Interindividual Variations in the Adenosine-Induced Hemodynamics During Fractional Flow Reserve Evaluation: Implications for the Use of Quantitative Flow Ratio in Assessing Intermediate Coronary Stenoses

Hernán Mejía-Rentería; Francesco María Lauri; Joo Myung Lee; Angela McInerney; Nina W. van der Hoeven; Guus A. de Waard; Antonio Fernández-Ortiz; Carlos Macaya; Paul Knaapen; Niels van Royen; Bon-Kwon Koo; Javier Escaned

doi:https://doi.org/10.1161/JAHA.119.012906

Interindividual Variations in the Adenosine-Induced Hemodynamics During Fractional Flow Reserve Evaluation: Implications for the Use of Quantitative Flow Ratio in Assessing Intermediate Coronary Stenoses

Hernán Mejía-Rentería, Francesco María Lauri, Joo Myung Lee, Angela McInerney, Nina W. van der Hoeven, Guus A. de Waard, Antonio Fernández-Ortiz, Carlos Macaya, Paul Knaapen, Niels van Royen, Bon-Kwon Koo, Javier Escaned

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

17 Citations (Scopus)

Abstract

Background Quantitative flow ratio (QFR), a novel functional angiography technique, computes fractional flow reserve (FFR) without pressure wires or adenosine. We investigated interindividual variations in the adenosine-induced hemodynamics during FFR assessment and their influence on QFR diagnostic performance. Methods and Results Patients with coronary stenoses who underwent intracoronary pressure and flow assessment were analyzed. Adenosine-induced hemodynamics during FFR measurement were determined by the percentage change in mean aortic pressure (%ΔPa) and the resistive reserve ratio (RRR). The diagnostic performance of QFR was evaluated and compared in each tertile of %ΔPa and RRR using FFR as reference. A total of 294 vessels (245 patients) were analyzed. Mean FFR was 0.80±0.11. Individuals showed a wide variation in the adenosine response in terms of %ΔPa (ranging from -75% to 43%; median, -9% [interquartile range, -3% to -17%]) and the RRR (ranging from 0.45 to 20.15; median, 3.1 [interquartile range, 2.1-4.9]). No significant differences for diagnostic efficiency of QFR were found between tertiles of %ΔPa (area under the curve for the receiver-operating characteristic analysis, 0.950 in tertile 1, 0.929 in tertile 2, and 0.910 in tertile 3; P=0.270) or between tertiles of the RRR (area under the curve for the receiver-operating characteristic analysis, 0.909 in tertile 1, 0.923 in tertile 2, and 0.959 in tertile 3; P=0.167). The classification agreement between QFR and FFR was not significantly modified by %ΔPa (tertile 1, 89%; tertile 2, 87%; and tertile 3, 86%; P=0.827) or by the RRR (tertile 1, 86%; tertile 2, 85%; and tertile 3, 91%; P=0.398). Conclusions Patients undergoing FFR assessment show large interindividual variations in the magnitude of adenosine-induced hemodynamics. However, such variations do not affect the diagnostic performance of QFR in assessing the functional relevance of observed stenoses.

Original language	English
Article number	e012906
Pages (from-to)	e012906
Journal	Journal of the American Heart Association
Volume	8
Issue number	16
DOIs	https://doi.org/10.1161/JAHA.119.012906
Publication status	Published - 20 Aug 2019

Keywords

adenosine
fluid dynamics
fractional flow reserve
quantitative flow ratio
resistive reserve ratio

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https://doi.org/10.1161/JAHA.119.012906

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Mejía-Rentería, H., Lauri, F. M., Lee, J. M., McInerney, A., van der Hoeven, N. W., de Waard, G. A., Fernández-Ortiz, A., Macaya, C., Knaapen, P., van Royen, N., Koo, B.-K., & Escaned, J. (2019). Interindividual Variations in the Adenosine-Induced Hemodynamics During Fractional Flow Reserve Evaluation: Implications for the Use of Quantitative Flow Ratio in Assessing Intermediate Coronary Stenoses. Journal of the American Heart Association, 8(16), e012906. Article e012906. https://doi.org/10.1161/JAHA.119.012906

