Diagnostic and Prognostic Implications of Coronary Flow Capacity: A Comprehensive Cross-Modality Physiological Concept in Ischemic Heart Disease

Tim P. van de Hoef; Mauro Echavarría-Pinto; Martijn A. van Lavieren; Martijn Meuwissen; Patrick W. J. C. Serruys; Jan G. P. Tijssen; Stuart J. Pocock; Javier Escaned; Jan J. Piek

doi:https://doi.org/10.1016/j.jcin.2015.05.032

Diagnostic and Prognostic Implications of Coronary Flow Capacity: A Comprehensive Cross-Modality Physiological Concept in Ischemic Heart Disease

Tim P. van de Hoef, Mauro Echavarría-Pinto, Martijn A. van Lavieren, Martijn Meuwissen, Patrick W. J. C. Serruys, Jan G. P. Tijssen, Stuart J. Pocock, Javier Escaned, Jan J. Piek

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

85 Citations (Scopus)

Abstract

The purpose of this study is to evaluate whether coronary flow capacity (CFC) improves discrimination of patients at risk for major adverse cardiac events (MACE) compared with coronary flow reserve (CFR) alone, and to study the diagnostic and prognostic implications of CFC in relation to contemporary diagnostic tests for ischemic heart disease (IHD), including fractional flow reserve (FFR). Although IHD results from a combination of focal obstructive, diffuse, and microcirculatory involvement of the coronary circulation, its diagnosis remains focused on focal obstructive causes. CFC comprehensively documents flow impairment in IHD, regardless of its origin, by interpreting CFR in relation to maximal flow (hyperemic average peak flow velocity [hAPV]), and overcomes the limitations of using CFR alone. This is governed by the understanding that ischemia occurs in vascular beds with substantially reduced hAPV and CFR, whereas ischemia is unlikely when hAPV or CFR is high. Intracoronary pressure and flow were measured in 299 vessels (228 patients), where revascularization was deferred in 154. Vessels were stratified as having normal, mildly reduced, moderately reduced, or severely reduced CFC using CFR thresholds derived from published data and corresponding hAPV percentiles. The occurrence of MACE after deferral of revascularization was recorded during 11.9 years of follow-up (quartile 1: 10.0 years, quartile 3: 13.4 years). Combining CFR and hAPV improved the prediction of MACE over CFR alone (p = 0.01). After stratification in CFC, MACE rates throughout follow-up were strongly associated with advancing impairment of CFC (p = 0.002). After multivariate adjustment, mildly and moderately reduced CFC were associated with a 2.1-fold (95% confidence interval: 1.1 to 4.0; p = 0.017), and 7.1-fold (95% confidence interval: 2.9 to 17.1; p <0.001) increase in MACE hazard, respectively, compared with normal CFC. Severely reduced CFC was identified by FFR ≤0.80 in 90% of cases, although ≥40% of vessels with normal or mildly reduced CFC still had an FFR ≤0.80. CFC provides a cross-modality platform for the diagnosis and risk-stratification of IHD and enriches the interpretation of contemporary diagnostic tests in IHD

Original language	English
Pages (from-to)	1670-1680
Journal	JACC. Cardiovascular interventions
Volume	8
Issue number	13
DOIs	https://doi.org/10.1016/j.jcin.2015.05.032
Publication status	Published - 2015

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https://doi.org/10.1016/j.jcin.2015.05.032

Cite this

van de Hoef, T. P., Echavarría-Pinto, M., van Lavieren, M. A., Meuwissen, M., Serruys, P. W. J. C., Tijssen, J. G. P., Pocock, S. J., Escaned, J., & Piek, J. J. (2015). Diagnostic and Prognostic Implications of Coronary Flow Capacity: A Comprehensive Cross-Modality Physiological Concept in Ischemic Heart Disease. JACC. Cardiovascular interventions, 8(13), 1670-1680. https://doi.org/10.1016/j.jcin.2015.05.032

