Systolic Stretch Characterizes the Electromechanical Substrate Responsive to Cardiac Resynchronization Therapy

John Gorcsan; Christopher P. Anderson; Bhupendar Tayal; Masataka Sugahara; John Walmsley; Randall C. Starling; Joost Lumens

doi:10.1016/j.jcmg.2018.07.013

Systolic Stretch Characterizes the Electromechanical Substrate Responsive to Cardiac Resynchronization Therapy

John Gorcsan^*, Christopher P. Anderson, Bhupendar Tayal, Masataka Sugahara, John Walmsley, Randall C. Starling, Joost Lumens

^*Corresponding author for this work

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

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Abstract

OBJECTIVES In this study, the authors tested the hypotheses that the systolic stretch index (SSI) developed by computer modeling and applied using echocardiographic strain imaging may characterize the electromechanical substrate predictive of outcome following cardiac resynchronization therapy (CRT). They included patients with QRS width 120 to 149 ms or non-left bundle branch block (LBBB), where clinical uncertainty for CRT exists. They further tested the hypothesis that global longitudinal strain (GLS) has additional prognostic value.

BACKGROUND Response to CRT is variable. Guidelines favor patient selection by electrocardiographic LBBB with QRS width >= 150 ms.

METHODS The authors studied 442 patients enrolled in the Adaptive CRT 94-site randomized trial with New York Heart Association functional class III-IV heart failure, ejection fraction = 120 ms. A novel computer program semiautomatically calculated the SSI from strain curves as the sum of posterolateral prestretch percent before aortic valve opening and the septal rebound stretch percent during ejection. The primary endpoint was hospitalization for heart failure (HF) or death, and the secondary endpoint was death over 2 years after CRT.

RESULTS In all patients, high longitudinal SSI (>= group median of 3.1%) was significantly associated with freedom from the primary endpoint of HF hospitalization or death (hazard ratio [HR] for low SSI: 2.17; 95% confidence interval [CI]: 1.45 to 3.24, p <0.001) and secondary endpoint of death (HR for low SSI: 4.06; 95% CI: 1.95 to 8.45, p <0.001). Among the 203 patients with QRS 120 to 149 ms or non-LBBB, those with high longitudinal SSI (>= group median of 2.6%) had significantly fewer HF hospitalizations or deaths (HR for low SSI: 2.08; 95% CI: 1.27 to 3.41, p = 0.004) and longer survival (HR for low SSI: 5.08; 95% CI: 1.94 to 13.31, p <0.001), similar to patients with LBBB >= 150 ms. SSI by circumferential strain had similar associations with clinical outcomes, and GLS was additive to SSI in predicting clinical events (p = 0.001).

CONCLUSIONS Systolic stretch by strain imaging characterized the myocardial substrate associated with favorable CRT response, including in the important patient subgroup with QRS width 120 to 149 ms or non-LBBB. GLS had additive prognostic value. (C) 2019 by the American College of Cardiology Foundation.

Original language	English
Pages (from-to)	1741-1752
Number of pages	12
Journal	JACC-Cardiovascular Imaging
Volume	12
Issue number	9
DOIs	https://doi.org/10.1016/j.jcmg.2018.07.013
Publication status	Published - Sept 2019

Keywords

cardiac resynchronization therapy
heart failure
echocardiography
strain imaging
VENTRICULAR LEAD PLACEMENT
HEART-FAILURE
LONGITUDINAL STRAIN
ECHOCARDIOGRAPHY
DYSSYNCHRONY
MORBIDITY
MORTALITY

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@article{58c7a20460c949eba0e7ddc1f1630a84,

title = "Systolic Stretch Characterizes the Electromechanical Substrate Responsive to Cardiac Resynchronization Therapy",