@article{c1149e3d066c4d78917a0af3f302d729,

title = "Interindividual Variations in the Adenosine-Induced Hemodynamics During Fractional Flow Reserve Evaluation: Implications for the Use of Quantitative Flow Ratio in Assessing Intermediate Coronary Stenoses",

abstract = "Background Quantitative flow ratio (QFR), a novel functional angiography technique, computes fractional flow reserve (FFR) without pressure wires or adenosine. We investigated interindividual variations in the adenosine-induced hemodynamics during FFR assessment and their influence on QFR diagnostic performance. Methods and Results Patients with coronary stenoses who underwent intracoronary pressure and flow assessment were analyzed. Adenosine-induced hemodynamics during FFR measurement were determined by the percentage change in mean aortic pressure (%ΔPa) and the resistive reserve ratio (RRR). The diagnostic performance of QFR was evaluated and compared in each tertile of %ΔPa and RRR using FFR as reference. A total of 294 vessels (245 patients) were analyzed. Mean FFR was 0.80±0.11. Individuals showed a wide variation in the adenosine response in terms of %ΔPa (ranging from -75% to 43%; median, -9% [interquartile range, -3% to -17%]) and the RRR (ranging from 0.45 to 20.15; median, 3.1 [interquartile range, 2.1-4.9]). No significant differences for diagnostic efficiency of QFR were found between tertiles of %ΔPa (area under the curve for the receiver-operating characteristic analysis, 0.950 in tertile 1, 0.929 in tertile 2, and 0.910 in tertile 3; P=0.270) or between tertiles of the RRR (area under the curve for the receiver-operating characteristic analysis, 0.909 in tertile 1, 0.923 in tertile 2, and 0.959 in tertile 3; P=0.167). The classification agreement between QFR and FFR was not significantly modified by %ΔPa (tertile 1, 89%; tertile 2, 87%; and tertile 3, 86%; P=0.827) or by the RRR (tertile 1, 86%; tertile 2, 85%; and tertile 3, 91%; P=0.398). Conclusions Patients undergoing FFR assessment show large interindividual variations in the magnitude of adenosine-induced hemodynamics. However, such variations do not affect the diagnostic performance of QFR in assessing the functional relevance of observed stenoses.",

keywords = "adenosine, fluid dynamics, fractional flow reserve, quantitative flow ratio, resistive reserve ratio",

author = "Hern{\'a}n Mej{\'i}a-Renter{\'i}a and Lauri, {Francesco Mar{\'i}a} and Lee, {Joo Myung} and Angela McInerney and {van der Hoeven}, {Nina W.} and {de Waard}, {Guus A.} and Antonio Fern{\'a}ndez-Ortiz and Carlos Macaya and Paul Knaapen and {van Royen}, Niels and Bon-Kwon Koo and Javier Escaned",

year = "2019",

month = aug,

day = "20",

doi = "https://doi.org/10.1161/JAHA.119.012906",

language = "English",

volume = "8",

pages = "e012906",

journal = "Journal of the American Heart Association",

issn = "2047-9980",

publisher = "Am Heart Assoc",

number = "16",

}

Mejía-Rentería, H, Lauri, FM, Lee, JM, McInerney, A, van der Hoeven, NW , de Waard, GA, Fernández-Ortiz, A, Macaya, C, Knaapen, P, van Royen, N, Koo, B-K & Escaned, J 2019, 'Interindividual Variations in the Adenosine-Induced Hemodynamics During Fractional Flow Reserve Evaluation: Implications for the Use of Quantitative Flow Ratio in Assessing Intermediate Coronary Stenoses', Journal of the American Heart Association, vol. 8, no. 16, e012906, pp. e012906. https://doi.org/10.1161/JAHA.119.012906

Interindividual Variations in the Adenosine-Induced Hemodynamics During Fractional Flow Reserve Evaluation: Implications for the Use of Quantitative Flow Ratio in Assessing Intermediate Coronary Stenoses. / Mejía-Rentería, Hernán; Lauri, Francesco María; Lee, Joo Myung et al.
In: Journal of the American Heart Association, Vol. 8, No. 16, e012906, 20.08.2019, p. e012906.

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

TY - JOUR

T1 - Interindividual Variations in the Adenosine-Induced Hemodynamics During Fractional Flow Reserve Evaluation: Implications for the Use of Quantitative Flow Ratio in Assessing Intermediate Coronary Stenoses

AU - Mejía-Rentería, Hernán

AU - Lauri, Francesco María

AU - Lee, Joo Myung

AU - McInerney, Angela

AU - van der Hoeven, Nina W.

AU - de Waard, Guus A.

