Non-invasive detection of cardiac allograft rejection among heart transplant recipients using an electrocardiogram based deep learning model

Demilade Adedinsewo; Heather D. Hardway; Andrea Carolina Morales-Lara; Mikolaj A. Wieczorek; Patrick W. Johnson; Erika J. Douglass; Bryan J. Dangott; Raouf E. Nakhleh; Tathagat Narula; Parag C. Patel; Rohan M. Goswami; Melissa A. Lyle; Alexander J. Heckman; Juan C. Leoni-Moreno; D. Eric Steidley; Reza Arsanjani; Brian Hardaway; Mohsin Abbas; Atta Behfar; Zachi I. Attia; Francisco Lopez-Jimenez; Peter A. Noseworthy; Paul Friedman; Rickey E. Carter; Mohamad Yamani

doi:10.1093/ehjdh/ztad001

Non-invasive detection of cardiac allograft rejection among heart transplant recipients using an electrocardiogram based deep learning model

Demilade Adedinsewo, Heather D. Hardway, Andrea Carolina Morales-Lara, Mikolaj A. Wieczorek, Patrick W. Johnson, Erika J. Douglass, Bryan J. Dangott, Raouf E. Nakhleh, Tathagat Narula, Parag C. Patel, Rohan M. Goswami, Melissa A. Lyle, Alexander J. Heckman, Juan C. Leoni-Moreno, D. Eric Steidley, Reza Arsanjani, Brian Hardaway, Mohsin Abbas, Atta Behfar, Zachi I. AttiaFrancisco Lopez-Jimenez, Peter A. Noseworthy, Paul Friedman, Rickey E. Carter, Mohamad Yamani

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

Abstract

Aims: Current non-invasive screening methods for cardiac allograft rejection have shown limited discrimination and are yet to be broadly integrated into heart transplant care. Given electrocardiogram (ECG) changes have been reported with severe cardiac allograft rejection, this study aimed to develop a deep-learning model, a form of artificial intelligence, to detect allograft rejection using the 12-lead ECG (AI-ECG). Methods and results: Heart transplant recipients were identified across three Mayo Clinic sites between 1998 and 2021. Twelve-lead digital ECG data and endomyocardial biopsy results were extracted from medical records. Allograft rejection was defined as moderate or severe acute cellular rejection (ACR) based on International Society for Heart and Lung Transplantation guidelines. The extracted data (7590 unique ECG-biopsy pairs, belonging to 1427 patients) was partitioned into training (80%), validation (10%), and test sets (10%) such that each patient was included in only one partition. Model performance metrics were based on the test set (n = 140 patients; 758 ECG-biopsy pairs). The AI-ECG detected ACR with an area under the receiver operating curve (AUC) of 0.84 [95% confidence interval (CI): 0.78-0.90] and 95% (19/20; 95% CI: 75-100%) sensitivity. A prospective proof-of-concept screening study (n = 56; 97 ECG-biopsy pairs) showed the AI-ECG detected ACR with AUC = 0.78 (95% CI: 0.61-0.96) and 100% (2/2; 95% CI: 16-100%) sensitivity. Conclusion: An AI-ECG model is effective for detection of moderate-to-severe ACR in heart transplant recipients. Our findings could improve transplant care by providing a rapid, non-invasive, and potentially remote screening option for cardiac allograft function.

Original language	English (US)
Pages (from-to)	71-80
Number of pages	10
Journal	European Heart Journal - Digital Health
Volume	4
Issue number	2
DOIs	https://doi.org/10.1093/ehjdh/ztad001
State	Published - Mar 1 2023

Keywords

Artificial intelligence
Cardiac allograft rejection
Deep learning
Electrocardiography
Heart transplantation

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine

Access to Document

10.1093/ehjdh/ztad001

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Adedinsewo, D., Hardway, H. D., Morales-Lara, A. C., Wieczorek, M. A., Johnson, P. W., Douglass, E. J., Dangott, B. J., Nakhleh, R. E., Narula, T., Patel, P. C., Goswami, R. M., Lyle, M. A., Heckman, A. J., Leoni-Moreno, J. C., Steidley, D. E., Arsanjani, R., Hardaway, B., Abbas, M., Behfar, A., ... Yamani, M. (2023). Non-invasive detection of cardiac allograft rejection among heart transplant recipients using an electrocardiogram based deep learning model. European Heart Journal - Digital Health, 4(2), 71-80. https://doi.org/10.1093/ehjdh/ztad001

Non-invasive detection of cardiac allograft rejection among heart transplant recipients using an electrocardiogram based deep learning model. / Adedinsewo, Demilade; Hardway, Heather D.; Morales-Lara, Andrea Carolina et al.
In: European Heart Journal - Digital Health, Vol. 4, No. 2, 01.03.2023, p. 71-80.