abstract = "OBJECTIVES In this study, the authors tested the hypotheses that the systolic stretch index (SSI) developed by computer modeling and applied using echocardiographic strain imaging may characterize the electromechanical substrate predictive of outcome following cardiac resynchronization therapy (CRT). They included patients with QRS width 120 to 149 ms or non-left bundle branch block (LBBB), where clinical uncertainty for CRT exists. They further tested the hypothesis that global longitudinal strain (GLS) has additional prognostic value.BACKGROUND Response to CRT is variable. Guidelines favor patient selection by electrocardiographic LBBB with QRS width >= 150 ms.METHODS The authors studied 442 patients enrolled in the Adaptive CRT 94-site randomized trial with New York Heart Association functional class III-IV heart failure, ejection fraction = 120 ms. A novel computer program semiautomatically calculated the SSI from strain curves as the sum of posterolateral prestretch percent before aortic valve opening and the septal rebound stretch percent during ejection. The primary endpoint was hospitalization for heart failure (HF) or death, and the secondary endpoint was death over 2 years after CRT.RESULTS In all patients, high longitudinal SSI (>= group median of 3.1%) was significantly associated with freedom from the primary endpoint of HF hospitalization or death (hazard ratio [HR] for low SSI: 2.17; 95% confidence interval [CI]: 1.45 to 3.24, p <0.001) and secondary endpoint of death (HR for low SSI: 4.06; 95% CI: 1.95 to 8.45, p <0.001). Among the 203 patients with QRS 120 to 149 ms or non-LBBB, those with high longitudinal SSI (>= group median of 2.6%) had significantly fewer HF hospitalizations or deaths (HR for low SSI: 2.08; 95% CI: 1.27 to 3.41, p = 0.004) and longer survival (HR for low SSI: 5.08; 95% CI: 1.94 to 13.31, p <0.001), similar to patients with LBBB >= 150 ms. SSI by circumferential strain had similar associations with clinical outcomes, and GLS was additive to SSI in predicting clinical events (p = 0.001).CONCLUSIONS Systolic stretch by strain imaging characterized the myocardial substrate associated with favorable CRT response, including in the important patient subgroup with QRS width 120 to 149 ms or non-LBBB. GLS had additive prognostic value. (C) 2019 by the American College of Cardiology Foundation.",

keywords = "cardiac resynchronization therapy, heart failure, echocardiography, strain imaging, VENTRICULAR LEAD PLACEMENT, HEART-FAILURE, LONGITUDINAL STRAIN, ECHOCARDIOGRAPHY, DYSSYNCHRONY, MORBIDITY, MORTALITY",

author = "John Gorcsan and Anderson, {Christopher P.} and Bhupendar Tayal and Masataka Sugahara and John Walmsley and Starling, {Randall C.} and Joost Lumens",

note = "Funding Information: This study was supported by an investigator-initiated grant from Medtronic, Inc. Dr. Gorcsan was supported, in part, by research grants from Medtronic, EBR Systems, GE Medical Systems, and Hitachi Medical, Inc. Mr. Anderson is employed as a biostatistician by Medtronic, Inc. Dr. Starling has received research support from Abbott and Medtronic. Dr. Lumens was funded through a personal grant within the Dr. E. Dekker framework of the Dutch Heart Foundation (grant 2015T082). All other authors have reported that they have no relationships relevant to the contents of this paper to disclose. Publisher Copyright: {\textcopyright} 2019 American College of Cardiology Foundation",

year = "2019",

month = sep,

doi = "10.1016/j.jcmg.2018.07.013",

language = "English",

volume = "12",

pages = "1741--1752",

journal = "JACC-Cardiovascular Imaging",

issn = "1936-878X",

publisher = "Elsevier Science",

number = "9",

}

TY - JOUR

T1 - Systolic Stretch Characterizes the Electromechanical Substrate Responsive to Cardiac Resynchronization Therapy

AU - Gorcsan, John

AU - Anderson, Christopher P.

AU - Tayal, Bhupendar

AU - Sugahara, Masataka

AU - Walmsley, John

AU - Starling, Randall C.

AU - Lumens, Joost

N1 - Funding Information: This study was supported by an investigator-initiated grant from Medtronic, Inc. Dr. Gorcsan was supported, in part, by research grants from Medtronic, EBR Systems, GE Medical Systems, and Hitachi Medical, Inc. Mr. Anderson is employed as a biostatistician by Medtronic, Inc. Dr. Starling has received research support from Abbott and Medtronic. Dr. Lumens was funded through a personal grant within the Dr. E. Dekker framework of the Dutch Heart Foundation (grant 2015T082). All other authors have reported that they have no relationships relevant to the contents of this paper to disclose. Publisher Copyright: © 2019 American College of Cardiology Foundation

