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Literature DB >> 27624311

Coronary lesion characteristics with mismatch between fractional flow reserve derived from CT and invasive catheterization in clinical practice.

Kazuhiro Osawa¹, Toru Miyoshi², Takashi Miki¹, Yuji Koide¹, Yusuke Kawai¹, Kentaro Ejiri¹, Masatoki Yoshida¹, Shuhei Sato³, Susumu Kanazawa³, Hiroshi Ito¹.

Abstract

High diagnostic performance of noninvasive fractional flow reserve computed from CT (FFR-CT) was recently reported in prospective multicenter trials. The aims of this study were to evaluate the diagnostic accuracy of FFR-CT in clinical practice and to examine the lesion characteristics showing a mismatch between FFR-CT and invasive FFR. A total of 20 patients (29 vessels) with suspected coronary artery disease were included. All patients underwent invasive coronary angiography and invasive FFR according to coronary artery CT angiography (CCTA) findings. The same raw data used for CCTA were used to evaluate FFR-CT. Results from FFR-CT were compared with invasively measured FFR. A positive ischemia was defined as FFR <0.80. Analyses from three vessels in two patients were not evaluated because of severe calcification or motion artifacts. The diagnostic accuracy, sensitivity, and specificity of FFR-CT per-vessel basis were 81, 100, and 69 %, respectively. To find the reason for mismatch in positive ischemia, lesion characteristics determined with CCTA were compared between the matched group and the mismatched group. A significant difference in bifurcation lesions with positive remodeling was observed between the matched group and the mismatched group (p < 0.01). The high sensitivity of FFR-CT may provide an additional support to the use of CCTA, although particular attention should be paid when using FFR-CT in bifurcation lesions with positive remodeling.

Entities: Chemical Disease Species

Keywords: Computed tomography; Coronary angiography; Coronary artery disease; Fractional flow reserve

Mesh：

Year: 2016 PMID： 27624311 DOI： 10.1007/s00380-016-0892-0

Source DB: PubMed Journal: Heart Vessels ISSN： 0910-8327 Impact factor: 2.037

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Journal: J Cardiovasc Comput Tomogr Date: 2011-08-07

Review 2. Standardized myocardial segmentation and nomenclature for tomographic imaging of the heart. A statement for healthcare professionals from the Cardiac Imaging Committee of the Council on Clinical Cardiology of the American Heart Association.

Authors: Manuel D Cerqueira; Neil J Weissman; Vasken Dilsizian; Alice K Jacobs; Sanjiv Kaul; Waren K Laskey; Dudley J Pennell; John A Rumberger; Thomas Ryan; Mario S Verani
Journal: Int J Cardiovasc Imaging Date: 2002-02 Impact factor: 2.357

Review 3. 2011 ACCF/AHA/SCAI Guideline for Percutaneous Coronary Intervention: executive summary: a report of the American College of Cardiology Foundation/American Heart Association Task Force on Practice Guidelines and the Society for Cardiovascular Angiography and Interventions.

Authors: Glenn N Levine; Eric R Bates; James C Blankenship; Steven R Bailey; John A Bittl; Bojan Cercek; Charles E Chambers; Stephen G Ellis; Robert A Guyton; Steven M Hollenberg; Umesh N Khot; Richard A Lange; Laura Mauri; Roxana Mehran; Issam D Moussa; Debabrata Mukherjee; Brahmajee K Nallamothu; Henry H Ting
Journal: Catheter Cardiovasc Interv Date: 2012-02-15 Impact factor: 2.692

4. Additional diagnostic value of first-pass myocardial perfusion imaging without stress when combined with 64-row detector coronary CT angiography in patients with coronary artery disease.

Authors: Kazuhiro Osawa; Toru Miyoshi; Yasushi Koyama; Katsushi Hashimoto; Shuhei Sato; Kazufumi Nakamura; Nobuhiro Nishii; Kunihisa Kohno; Hiroshi Morita; Susumu Kanazawa; Hiroshi Ito
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5. An in vitro study on the effect of branch points on the stability of coronary artery flow.

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6. Diagnosis of ischemia-causing coronary stenoses by noninvasive fractional flow reserve computed from coronary computed tomographic angiograms. Results from the prospective multicenter DISCOVER-FLOW (Diagnosis of Ischemia-Causing Stenoses Obtained Via Noninvasive Fractional Flow Reserve) study.

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7. Non-invasive computed fractional flow reserve from computed tomography (CT) for diagnosing coronary artery disease – Japanese results from NXT trial (Analysis of Coronary Blood Flow Using CT Angiography: Next Steps).

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8. Diagnostic accuracy of fractional flow reserve from anatomic CT angiography.

Authors: James K Min; Jonathon Leipsic; Michael J Pencina; Daniel S Berman; Bon-Kwon Koo; Carlos van Mieghem; Andrejs Erglis; Fay Y Lin; Allison M Dunning; Patricia Apruzzese; Matthew J Budoff; Jason H Cole; Farouc A Jaffer; Martin B Leon; Jennifer Malpeso; G B John Mancini; Seung-Jung Park; Robert S Schwartz; Leslee J Shaw; Laura Mauri
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9. Feasibility of tissue characterization of coronary plaques using 320-detector row computed tomography: comparison with integrated backscatter intravascular ultrasound.

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10. Coronary plaque quantification and fractional flow reserve by coronary computed tomography angiography identify ischaemia-causing lesions.

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Journal: Eur Heart J Date: 2016-01-12 Impact factor: 29.983

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2. Comparison of Computed Tomography derived Fractional Flow Reserve to invasive Fractional Flow Reserve in Diagnosis of Functional Coronary Stenosis: A Meta-Analysis.

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3. The predictive factors affecting false positive in on-site operated CT-fractional flow reserve based on fluid and structural interaction.

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