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

Adedinsewo, D, Hardway, HD, Morales-Lara, AC, Wieczorek, MA, Johnson, PW, Douglass, EJ, Dangott, BJ, Nakhleh, RE, Narula, T, Patel, PC, Goswami, RM, Lyle, MA, Heckman, AJ, Leoni-Moreno, JC, Steidley, DE, Arsanjani, R, Hardaway, B, Abbas, M, Behfar, A, Attia, ZI, Lopez-Jimenez, F , Noseworthy, PA , Friedman, P , Carter, RE & Yamani, M 2023, 'Non-invasive detection of cardiac allograft rejection among heart transplant recipients using an electrocardiogram based deep learning model', European Heart Journal - Digital Health, vol. 4, no. 2, pp. 71-80. https://doi.org/10.1093/ehjdh/ztad001

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title = "Non-invasive detection of cardiac allograft rejection among heart transplant recipients using an electrocardiogram based deep learning model",

abstract = "Aims: Current non-invasive screening methods for cardiac allograft rejection have shown limited discrimination and are yet to be broadly integrated into heart transplant care. Given electrocardiogram (ECG) changes have been reported with severe cardiac allograft rejection, this study aimed to develop a deep-learning model, a form of artificial intelligence, to detect allograft rejection using the 12-lead ECG (AI-ECG). Methods and results: Heart transplant recipients were identified across three Mayo Clinic sites between 1998 and 2021. Twelve-lead digital ECG data and endomyocardial biopsy results were extracted from medical records. Allograft rejection was defined as moderate or severe acute cellular rejection (ACR) based on International Society for Heart and Lung Transplantation guidelines. The extracted data (7590 unique ECG-biopsy pairs, belonging to 1427 patients) was partitioned into training (80%), validation (10%), and test sets (10%) such that each patient was included in only one partition. Model performance metrics were based on the test set (n = 140 patients; 758 ECG-biopsy pairs). The AI-ECG detected ACR with an area under the receiver operating curve (AUC) of 0.84 [95% confidence interval (CI): 0.78-0.90] and 95% (19/20; 95% CI: 75-100%) sensitivity. A prospective proof-of-concept screening study (n = 56; 97 ECG-biopsy pairs) showed the AI-ECG detected ACR with AUC = 0.78 (95% CI: 0.61-0.96) and 100% (2/2; 95% CI: 16-100%) sensitivity. Conclusion: An AI-ECG model is effective for detection of moderate-to-severe ACR in heart transplant recipients. Our findings could improve transplant care by providing a rapid, non-invasive, and potentially remote screening option for cardiac allograft function.",

keywords = "Artificial intelligence, Cardiac allograft rejection, Deep learning, Electrocardiography, Heart transplantation",

author = "Demilade Adedinsewo and Hardway, {Heather D.} and Morales-Lara, {Andrea Carolina} and Wieczorek, {Mikolaj A.} and Johnson, {Patrick W.} and Douglass, {Erika J.} and Dangott, {Bryan J.} and Nakhleh, {Raouf E.} and Tathagat Narula and Patel, {Parag C.} and Goswami, {Rohan M.} and Lyle, {Melissa A.} and Heckman, {Alexander J.} and Leoni-Moreno, {Juan C.} and Steidley, {D. Eric} and Reza Arsanjani and Brian Hardaway and Mohsin Abbas and Atta Behfar and Attia, {Zachi I.} and Francisco Lopez-Jimenez and Noseworthy, {Peter A.} and Paul Friedman and Carter, {Rickey E.} and Mohamad Yamani",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s). Published by Oxford University Press on behalf of the European Society of Cardiology.",

year = "2023",

month = mar,

day = "1",

doi = "10.1093/ehjdh/ztad001",

language = "English (US)",

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TY - JOUR

T1 - Non-invasive detection of cardiac allograft rejection among heart transplant recipients using an electrocardiogram based deep learning model

AU - Adedinsewo, Demilade

AU - Hardway, Heather D.

AU - Morales-Lara, Andrea Carolina

AU - Wieczorek, Mikolaj A.

