Literature DB >> 35041147

Characterization of quantitative flow ratio and fractional flow reserve discordance using doppler flow and clinical follow-up.

Jelmer Westra1, Ashkan Eftekhari1, Mick Renkens2, Hernán Mejía-Rentería3, Martin Sejr-Hansen1, Valérie Stegehuis2, Niels Ramsing Holm1, Robert-Jan de Winter2, Jan J Piek2, Javier Escaned3, J J Wykrzykowska1,4, Evald Høj Christiansen5.   

Abstract

The physiological mechanisms of quantitative flow ratio and fractional flow reserve disagreement are not fully understood. We aimed to characterize the coronary flow and resistance profile of intermediate stenosed epicardial coronary arteries with concordant and discordant FFR and QFR. Post-hoc analysis of the DEFINE-FLOW study. Anatomical and Doppler-derived physiological parameters were compared for lesions with FFR+QFR- (n = 18) vs. FFR+QFR+ (n = 43) and for FFR-QFR+ (n = 34) vs. FFR-QFR- (n = 139). The association of QFR results with the two-year rate of target vessel failure was assessed in the proportion of vessels (n = 195) that did not undergo revascularization. Coronary flow reserve was higher [2.3 (IQR: 2.1-2.7) vs. 1.9 (IQR: 1.5-2.4)], hyperemic microvascular resistance lower [1.72 (IQR: 1.48-2.31) vs. 2.26 (IQR: 1.79-2.87)] and anatomical lesion severity less severe [% diameter stenosis 45.5 (IQR: 41.5-52.5) vs. 58.5 (IQR: 53.1-64.0)] for FFR+QFR- lesions compared with FFR+QFR+ lesions. In comparison of FFR-QFR+ vs. FFR-QFR- lesions, lesion severity was more severe [% diameter stenosis 55.2 (IQR: 51.7-61.3) vs. 43.4 (IQR: 35.0-50.6)] while coronary flow reserve [2.2 (IQR: 1.9-2.9) vs. 2.2 (IQR: 1.9-2.6)] and hyperemic microvascular resistance [2.34 (IQR: 1.85-2.81) vs. 2.57 (IQR: 2.01-3.22)] did not differ. The agreement and diagnostic performance of FFR using hyperemic stenosis resistance (> 0.80) as reference standard was higher compared with QFR and coronary flow reserve. Disagreement between FFR and QFR is partly explained by physiological and anatomical factors. Clinical Trials Registration https://www.clinicaltrials.gov ; Unique identifier: NCT01813435. Changes in central physiological and anatomical parameters according to FFR and QFR match/mismatch quadrants.
© 2022. The Author(s), under exclusive licence to Springer Nature B.V.

Entities:  

Keywords:  Coronary flow reserve; Coronary physiology; Fractional flow reserve; Quantitative coronary angiography

Year:  2022        PMID: 35041147     DOI: 10.1007/s10554-022-02522-1

Source DB:  PubMed          Journal:  Int J Cardiovasc Imaging        ISSN: 1569-5794            Impact factor:   2.357


  20 in total

1.  Diagnostic performance of quantitative flow ratio in prospectively enrolled patients: An individual patient-data meta-analysis.

Authors:  Jelmer Westra; Shengxian Tu; Gianluca Campo; Shubin Qiao; Hitoshi Matsuo; Xinkai Qu; Lukasz Koltowski; Yunxiao Chang; Tommy Liu; Junqing Yang; Birgitte Krogsgaard Andersen; Ashkan Eftekhari; Evald Høj Christiansen; Javier Escaned; William Wijns; Bo Xu; Niels Ramsing Holm
Journal:  Catheter Cardiovasc Interv       Date:  2019-04-09       Impact factor: 2.692

2.  Utilization and Outcomes of Measuring Fractional Flow Reserve in Patients With Stable Ischemic Heart Disease.

Authors:  Rushi V Parikh; Grace Liu; Mary E Plomondon; Thomas S G Sehested; Mark A Hlatky; Stephen W Waldo; William F Fearon
Journal:  J Am Coll Cardiol       Date:  2020-02-04       Impact factor: 24.094

3.  Five-Year Outcomes with PCI Guided by Fractional Flow Reserve.

Authors:  Panagiotis Xaplanteris; Stephane Fournier; Nico H J Pijls; William F Fearon; Emanuele Barbato; Pim A L Tonino; Thomas Engstrøm; Stefan Kääb; Jan-Henk Dambrink; Gilles Rioufol; Gabor G Toth; Zsolt Piroth; Nils Witt; Ole Fröbert; Petr Kala; Axel Linke; Nicola Jagic; Martin Mates; Kreton Mavromatis; Habib Samady; Anand Irimpen; Keith Oldroyd; Gianluca Campo; Martina Rothenbühler; Peter Jüni; Bernard De Bruyne
Journal:  N Engl J Med       Date:  2018-05-22       Impact factor: 91.245

4.  Fractional flow reserve versus angiography for guidance of PCI in patients with multivessel coronary artery disease (FAME): 5-year follow-up of a randomised controlled trial.

