Computational modeling identifies embolic stroke of undetermined source patients with potential arrhythmic substrate

Savannah F. Bifulco; Griffin D. Scott; Sakher Sarairah; Zeinab Birjandian; Caroline H. Roney; Steven A. Niederer; Christian Mahnkopf; Peter Kuhnlein; Marcel Mitlacher; David Tirschwell; W. T. Longstreth; Nazem Akoum; Patrick M. Boyle

doi:10.7554/eLife.64213

Computational modeling identifies embolic stroke of undetermined source patients with potential arrhythmic substrate

Savannah F. Bifulco, Griffin D. Scott, Sakher Sarairah, Zeinab Birjandian, Caroline H. Roney, Steven A. Niederer, Christian Mahnkopf, Peter Kuhnlein, Marcel Mitlacher, David Tirschwell, W. T. Longstreth, Nazem Akoum, Patrick M. Boyle

Biomedical Engineering Department

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

Abstract

Cardiac magnetic resonance imaging (MRI) has revealed fibrosis in embolic stroke of undetermined source (ESUS) patients comparable to levels seen in atrial fibrillation (AFib). We used computational modeling to understand the absence of arrhythmia in ESUS despite the presence of putatively pro-arrhythmic fibrosis. MRI-based atrial models were reconstructed for 45 ESUS and 45 AFib patients. The fibrotic substrate's arrhythmogenic capacity in each patient was assessed computationally. Reentrant drivers were induced in 24/45 (53%) ESUS and 22/45 (49%) AFib models. Inducible models had more fibrosis (16.7 ± 5.45%) than non-inducible models (11.07 ± 3.61%; p<0.0001); however, inducible subsets of ESUS and AFib models had similar fibrosis levels (p=0.90), meaning that the intrinsic pro-arrhythmic substrate properties of fibrosis in ESUS and AFib are indistinguishable. This suggests that some ESUS patients have latent pre-clinical fibrotic substrate that could be a future source of arrhythmogenicity. Thus, our work prompts the hypothesis that ESUS patients with fibrotic atria are spared from AFib due to an absence of arrhythmia triggers.

Original language	English
Article number	e64213
Journal	eLife
Volume	10
DOIs	https://doi.org/10.7554/eLife.64213
Publication status	Published - 4 May 2021

Keywords

atrial fibrillation
computational biology
computational modeling & simulation
embolic stroke of
fibrosis
human
LGE-MRI
medicine
reentry
systems biology
undetermined source

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.7554/eLife.64213

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Bifulco, S. F., Scott, G. D., Sarairah, S., Birjandian, Z., Roney, C. H., Niederer, S. A., Mahnkopf, C., Kuhnlein, P., Mitlacher, M., Tirschwell, D., Longstreth, W. T., Akoum, N., & Boyle, P. M. (2021). Computational modeling identifies embolic stroke of undetermined source patients with potential arrhythmic substrate. eLife, 10, Article e64213. https://doi.org/10.7554/eLife.64213

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title = "Computational modeling identifies embolic stroke of undetermined source patients with potential arrhythmic substrate",

abstract = "Cardiac magnetic resonance imaging (MRI) has revealed fibrosis in embolic stroke of undetermined source (ESUS) patients comparable to levels seen in atrial fibrillation (AFib). We used computational modeling to understand the absence of arrhythmia in ESUS despite the presence of putatively pro-arrhythmic fibrosis. MRI-based atrial models were reconstructed for 45 ESUS and 45 AFib patients. The fibrotic substrate's arrhythmogenic capacity in each patient was assessed computationally. Reentrant drivers were induced in 24/45 (53%) ESUS and 22/45 (49%) AFib models. Inducible models had more fibrosis (16.7 ± 5.45%) than non-inducible models (11.07 ± 3.61%; p<0.0001); however, inducible subsets of ESUS and AFib models had similar fibrosis levels (p=0.90), meaning that the intrinsic pro-arrhythmic substrate properties of fibrosis in ESUS and AFib are indistinguishable. This suggests that some ESUS patients have latent pre-clinical fibrotic substrate that could be a future source of arrhythmogenicity. Thus, our work prompts the hypothesis that ESUS patients with fibrotic atria are spared from AFib due to an absence of arrhythmia triggers.",

keywords = "atrial fibrillation, computational biology, computational modeling & simulation, embolic stroke of, fibrosis, human, LGE-MRI, medicine, reentry, systems biology, undetermined source",

author = "Bifulco, {Savannah F.} and Scott, {Griffin D.} and Sakher Sarairah and Zeinab Birjandian and Roney, {Caroline H.} and Niederer, {Steven A.} and Christian Mahnkopf and Peter Kuhnlein and Marcel Mitlacher and David Tirschwell and Longstreth, {W. T.} and Nazem Akoum and Boyle, {Patrick M.}",

note = "Funding Information: National Institutes of Health T32-EB001650 Savannah F Bifulco Achievement Rewards for College Scientists Foundation Savannah F Bifulco Medical Research Council MR/S015086/1 Caroline H Roney National Institutes of Health R01-HL152256 Steven A Niederer H2020 European Research Council PREDICT-HF (864055) Steven A Niederer British Heart Foundation RG/20/4/34803 Steven A Niederer Engineering and Physical Sciences Research Council EP/P01268X/1 Steven A Niederer Wellcome Trust 203148/Z/16/Z Steven A Niederer National Institutes of Health NIH 5-U01-NS095869 David Tirschwell WT Longstreth University of Washington John L. Locke Charitable Trust fund Nazem Akoum. Publisher Copyright: {\textcopyright} Bifulco et al. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.",