AU - Johnson, Patrick W.

AU - Douglass, Erika J.

AU - Dangott, Bryan J.

AU - Nakhleh, Raouf E.

AU - Narula, Tathagat

AU - Patel, Parag C.

AU - Goswami, Rohan M.

AU - Lyle, Melissa A.

AU - Heckman, Alexander J.

AU - Leoni-Moreno, Juan C.

AU - Steidley, D. Eric

AU - Arsanjani, Reza

AU - Hardaway, Brian

AU - Abbas, Mohsin

AU - Behfar, Atta

AU - Attia, Zachi I.

AU - Lopez-Jimenez, Francisco

AU - Noseworthy, Peter A.

AU - Friedman, Paul

AU - Carter, Rickey E.

AU - Yamani, Mohamad

PY - 2023/3/1

Y1 - 2023/3/1

N2 - Aims: Current non-invasive screening methods for cardiac allograft rejection have shown limited discrimination and are yet to be broadly integrated into heart transplant care. Given electrocardiogram (ECG) changes have been reported with severe cardiac allograft rejection, this study aimed to develop a deep-learning model, a form of artificial intelligence, to detect allograft rejection using the 12-lead ECG (AI-ECG). Methods and results: Heart transplant recipients were identified across three Mayo Clinic sites between 1998 and 2021. Twelve-lead digital ECG data and endomyocardial biopsy results were extracted from medical records. Allograft rejection was defined as moderate or severe acute cellular rejection (ACR) based on International Society for Heart and Lung Transplantation guidelines. The extracted data (7590 unique ECG-biopsy pairs, belonging to 1427 patients) was partitioned into training (80%), validation (10%), and test sets (10%) such that each patient was included in only one partition. Model performance metrics were based on the test set (n = 140 patients; 758 ECG-biopsy pairs). The AI-ECG detected ACR with an area under the receiver operating curve (AUC) of 0.84 [95% confidence interval (CI): 0.78-0.90] and 95% (19/20; 95% CI: 75-100%) sensitivity. A prospective proof-of-concept screening study (n = 56; 97 ECG-biopsy pairs) showed the AI-ECG detected ACR with AUC = 0.78 (95% CI: 0.61-0.96) and 100% (2/2; 95% CI: 16-100%) sensitivity. Conclusion: An AI-ECG model is effective for detection of moderate-to-severe ACR in heart transplant recipients. Our findings could improve transplant care by providing a rapid, non-invasive, and potentially remote screening option for cardiac allograft function.

AB - Aims: Current non-invasive screening methods for cardiac allograft rejection have shown limited discrimination and are yet to be broadly integrated into heart transplant care. Given electrocardiogram (ECG) changes have been reported with severe cardiac allograft rejection, this study aimed to develop a deep-learning model, a form of artificial intelligence, to detect allograft rejection using the 12-lead ECG (AI-ECG). Methods and results: Heart transplant recipients were identified across three Mayo Clinic sites between 1998 and 2021. Twelve-lead digital ECG data and endomyocardial biopsy results were extracted from medical records. Allograft rejection was defined as moderate or severe acute cellular rejection (ACR) based on International Society for Heart and Lung Transplantation guidelines. The extracted data (7590 unique ECG-biopsy pairs, belonging to 1427 patients) was partitioned into training (80%), validation (10%), and test sets (10%) such that each patient was included in only one partition. Model performance metrics were based on the test set (n = 140 patients; 758 ECG-biopsy pairs). The AI-ECG detected ACR with an area under the receiver operating curve (AUC) of 0.84 [95% confidence interval (CI): 0.78-0.90] and 95% (19/20; 95% CI: 75-100%) sensitivity. A prospective proof-of-concept screening study (n = 56; 97 ECG-biopsy pairs) showed the AI-ECG detected ACR with AUC = 0.78 (95% CI: 0.61-0.96) and 100% (2/2; 95% CI: 16-100%) sensitivity. Conclusion: An AI-ECG model is effective for detection of moderate-to-severe ACR in heart transplant recipients. Our findings could improve transplant care by providing a rapid, non-invasive, and potentially remote screening option for cardiac allograft function.

KW - Artificial intelligence

KW - Cardiac allograft rejection

KW - Deep learning

KW - Electrocardiography

KW - Heart transplantation

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Non-invasive detection of cardiac allograft rejection among heart transplant recipients using an electrocardiogram based deep learning model

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