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BMC Cardiovascular Disorders
Published in: BMC Cardiovascular Disorders 1/2015

Open Access 01-12-2015 | Research article

Qualitative and semi-quantitative evaluation of myocardium perfusion with 3 T stress cardiac MRI

Authors: Chun-Ho Yun, Jui-Peng Tsai, Cheng-Ting Tsai, Greta S. P. Mok, Jing-Yi Sun, Chung-Lieh Hung, Tung-Hsin Wu, Wu-Ta Huang, Fei-Shih Yang, Jason Jeun-Shenn Lee, Ricardo C. Cury, Anas Fares, Lemba Dina Nshisso, Hiram G. Bezerra

Published in: BMC Cardiovascular Disorders | Issue 1/2015

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Abstract

Background

3 T MRI has been adopted by some centers as the primary choice for assessment of myocardial perfusion over conventional 1.5 T MRI. However, there is no data published on the potential additional value of incorporating semi-quantitative data from 3 T MRI. This study sought to determine the performance of qualitative 3 T stress magnetic resonance myocardial perfusion imaging (3 T-MRMPI) and the potential incremental benefit of using a semi-quantitative perfusion technique in patients with suspected coronary artery disease (CAD).

Methods

Fifty eight patients (41 men; mean age: 59 years) referred for elective diagnostic angiography underwent stress 3 T MRMPI with a 32-channel cardiac receiver coil. The MR protocol included gadolinium-enhanced stress first-pass perfusion (0.56 mg/kg, dipyridamole), rest perfusion, and delayed enhancement (DE). Visual analysis was performed in two steps. Ischemia was defined as a territory with perfusion defect at stress study but no DE or a territory with DE but additional peri-infarcted perfusion defect at stress study. Semi-quantitative analysis was calculated by using the upslope of the signal intensity-time curve during the first pass of contrast medium during dipyridamole stress and at rest. ROC analysis was used to determine the MPRI threshold that maximized sensitivity. Quantitative coronary angiography served as the reference standard with significant stenosis defined as >70 % diameter stenosis. Diagnostic performance was determined on a per-patient and per-vessel basis.

Results

Qualitative assessment had an overall sensitivity and specificity for detecting significant stenoses of 77 % and 80 %, respectively. By adding MPRI analysis, in cases with negative qualitative assessment, the overall sensitivity increased to 83 %. The impact of MPRI differed depending on the territory; with the sensitivity for detection of left circumflex (LCx) stenosis improving the most after semi-quantification analysis, (66 % versus 83 %).