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title = "Diagnostic and Prognostic Implications of Coronary Flow Capacity: A Comprehensive Cross-Modality Physiological Concept in Ischemic Heart Disease",

abstract = "The purpose of this study is to evaluate whether coronary flow capacity (CFC) improves discrimination of patients at risk for major adverse cardiac events (MACE) compared with coronary flow reserve (CFR) alone, and to study the diagnostic and prognostic implications of CFC in relation to contemporary diagnostic tests for ischemic heart disease (IHD), including fractional flow reserve (FFR). Although IHD results from a combination of focal obstructive, diffuse, and microcirculatory involvement of the coronary circulation, its diagnosis remains focused on focal obstructive causes. CFC comprehensively documents flow impairment in IHD, regardless of its origin, by interpreting CFR in relation to maximal flow (hyperemic average peak flow velocity [hAPV]), and overcomes the limitations of using CFR alone. This is governed by the understanding that ischemia occurs in vascular beds with substantially reduced hAPV and CFR, whereas ischemia is unlikely when hAPV or CFR is high. Intracoronary pressure and flow were measured in 299 vessels (228 patients), where revascularization was deferred in 154. Vessels were stratified as having normal, mildly reduced, moderately reduced, or severely reduced CFC using CFR thresholds derived from published data and corresponding hAPV percentiles. The occurrence of MACE after deferral of revascularization was recorded during 11.9 years of follow-up (quartile 1: 10.0 years, quartile 3: 13.4 years). Combining CFR and hAPV improved the prediction of MACE over CFR alone (p = 0.01). After stratification in CFC, MACE rates throughout follow-up were strongly associated with advancing impairment of CFC (p = 0.002). After multivariate adjustment, mildly and moderately reduced CFC were associated with a 2.1-fold (95% confidence interval: 1.1 to 4.0; p = 0.017), and 7.1-fold (95% confidence interval: 2.9 to 17.1; p <0.001) increase in MACE hazard, respectively, compared with normal CFC. Severely reduced CFC was identified by FFR ≤0.80 in 90% of cases, although ≥40% of vessels with normal or mildly reduced CFC still had an FFR ≤0.80. CFC provides a cross-modality platform for the diagnosis and risk-stratification of IHD and enriches the interpretation of contemporary diagnostic tests in IHD",

author = "{van de Hoef}, {Tim P.} and Mauro Echavarr{\'i}a-Pinto and {van Lavieren}, {Martijn A.} and Martijn Meuwissen and Serruys, {Patrick W. J. C.} and Tijssen, {Jan G. P.} and Pocock, {Stuart J.} and Javier Escaned and Piek, {Jan J.}",

year = "2015",

doi = "https://doi.org/10.1016/j.jcin.2015.05.032",

language = "English",

volume = "8",

pages = "1670--1680",

journal = "JACC. Cardiovascular interventions",

issn = "1936-8798",

publisher = "Elsevier Inc.",

number = "13",

}

van de Hoef, TP, Echavarría-Pinto, M, van Lavieren, MA, Meuwissen, M, Serruys, PWJC, Tijssen, JGP, Pocock, SJ, Escaned, J & Piek, JJ 2015, 'Diagnostic and Prognostic Implications of Coronary Flow Capacity: A Comprehensive Cross-Modality Physiological Concept in Ischemic Heart Disease', JACC. Cardiovascular interventions, vol. 8, no. 13, pp. 1670-1680. https://doi.org/10.1016/j.jcin.2015.05.032

Diagnostic and Prognostic Implications of Coronary Flow Capacity: A Comprehensive Cross-Modality Physiological Concept in Ischemic Heart Disease. / van de Hoef, Tim P.; Echavarría-Pinto, Mauro; van Lavieren, Martijn A. et al.
In: JACC. Cardiovascular interventions, Vol. 8, No. 13, 2015, p. 1670-1680.

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

TY - JOUR

T1 - Diagnostic and Prognostic Implications of Coronary Flow Capacity: A Comprehensive Cross-Modality Physiological Concept in Ischemic Heart Disease

AU - van de Hoef, Tim P.

AU - Echavarría-Pinto, Mauro

AU - van Lavieren, Martijn A.

AU - Meuwissen, Martijn

AU - Serruys, Patrick W. J. C.

AU - Tijssen, Jan G. P.

AU - Pocock, Stuart J.

AU - Escaned, Javier

AU - Piek, Jan J.