PY - 2019/9

Y1 - 2019/9

N2 - OBJECTIVES In this study, the authors tested the hypotheses that the systolic stretch index (SSI) developed by computer modeling and applied using echocardiographic strain imaging may characterize the electromechanical substrate predictive of outcome following cardiac resynchronization therapy (CRT). They included patients with QRS width 120 to 149 ms or non-left bundle branch block (LBBB), where clinical uncertainty for CRT exists. They further tested the hypothesis that global longitudinal strain (GLS) has additional prognostic value.BACKGROUND Response to CRT is variable. Guidelines favor patient selection by electrocardiographic LBBB with QRS width >= 150 ms.METHODS The authors studied 442 patients enrolled in the Adaptive CRT 94-site randomized trial with New York Heart Association functional class III-IV heart failure, ejection fraction = 120 ms. A novel computer program semiautomatically calculated the SSI from strain curves as the sum of posterolateral prestretch percent before aortic valve opening and the septal rebound stretch percent during ejection. The primary endpoint was hospitalization for heart failure (HF) or death, and the secondary endpoint was death over 2 years after CRT.RESULTS In all patients, high longitudinal SSI (>= group median of 3.1%) was significantly associated with freedom from the primary endpoint of HF hospitalization or death (hazard ratio [HR] for low SSI: 2.17; 95% confidence interval [CI]: 1.45 to 3.24, p <0.001) and secondary endpoint of death (HR for low SSI: 4.06; 95% CI: 1.95 to 8.45, p <0.001). Among the 203 patients with QRS 120 to 149 ms or non-LBBB, those with high longitudinal SSI (>= group median of 2.6%) had significantly fewer HF hospitalizations or deaths (HR for low SSI: 2.08; 95% CI: 1.27 to 3.41, p = 0.004) and longer survival (HR for low SSI: 5.08; 95% CI: 1.94 to 13.31, p <0.001), similar to patients with LBBB >= 150 ms. SSI by circumferential strain had similar associations with clinical outcomes, and GLS was additive to SSI in predicting clinical events (p = 0.001).CONCLUSIONS Systolic stretch by strain imaging characterized the myocardial substrate associated with favorable CRT response, including in the important patient subgroup with QRS width 120 to 149 ms or non-LBBB. GLS had additive prognostic value. (C) 2019 by the American College of Cardiology Foundation.

AB - OBJECTIVES In this study, the authors tested the hypotheses that the systolic stretch index (SSI) developed by computer modeling and applied using echocardiographic strain imaging may characterize the electromechanical substrate predictive of outcome following cardiac resynchronization therapy (CRT). They included patients with QRS width 120 to 149 ms or non-left bundle branch block (LBBB), where clinical uncertainty for CRT exists. They further tested the hypothesis that global longitudinal strain (GLS) has additional prognostic value.BACKGROUND Response to CRT is variable. Guidelines favor patient selection by electrocardiographic LBBB with QRS width >= 150 ms.METHODS The authors studied 442 patients enrolled in the Adaptive CRT 94-site randomized trial with New York Heart Association functional class III-IV heart failure, ejection fraction = 120 ms. A novel computer program semiautomatically calculated the SSI from strain curves as the sum of posterolateral prestretch percent before aortic valve opening and the septal rebound stretch percent during ejection. The primary endpoint was hospitalization for heart failure (HF) or death, and the secondary endpoint was death over 2 years after CRT.RESULTS In all patients, high longitudinal SSI (>= group median of 3.1%) was significantly associated with freedom from the primary endpoint of HF hospitalization or death (hazard ratio [HR] for low SSI: 2.17; 95% confidence interval [CI]: 1.45 to 3.24, p <0.001) and secondary endpoint of death (HR for low SSI: 4.06; 95% CI: 1.95 to 8.45, p <0.001). Among the 203 patients with QRS 120 to 149 ms or non-LBBB, those with high longitudinal SSI (>= group median of 2.6%) had significantly fewer HF hospitalizations or deaths (HR for low SSI: 2.08; 95% CI: 1.27 to 3.41, p = 0.004) and longer survival (HR for low SSI: 5.08; 95% CI: 1.94 to 13.31, p <0.001), similar to patients with LBBB >= 150 ms. SSI by circumferential strain had similar associations with clinical outcomes, and GLS was additive to SSI in predicting clinical events (p = 0.001).CONCLUSIONS Systolic stretch by strain imaging characterized the myocardial substrate associated with favorable CRT response, including in the important patient subgroup with QRS width 120 to 149 ms or non-LBBB. GLS had additive prognostic value. (C) 2019 by the American College of Cardiology Foundation.

KW - cardiac resynchronization therapy

KW - heart failure

KW - echocardiography

KW - strain imaging

KW - VENTRICULAR LEAD PLACEMENT

KW - HEART-FAILURE

KW - LONGITUDINAL STRAIN

KW - ECHOCARDIOGRAPHY

KW - DYSSYNCHRONY

KW - MORBIDITY

KW - MORTALITY

U2 - 10.1016/j.jcmg.2018.07.013

DO - 10.1016/j.jcmg.2018.07.013

M3 - Article

C2 - 30219394

SN - 1936-878X

VL - 12

SP - 1741

EP - 1752

JO - JACC-Cardiovascular Imaging

JF - JACC-Cardiovascular Imaging

IS - 9

ER -