Coronary Optical Coherence Tomography and Cardiac Magnetic Resonance Imaging to Determine Underlying Causes of Myocardial Infarction With Nonobstructive Coronary Arteries in Women-Reference-Cited by-同舟云学术

Coronary Optical Coherence Tomography and Cardiac Magnetic Resonance Imaging to Determine Underlying Causes of Myocardial Infarction With Nonobstructive Coronary Arteries in Women

Published:2021-02-16 Issue:7 Volume:143 Page:624-640
ISSN:0009-7322
Container-title:Circulation
language:en
Short-container-title:Circulation

Author:

Reynolds Harmony R.¹²^ORCID,Maehara Akiko³⁴,Kwong Raymond Y.⁵,Sedlak Tara⁶,Saw Jacqueline⁶^ORCID,Smilowitz Nathaniel R.¹²,Mahmud Ehtisham⁷,Wei Janet⁸,Marzo Kevin⁹,Matsumura Mitsuaki³^ORCID,Seno Ayako⁵^ORCID,Hausvater Anais¹²,Giesler Caitlin¹⁰,Jhalani Nisha⁴,Toma Catalin¹¹,Har Bryan¹²,Thomas Dwithiya¹³,Mehta Laxmi S.¹⁴,Trost Jeffrey¹⁵,Mehta Puja K.¹⁶,Ahmed Bina¹⁷^ORCID,Bainey Kevin R.¹⁸^ORCID,Xia Yuhe¹⁹,Shah Binita²^ORCID,Attubato Michael²,Bangalore Sripal²^ORCID,Razzouk Louai²,Ali Ziad A.³⁴^ORCID,Merz Noel Bairey⁸^ORCID,Park Ki²⁰,Hada Ellen¹,Zhong Hua¹⁹,Hochman Judith S.¹²^ORCID

Affiliation:

1. Sarah Ross Soter Center for Women’s Cardiovascular Research (H.R.R., N.R.S., A.H., E.H., J.S.H.), New York University Grossman School of Medicine, NY.

2. Leon H. Charney Division of Cardiology, Department of Medicine (H.R.R., N.R.S., A.H., B.S., M.A., S.B., L.R., J.S.H.), New York University Grossman School of Medicine, NY.

3. Cardiovascular Research Foundation, New York, NY (A.M., M.M., Z.A.A.).

4. Columbia University, New York, NY (A.M., N.J., Z.A.A.).

5. Brigham and Women’s Hospital, Boston, MA (R.Y.K., A.S.).

6. Vancouver General Hospital, British Columbia, Canada (T.S., J.S.).

7. University of California San Diego Health, La Jolla (E.M.).

8. Barbra Streisand Women’s Heart Center, Smidt Heart Institute, Cedars-Sinai Medical Center, Los Angeles, CA (J.W., N.B.M.).

9. New York University Winthrop Hospital, New York University Long Island School of Medicine, Mineola (K.M.).

10. Ascension Medical Group, Austin, TX (C.G.).

11. University of Pittsburgh Department of Medicine, PA (C.T.).

12. University of Calgary, Alberta, Canada (B.H.).

13. St Luke’s University Healthcare, Bethlehem, PA (D.T.).

14. Ohio State University Wexner Medical Center, Powell, OH (L.S.M.).

15. Johns Hopkins Medical Center, Baltimore, MD (J.T.).

16. Emory Women’s Heart Center, Atlanta, GA (P.K.M.).

17. Santa Barbara Cardiovascular Medical Group, CA (B.A.).

18. Mazankowski Alberta Heart Institute, University of Alberta, Edmonton, Canada (K.R.B.).

19. Department of Population Health (Y.X., H.Z.), New York University Grossman School of Medicine, NY.

20. University of Florida, Gainesville (K.P.).

Abstract

Background: Myocardial infarction with nonobstructive coronary arteries (MINOCA) occurs in 6% to 15% of myocardial infarctions (MIs) and disproportionately affects women. Scientific statements recommend multimodality imaging in MINOCA to define the underlying cause. We performed coronary optical coherence tomography (OCT) and cardiac magnetic resonance (CMR) imaging to assess mechanisms of MINOCA. Methods: In this prospective, multicenter, international, observational study, we enrolled women with a clinical diagnosis of myocardial infarction. If invasive coronary angiography revealed <50% stenosis in all major arteries, multivessel OCT was performed, followed by CMR (cine imaging, late gadolinium enhancement, and T2-weighted imaging and T1 mapping). Angiography, OCT, and CMR were evaluated at blinded, independent core laboratories. Culprit lesions identified by OCT were classified as definite or possible. The CMR core laboratory identified ischemia-related and nonischemic myocardial injury. Imaging results were combined to determine the mechanism of MINOCA, when possible. Results: Among 301 women enrolled at 16 sites, 170 were diagnosed with MINOCA, of whom 145 had adequate OCT image quality for analysis; 116 of these underwent CMR. A definite or possible culprit lesion was identified by OCT in 46.2% (67/145) of participants, most commonly plaque rupture, intraplaque cavity, or layered plaque. CMR was abnormal in 74.1% (86/116) of participants. An ischemic pattern of CMR abnormalities (infarction or myocardial edema in a coronary territory) was present in 53.4% (62/116) of participants undergoing CMR. A nonischemic pattern of CMR abnormalities (myocarditis, takotsubo syndrome, or nonischemic cardiomyopathy) was present in 20.7% (24/116). A cause of MINOCA was identified in 84.5% (98/116) of the women with multimodality imaging, higher than with OCT alone ( P <0.001) or CMR alone ( P =0.001). An ischemic cause was identified in 63.8% of women with MINOCA (74/116), a nonischemic cause was identified in 20.7% (24/116) of the women, and no mechanism was identified in 15.5% (18/116). Conclusions: Multimodality imaging with coronary OCT and CMR identified potential mechanisms in 84.5% of women with a diagnosis of MINOCA, 75.5% of which were ischemic and 24.5% of which were nonischemic, alternate diagnoses to myocardial infarction. Identification of the cause of MINOCA is feasible and has the potential to guide medical therapy for secondary prevention. Registration: URL: https://www.clinicaltrials.gov ; Unique identifier: NCT02905357.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Physiology (medical),Cardiology and Cardiovascular Medicine

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