Partial LVAD restores ventricular outputs and normalizes LV but not RV stress distributions in the acutely failing heart in silico.
Partial LVAD restores ventricular outputs and normalizes LV but not RV stress distributions in the acutely failing heart in silico.
Purpose: Heart failure is a worldwide epidemic that is unlikely to change as the population ages and life expectancy increases. We sought to detail significant recent improvements to the Dassault Systèmes Living Heart Model (LHM) and use the LHM to compute left ventricular (LV) and right ventricular (RV) myofiber stress distributions under the following 4 conditions: (1) normal cardiac function; (2) acute left heart failure (ALHF); (3) ALHF treated using an LV assist device (LVAD) flow rate of 2 L/min; and (4) ALHF treated using an LVAD flow rate of 4.5 L/min.
Methods and Results: Incorporating improved systolic myocardial material properties in the LHM resulted in its ability to simulate the Frank-Starling law of the heart. We decreased myocardial contractility in the LV myocardium so that LV ejection fraction decreased from 56% to 28%. This caused mean LV end diastolic (ED) stress to increase to 508% of normal, mean LV end systolic (ES) stress to increase to 113% of normal, mean RV ED stress to decrease to 94% of normal and RV ES to increase to 570% of normal. When ALHF in the model was treated with an LVAD flow rate of 4.5 L/min, most stress results normalized. Mean LV ED stress became 85% of normal, mean LV ES stress became 109% of normal and mean RV ED stress became 95% of normal. However, mean RV ES stress improved less dramatically (to 342% of normal values).
Conclusions: These simulations strongly suggest that an LVAD is effective in normalizing LV stresses but not RV stresses that become elevated as a result of ALHF.
421-430
Sack, K.L.
ecdad0f1-5231-42f7-97d0-d62fc88fc446
Baillargeon, B.
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Acevedo-Bolton, G.
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Genet, M.
7ffb2c51-28d9-447e-ac3f-26ed94c15e69
Rebelo, N.
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Kuhl, E.
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Klein, L.
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Weisenthaler, G.M.
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Burkhoff, D.
19a39776-e134-4155-adeb-74b3a16f7c40
Franz, T.
d489e297-8608-4ec9-a428-ad31c7d15f05
Guccione, J.M.
295f15ee-a960-47e5-8c6d-a299a69a74e5
10 October 2016
Sack, K.L.
ecdad0f1-5231-42f7-97d0-d62fc88fc446
Baillargeon, B.
b00ed1d7-a4d7-4919-ad9f-6ec0783eca1d
Acevedo-Bolton, G.
16a5f9a7-1ac6-428e-baad-c4b5a24ebd5e
Genet, M.
7ffb2c51-28d9-447e-ac3f-26ed94c15e69
Rebelo, N.
d16e60c1-4a0e-4a42-abd4-7818be9cc2e5
Kuhl, E.
657fbf98-2455-4bd1-afb7-e9560f6ccab7
Klein, L.
0b1d26fb-e5a8-4d9c-ac37-12601bce9e3a
Weisenthaler, G.M.
32c52775-e5db-4ad2-ac66-b88d0a184ff9
Burkhoff, D.
19a39776-e134-4155-adeb-74b3a16f7c40
Franz, T.
d489e297-8608-4ec9-a428-ad31c7d15f05
Guccione, J.M.
295f15ee-a960-47e5-8c6d-a299a69a74e5
Sack, K.L., Baillargeon, B., Acevedo-Bolton, G., Genet, M., Rebelo, N., Kuhl, E., Klein, L., Weisenthaler, G.M., Burkhoff, D., Franz, T. and Guccione, J.M.
(2016)
Partial LVAD restores ventricular outputs and normalizes LV but not RV stress distributions in the acutely failing heart in silico.
The International Journal of Artificial Organs, 39 (8), .
(doi:10.5301/ijao.5000520).
Abstract
Purpose: Heart failure is a worldwide epidemic that is unlikely to change as the population ages and life expectancy increases. We sought to detail significant recent improvements to the Dassault Systèmes Living Heart Model (LHM) and use the LHM to compute left ventricular (LV) and right ventricular (RV) myofiber stress distributions under the following 4 conditions: (1) normal cardiac function; (2) acute left heart failure (ALHF); (3) ALHF treated using an LV assist device (LVAD) flow rate of 2 L/min; and (4) ALHF treated using an LVAD flow rate of 4.5 L/min.
Methods and Results: Incorporating improved systolic myocardial material properties in the LHM resulted in its ability to simulate the Frank-Starling law of the heart. We decreased myocardial contractility in the LV myocardium so that LV ejection fraction decreased from 56% to 28%. This caused mean LV end diastolic (ED) stress to increase to 508% of normal, mean LV end systolic (ES) stress to increase to 113% of normal, mean RV ED stress to decrease to 94% of normal and RV ES to increase to 570% of normal. When ALHF in the model was treated with an LVAD flow rate of 4.5 L/min, most stress results normalized. Mean LV ED stress became 85% of normal, mean LV ES stress became 109% of normal and mean RV ED stress became 95% of normal. However, mean RV ES stress improved less dramatically (to 342% of normal values).
Conclusions: These simulations strongly suggest that an LVAD is effective in normalizing LV stresses but not RV stresses that become elevated as a result of ALHF.
Text
2016 Sack et al IJAO man.pdf
- Accepted Manuscript
Text
IJAO-D-15-00144.pdf
- Version of Record
More information
Accepted/In Press date: 28 August 2016
e-pub ahead of print date: 14 September 2016
Published date: 10 October 2016
Organisations:
Bioengineering Group, nCATS Group
Identifiers
Local EPrints ID: 405648
URI: http://eprints.soton.ac.uk/id/eprint/405648
ISSN: 0391-3988
PURE UUID: 80db22c8-22d7-4227-bf2d-d4fc4f7b862b
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Date deposited: 10 Feb 2017 10:13
Last modified: 15 Mar 2024 04:34
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Contributors
Author:
K.L. Sack
Author:
B. Baillargeon
Author:
G. Acevedo-Bolton
Author:
M. Genet
Author:
N. Rebelo
Author:
E. Kuhl
Author:
L. Klein
Author:
G.M. Weisenthaler
Author:
D. Burkhoff
Author:
T. Franz
Author:
J.M. Guccione
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