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doi = "10.7554/eLife.64213",

language = "English",

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AU - Bifulco, Savannah F.

AU - Scott, Griffin D.

AU - Sarairah, Sakher

AU - Birjandian, Zeinab

AU - Roney, Caroline H.

AU - Niederer, Steven A.

AU - Mahnkopf, Christian

AU - Kuhnlein, Peter

AU - Mitlacher, Marcel

AU - Tirschwell, David

AU - Longstreth, W. T.

AU - Akoum, Nazem

AU - Boyle, Patrick M.

N1 - Funding Information: National Institutes of Health T32-EB001650 Savannah F Bifulco Achievement Rewards for College Scientists Foundation Savannah F Bifulco Medical Research Council MR/S015086/1 Caroline H Roney National Institutes of Health R01-HL152256 Steven A Niederer H2020 European Research Council PREDICT-HF (864055) Steven A Niederer British Heart Foundation RG/20/4/34803 Steven A Niederer Engineering and Physical Sciences Research Council EP/P01268X/1 Steven A Niederer Wellcome Trust 203148/Z/16/Z Steven A Niederer National Institutes of Health NIH 5-U01-NS095869 David Tirschwell WT Longstreth University of Washington John L. Locke Charitable Trust fund Nazem Akoum. Publisher Copyright: © Bifulco et al. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

PY - 2021/5/4

Y1 - 2021/5/4

N2 - Cardiac magnetic resonance imaging (MRI) has revealed fibrosis in embolic stroke of undetermined source (ESUS) patients comparable to levels seen in atrial fibrillation (AFib). We used computational modeling to understand the absence of arrhythmia in ESUS despite the presence of putatively pro-arrhythmic fibrosis. MRI-based atrial models were reconstructed for 45 ESUS and 45 AFib patients. The fibrotic substrate's arrhythmogenic capacity in each patient was assessed computationally. Reentrant drivers were induced in 24/45 (53%) ESUS and 22/45 (49%) AFib models. Inducible models had more fibrosis (16.7 ± 5.45%) than non-inducible models (11.07 ± 3.61%; p<0.0001); however, inducible subsets of ESUS and AFib models had similar fibrosis levels (p=0.90), meaning that the intrinsic pro-arrhythmic substrate properties of fibrosis in ESUS and AFib are indistinguishable. This suggests that some ESUS patients have latent pre-clinical fibrotic substrate that could be a future source of arrhythmogenicity. Thus, our work prompts the hypothesis that ESUS patients with fibrotic atria are spared from AFib due to an absence of arrhythmia triggers.

AB - Cardiac magnetic resonance imaging (MRI) has revealed fibrosis in embolic stroke of undetermined source (ESUS) patients comparable to levels seen in atrial fibrillation (AFib). We used computational modeling to understand the absence of arrhythmia in ESUS despite the presence of putatively pro-arrhythmic fibrosis. MRI-based atrial models were reconstructed for 45 ESUS and 45 AFib patients. The fibrotic substrate's arrhythmogenic capacity in each patient was assessed computationally. Reentrant drivers were induced in 24/45 (53%) ESUS and 22/45 (49%) AFib models. Inducible models had more fibrosis (16.7 ± 5.45%) than non-inducible models (11.07 ± 3.61%; p<0.0001); however, inducible subsets of ESUS and AFib models had similar fibrosis levels (p=0.90), meaning that the intrinsic pro-arrhythmic substrate properties of fibrosis in ESUS and AFib are indistinguishable. This suggests that some ESUS patients have latent pre-clinical fibrotic substrate that could be a future source of arrhythmogenicity. Thus, our work prompts the hypothesis that ESUS patients with fibrotic atria are spared from AFib due to an absence of arrhythmia triggers.

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KW - computational biology

KW - computational modeling & simulation

KW - embolic stroke of

KW - fibrosis

KW - human

KW - LGE-MRI

KW - medicine

KW - reentry

KW - systems biology

KW - undetermined source

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AN - SCOPUS:85107085156

SN - 2050-084X

VL - 10

JO - eLife

JF - eLife

M1 - e64213

ER -

Computational modeling identifies embolic stroke of undetermined source patients with potential arrhythmic substrate

Abstract

Keywords

UN SDGs

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