AU - Fernández-Ortiz, Antonio

AU - Macaya, Carlos

AU - Knaapen, Paul

AU - van Royen, Niels

AU - Koo, Bon-Kwon

AU - Escaned, Javier

PY - 2019/8/20

Y1 - 2019/8/20

N2 - Background Quantitative flow ratio (QFR), a novel functional angiography technique, computes fractional flow reserve (FFR) without pressure wires or adenosine. We investigated interindividual variations in the adenosine-induced hemodynamics during FFR assessment and their influence on QFR diagnostic performance. Methods and Results Patients with coronary stenoses who underwent intracoronary pressure and flow assessment were analyzed. Adenosine-induced hemodynamics during FFR measurement were determined by the percentage change in mean aortic pressure (%ΔPa) and the resistive reserve ratio (RRR). The diagnostic performance of QFR was evaluated and compared in each tertile of %ΔPa and RRR using FFR as reference. A total of 294 vessels (245 patients) were analyzed. Mean FFR was 0.80±0.11. Individuals showed a wide variation in the adenosine response in terms of %ΔPa (ranging from -75% to 43%; median, -9% [interquartile range, -3% to -17%]) and the RRR (ranging from 0.45 to 20.15; median, 3.1 [interquartile range, 2.1-4.9]). No significant differences for diagnostic efficiency of QFR were found between tertiles of %ΔPa (area under the curve for the receiver-operating characteristic analysis, 0.950 in tertile 1, 0.929 in tertile 2, and 0.910 in tertile 3; P=0.270) or between tertiles of the RRR (area under the curve for the receiver-operating characteristic analysis, 0.909 in tertile 1, 0.923 in tertile 2, and 0.959 in tertile 3; P=0.167). The classification agreement between QFR and FFR was not significantly modified by %ΔPa (tertile 1, 89%; tertile 2, 87%; and tertile 3, 86%; P=0.827) or by the RRR (tertile 1, 86%; tertile 2, 85%; and tertile 3, 91%; P=0.398). Conclusions Patients undergoing FFR assessment show large interindividual variations in the magnitude of adenosine-induced hemodynamics. However, such variations do not affect the diagnostic performance of QFR in assessing the functional relevance of observed stenoses.

AB - Background Quantitative flow ratio (QFR), a novel functional angiography technique, computes fractional flow reserve (FFR) without pressure wires or adenosine. We investigated interindividual variations in the adenosine-induced hemodynamics during FFR assessment and their influence on QFR diagnostic performance. Methods and Results Patients with coronary stenoses who underwent intracoronary pressure and flow assessment were analyzed. Adenosine-induced hemodynamics during FFR measurement were determined by the percentage change in mean aortic pressure (%ΔPa) and the resistive reserve ratio (RRR). The diagnostic performance of QFR was evaluated and compared in each tertile of %ΔPa and RRR using FFR as reference. A total of 294 vessels (245 patients) were analyzed. Mean FFR was 0.80±0.11. Individuals showed a wide variation in the adenosine response in terms of %ΔPa (ranging from -75% to 43%; median, -9% [interquartile range, -3% to -17%]) and the RRR (ranging from 0.45 to 20.15; median, 3.1 [interquartile range, 2.1-4.9]). No significant differences for diagnostic efficiency of QFR were found between tertiles of %ΔPa (area under the curve for the receiver-operating characteristic analysis, 0.950 in tertile 1, 0.929 in tertile 2, and 0.910 in tertile 3; P=0.270) or between tertiles of the RRR (area under the curve for the receiver-operating characteristic analysis, 0.909 in tertile 1, 0.923 in tertile 2, and 0.959 in tertile 3; P=0.167). The classification agreement between QFR and FFR was not significantly modified by %ΔPa (tertile 1, 89%; tertile 2, 87%; and tertile 3, 86%; P=0.827) or by the RRR (tertile 1, 86%; tertile 2, 85%; and tertile 3, 91%; P=0.398). Conclusions Patients undergoing FFR assessment show large interindividual variations in the magnitude of adenosine-induced hemodynamics. However, such variations do not affect the diagnostic performance of QFR in assessing the functional relevance of observed stenoses.

KW - adenosine

KW - fluid dynamics

KW - fractional flow reserve

KW - quantitative flow ratio

KW - resistive reserve ratio

UR - https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85071280773&origin=inward

UR - https://www.ncbi.nlm.nih.gov/pubmed/31394987

U2 - https://doi.org/10.1161/JAHA.119.012906

DO - https://doi.org/10.1161/JAHA.119.012906

M3 - Article

C2 - 31394987

SN - 2047-9980

VL - 8

SP - e012906

JO - Journal of the American Heart Association

JF - Journal of the American Heart Association

IS - 16

M1 - e012906

ER -

Mejía-Rentería H, Lauri FM, Lee JM, McInerney A, van der Hoeven NW , de Waard GA et al. Interindividual Variations in the Adenosine-Induced Hemodynamics During Fractional Flow Reserve Evaluation: Implications for the Use of Quantitative Flow Ratio in Assessing Intermediate Coronary Stenoses. Journal of the American Heart Association. 2019 Aug 20;8(16):e012906. e012906. doi: https://doi.org/10.1161/JAHA.119.012906

Interindividual Variations in the Adenosine-Induced Hemodynamics During Fractional Flow Reserve Evaluation: Implications for the Use of Quantitative Flow Ratio in Assessing Intermediate Coronary Stenoses

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