Conclusions

Pure qualitative assessment of 3 T MRI had acceptable performance in detecting severe CAD. There is no overall benefit of incorporating semi-quantitative data; however a higher sensitivity can be obtained by adding MPRI, especially in the detection of LCx lesions.
Literature
1.
Schwitter J, Nanz D, Kneifel S, Bertschinger K, Buchi M, Knusel PR, et al. Assessment of myocardial perfusion in coronary artery disease by magnetic resonance: a comparison with positron emission tomography and coronary angiography. Circulation. 2001;103(18):2230–5.CrossRefPubMed
2.
3.
4.
Cerqueira MD, Weissman NJ, Dilsizian V, Jacobs AK, Kaul S, Laskey WK, et al. 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. Circulation. 2002;105(4):539–42.CrossRefPubMed
5.
Smith Jr SC, Feldman TE, Hirshfeld Jr JW, Jacobs AK, Kern MJ, King III SB, et al. ACC/AHA/SCAI 2005 guideline update for percutaneous coronary intervention: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (ACC/AHA/SCAI Writing Committee to Update 2001 Guidelines for Percutaneous Coronary Intervention). Circulation. 2006;113(7):e166–286. doi:10.​1161/​CIRCULATIONAHA.​106.​173220.CrossRefPubMed
6.
Patel MR, Dehmer GJ, Hirshfeld JW, Smith PK, Spertus JA, American College of Cardiology Foundation Appropriateness Criteria Task F, et al. ACCF/SCAI/STS/AATS/AHA/ASNC 2009 Appropriateness Criteria for Coronary Revascularization: a report by the American College of Cardiology Foundation Appropriateness Criteria Task Force, Society for Cardiovascular Angiography and Interventions, Society of Thoracic Surgeons, American Association for Thoracic Surgery, American Heart Association, and the American Society of Nuclear Cardiology Endorsed by the American Society of Echocardiography, the Heart Failure Society of America, and the Society of Cardiovascular Computed Tomography. J Am Coll Cardiol. 2009;53(6):530–53. doi:10.​1016/​j.​jacc.​2008.​10.​005.CrossRefPubMed
7.
Windecker S, Kolh P, Alfonso F, Collet JP, Cremer J, Falk V, et al. Task Force on Myocardial Revascularization of the European Society of Cardialogy, the European Association for Cardio-Thoracic Surgery Developed with the special contribution of the European Association for Percutaneous Cardiovascular Interventions. Eur Heart J. 2014;35(37):2541–619.CrossRefPubMed
8.
Schwaiger M. Myocardial perfusion imaging with PET. J Nucl Med. 1994;35(4):693–8.PubMed
9.
10.
11.
12.
Cheng AS, Pegg TJ, Karamitsos TD, Searle N, Jerosch-Herold M, Choudhury RP, et al. Cardiovascular magnetic resonance perfusion imaging at 3-tesla for the detection of coronary artery disease: a comparison with 1.5-tesla. J Am Coll Cardiol. 2007;49(25):2440–9. doi:10.​1016/​j.​jacc.​2007.​03.​028.CrossRefPubMed
13.
14.
Arnold JR, Karamitsos TD, Pegg TJ, Francis JM, Olszewski R, Searle N, et al. Adenosine stress myocardial contrast echocardiography for the detection of coronary artery disease: a comparison with coronary angiography and cardiac magnetic resonance. J Am Coll Cardiol Img. 2010;3(9):934–43. doi:10.​1016/​j.​jcmg.​2010.​06.​011.CrossRef
15.
16.
Klem I, Heitner JF, Shah DJ, Sketch Jr MH, Behar V, Weinsaft J, et al. Improved detection of coronary artery disease by stress perfusion cardiovascular magnetic resonance with the use of delayed enhancement infarction imaging. J Am Coll Cardiol. 2006;47(8):1630–8. doi:10.​1016/​j.​jacc.​2005.​10.​074.CrossRefPubMed
17.
18.
Klein C, Gebker R, Kokocinski T, Dreysse S, Schnackenburg B, Fleck E, et al. Combined magnetic resonance coronary artery imaging, myocardial perfusion and late gadolinium enhancement in patients with suspected coronary artery disease. J Cardiovasc Magn Reson. 2008;10:45. doi:10.​1186/​1532-429X-10-45.CrossRefPubMedPubMedCentral
19.
Ikuye K, Buckert D, Schaaf L, Walcher T, Rottbauer W, Bernhardt P. Inter-observer agreement and diagnostic accuracy of myocardial perfusion reserve quantification by cardiovascular magnetic resonance at 3 Tesla in comparison to quantitative coronary angiography. J Cardiovasc Magn Reson. 2013;15(1):25. doi:10.​1186/​1532-429X-15-25.CrossRefPubMedPubMedCentral
Metadata
Title
Qualitative and semi-quantitative evaluation of myocardium perfusion with 3 T stress cardiac MRI
Authors
Chun-Ho Yun
Jui-Peng Tsai
Cheng-Ting Tsai
Greta S. P. Mok
Jing-Yi Sun
Chung-Lieh Hung
Tung-Hsin Wu
Wu-Ta Huang
Fei-Shih Yang
Jason Jeun-Shenn Lee
Ricardo C. Cury
Anas Fares
Lemba Dina Nshisso
Hiram G. Bezerra
Publication date
01-12-2015
Publisher
BioMed Central
Published in
BMC Cardiovascular Disorders / Issue 1/2015
Electronic ISSN: 1471-2261
DOI
https://doi.org/10.1186/s12872-015-0159-1

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