Authors:  Lokien X van Nunen; Frederik M Zimmermann; Pim A L Tonino; Emanuele Barbato; Andreas Baumbach; Thomas Engstrøm; Volker Klauss; Philip A MacCarthy; Ganesh Manoharan; Keith G Oldroyd; Peter N Ver Lee; Marcel Van't Veer; William F Fearon; Bernard De Bruyne; Nico H J Pijls
Journal:  Lancet       Date:  2015-08-30       Impact factor: 79.321

5.  Functional assessment of coronary stenosis with angiography-based Quantitative Flow Ratio compared with Fractional Flow Reserve in patients with severe aortic stenosis.

Authors:  Hernán Mejía-Rentería; Luis Nombela-Franco; Jean-Michel Paradis; Mattia Lunardi; Joo Myung Lee; Ignacio J Amat-Santos; Gabriela Veiga Fernandez; Ankur Kalra; Eric J Bansal; Jose Maria de la Torre Hernandez; Josep Rodés-Cabau; Flavio L Ribichini; Javier Escaned
Journal:  EuroIntervention       Date:  2020-03-24       Impact factor: 6.534

6.  Diagnostic Accuracy of Angiography-Based Quantitative Flow Ratio Measurements for Online Assessment of Coronary Stenosis.

Authors:  Bo Xu; Shengxian Tu; Shubin Qiao; Xinkai Qu; Yundai Chen; Junqing Yang; Lijun Guo; Zhongwei Sun; Zehang Li; Feng Tian; Weiyi Fang; Jiyan Chen; Wei Li; Changdong Guan; Niels R Holm; William Wijns; Shengshou Hu
Journal:  J Am Coll Cardiol       Date:  2017-10-31       Impact factor: 24.094

7.  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.

Authors:  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
Journal:  J Am Heart Assoc       Date:  2019-08-09       Impact factor: 5.501

8.  Functional classification discordance in intermediate coronary stenoses between fractional flow reserve and angiography-based quantitative flow ratio.

Authors:  Yoshinori Kanno; Masahiro Hoshino; Rikuta Hamaya; Tomoyo Sugiyama; Yoshihisa Kanaji; Eisuke Usui; Masao Yamaguchi; Masahiro Hada; Hiroaki Ohya; Yohei Sumino; Hidenori Hirano; Haruhito Yuki; Tomoki Horie; Tadashi Murai; Tetsumin Lee; Taishi Yonetsu; Tsunekazu Kakuta
Journal:  Open Heart       Date:  2020-01-23

9.  Comparison of quantitative flow ratio and fractional flow reserve with myocardial perfusion scintigraphy and cardiovascular magnetic resonance as reference standard. A Dan-NICAD substudy.

Authors:  Martin Sejr-Hansen; Jelmer Westra; Simon Winther; Shengxian Tu; Louise Nissen; Lars Gormsen; Steffen E Petersen; June Ejlersen; Christin Isaksen; Hans Erik Bøtker; Morten Bøttcher; Evald H Christiansen; Niels Ramsing Holm
Journal:  Int J Cardiovasc Imaging       Date:  2019-11-19       Impact factor: 2.357

10.  Fractional flow reserve-guided percutaneous coronary intervention vs. medical therapy for patients with stable coronary lesions: meta-analysis of individual patient data.

Authors:  Frederik M Zimmermann; Elmir Omerovic; Stephane Fournier; Henning Kelbæk; Nils P Johnson; Martina Rothenbühler; Panagiotis Xaplanteris; Mohamed Abdel-Wahab; Emanuele Barbato; Dan Eik Høfsten; Pim A L Tonino; Bianca M Boxma-de Klerk; William F Fearon; Lars Køber; Pieter C Smits; Bernard De Bruyne; Nico H J Pijls; Peter Jüni; Thomas Engstrøm
Journal:  Eur Heart J       Date:  2019-01-07       Impact factor: 29.983
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