PY - 2015

Y1 - 2015

N2 - The purpose of this study is to evaluate whether coronary flow capacity (CFC) improves discrimination of patients at risk for major adverse cardiac events (MACE) compared with coronary flow reserve (CFR) alone, and to study the diagnostic and prognostic implications of CFC in relation to contemporary diagnostic tests for ischemic heart disease (IHD), including fractional flow reserve (FFR). Although IHD results from a combination of focal obstructive, diffuse, and microcirculatory involvement of the coronary circulation, its diagnosis remains focused on focal obstructive causes. CFC comprehensively documents flow impairment in IHD, regardless of its origin, by interpreting CFR in relation to maximal flow (hyperemic average peak flow velocity [hAPV]), and overcomes the limitations of using CFR alone. This is governed by the understanding that ischemia occurs in vascular beds with substantially reduced hAPV and CFR, whereas ischemia is unlikely when hAPV or CFR is high. Intracoronary pressure and flow were measured in 299 vessels (228 patients), where revascularization was deferred in 154. Vessels were stratified as having normal, mildly reduced, moderately reduced, or severely reduced CFC using CFR thresholds derived from published data and corresponding hAPV percentiles. The occurrence of MACE after deferral of revascularization was recorded during 11.9 years of follow-up (quartile 1: 10.0 years, quartile 3: 13.4 years). Combining CFR and hAPV improved the prediction of MACE over CFR alone (p = 0.01). After stratification in CFC, MACE rates throughout follow-up were strongly associated with advancing impairment of CFC (p = 0.002). After multivariate adjustment, mildly and moderately reduced CFC were associated with a 2.1-fold (95% confidence interval: 1.1 to 4.0; p = 0.017), and 7.1-fold (95% confidence interval: 2.9 to 17.1; p <0.001) increase in MACE hazard, respectively, compared with normal CFC. Severely reduced CFC was identified by FFR ≤0.80 in 90% of cases, although ≥40% of vessels with normal or mildly reduced CFC still had an FFR ≤0.80. CFC provides a cross-modality platform for the diagnosis and risk-stratification of IHD and enriches the interpretation of contemporary diagnostic tests in IHD

AB - The purpose of this study is to evaluate whether coronary flow capacity (CFC) improves discrimination of patients at risk for major adverse cardiac events (MACE) compared with coronary flow reserve (CFR) alone, and to study the diagnostic and prognostic implications of CFC in relation to contemporary diagnostic tests for ischemic heart disease (IHD), including fractional flow reserve (FFR). Although IHD results from a combination of focal obstructive, diffuse, and microcirculatory involvement of the coronary circulation, its diagnosis remains focused on focal obstructive causes. CFC comprehensively documents flow impairment in IHD, regardless of its origin, by interpreting CFR in relation to maximal flow (hyperemic average peak flow velocity [hAPV]), and overcomes the limitations of using CFR alone. This is governed by the understanding that ischemia occurs in vascular beds with substantially reduced hAPV and CFR, whereas ischemia is unlikely when hAPV or CFR is high. Intracoronary pressure and flow were measured in 299 vessels (228 patients), where revascularization was deferred in 154. Vessels were stratified as having normal, mildly reduced, moderately reduced, or severely reduced CFC using CFR thresholds derived from published data and corresponding hAPV percentiles. The occurrence of MACE after deferral of revascularization was recorded during 11.9 years of follow-up (quartile 1: 10.0 years, quartile 3: 13.4 years). Combining CFR and hAPV improved the prediction of MACE over CFR alone (p = 0.01). After stratification in CFC, MACE rates throughout follow-up were strongly associated with advancing impairment of CFC (p = 0.002). After multivariate adjustment, mildly and moderately reduced CFC were associated with a 2.1-fold (95% confidence interval: 1.1 to 4.0; p = 0.017), and 7.1-fold (95% confidence interval: 2.9 to 17.1; p <0.001) increase in MACE hazard, respectively, compared with normal CFC. Severely reduced CFC was identified by FFR ≤0.80 in 90% of cases, although ≥40% of vessels with normal or mildly reduced CFC still had an FFR ≤0.80. CFC provides a cross-modality platform for the diagnosis and risk-stratification of IHD and enriches the interpretation of contemporary diagnostic tests in IHD

U2 - https://doi.org/10.1016/j.jcin.2015.05.032

DO - https://doi.org/10.1016/j.jcin.2015.05.032

M3 - Article

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SN - 1936-8798

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JO - JACC. Cardiovascular interventions

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