http://eprints.um.edu.my/21152/
https://doi.org/10.1016/j.bspc.2017.07.028
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score 13.211869