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Robotic right ventricle is a biohybrid platform that simulates right ventricular function in (patho)physiological conditions and intervention

Robotic right ventricle is a biohybrid platform that simulates right ventricular function in (patho)physiological conditions and intervention
Robotic right ventricle is a biohybrid platform that simulates right ventricular function in (patho)physiological conditions and intervention

The increasing recognition of the right ventricle (RV) necessitates the development of RV-focused interventions, devices and testbeds. In this study, we developed a soft robotic model of the right heart that accurately mimics RV biomechanics and hemodynamics, including free wall, septal and valve motion. This model uses a biohybrid approach, combining a chemically treated endocardial scaffold with a soft robotic synthetic myocardium. When connected to a circulatory flow loop, the robotic right ventricle (RRV) replicates real-time hemodynamic changes in healthy and pathological conditions, including volume overload, RV systolic failure and pressure overload. The RRV also mimics clinical markers of RV dysfunction and is validated using an in vivo porcine model. Additionally, the RRV recreates chordae tension, simulating papillary muscle motion, and shows the potential for tricuspid valve repair and replacement in vitro. This work aims to provide a platform for developing tools for research and treatment for RV pathophysiology.

1310-1326
Singh, Manisha
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Bonnemain, Jean
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Ozturk, Caglar
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Ayers, Brian
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Saeed, Mossab Y.
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Quevedo-Moreno, Diego
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Rowlett, Meagan
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Park, Clara
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Fan, Yiling
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Nguyen, Christopher T.
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Roche, Ellen T.
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Singh, Manisha
81e1f176-600e-4b05-a8c2-85d67bc00ad3
Bonnemain, Jean
3af327cb-2132-4569-abba-6347a3f8b3f7
Ozturk, Caglar
70bbd3bd-fc56-48e8-8b5e-00d5270c1526
Ayers, Brian
569cfd36-1f72-4fca-b614-9d502227b23b
Saeed, Mossab Y.
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Quevedo-Moreno, Diego
2fd1ff58-266d-4d02-9679-07c731da27ef
Rowlett, Meagan
7365a3bb-6881-4522-a85f-e976eb64272c
Park, Clara
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Fan, Yiling
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Nguyen, Christopher T.
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Roche, Ellen T.
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Singh, Manisha, Bonnemain, Jean, Ozturk, Caglar, Ayers, Brian, Saeed, Mossab Y., Quevedo-Moreno, Diego, Rowlett, Meagan, Park, Clara, Fan, Yiling, Nguyen, Christopher T. and Roche, Ellen T. (2023) Robotic right ventricle is a biohybrid platform that simulates right ventricular function in (patho)physiological conditions and intervention. Nature Cardiovascular Research, 2 (12), 1310-1326. (doi:10.1038/s44161-023-00387-8).

Record type: Article

Abstract

The increasing recognition of the right ventricle (RV) necessitates the development of RV-focused interventions, devices and testbeds. In this study, we developed a soft robotic model of the right heart that accurately mimics RV biomechanics and hemodynamics, including free wall, septal and valve motion. This model uses a biohybrid approach, combining a chemically treated endocardial scaffold with a soft robotic synthetic myocardium. When connected to a circulatory flow loop, the robotic right ventricle (RRV) replicates real-time hemodynamic changes in healthy and pathological conditions, including volume overload, RV systolic failure and pressure overload. The RRV also mimics clinical markers of RV dysfunction and is validated using an in vivo porcine model. Additionally, the RRV recreates chordae tension, simulating papillary muscle motion, and shows the potential for tricuspid valve repair and replacement in vitro. This work aims to provide a platform for developing tools for research and treatment for RV pathophysiology.

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Accepted/In Press date: 2 November 2023
Published date: 8 December 2023

Identifiers

Local EPrints ID: 490865
URI: http://eprints.soton.ac.uk/id/eprint/490865
DOI: doi:10.1038/s44161-023-00387-8
PURE UUID: ad48ee25-3f73-4e04-a5db-e2242b45df87
ORCID for Caglar Ozturk: ORCID iD orcid.org/0000-0002-3688-0148

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Date deposited: 07 Jun 2024 16:38
Last modified: 08 Jun 2024 02:11

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Contributors

Author: Manisha Singh
Author: Jean Bonnemain
Author: Caglar Ozturk ORCID iD
Author: Brian Ayers
Author: Mossab Y. Saeed
Author: Diego Quevedo-Moreno
Author: Meagan Rowlett
Author: Clara Park
Author: Yiling Fan
Author: Christopher T. Nguyen
Author: Ellen T. Roche

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