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Contrast‐optimal simultaneous multi‐slice <scp>bSSFP</scp> cine cardiac imaging at 0.55 <scp>T</scp>

Ye Tian, Sophia Cui, Yongwan Lim, Nam G. Lee, Ziwei Zhao, Krishna S. Nayak

2022Magnetic Resonance in Medicine20 citationsDOIOpen Access PDF

Abstract

PURPOSE: To determine if contemporary 0.55 T MRI supports the use of contrast-optimal flip angles (FA) for simultaneous multi-slice (SMS) balanced SSFP (bSSFP) cardiac function assessment, which is impractical at conventional field strengths because of excessive SAR and/or banding artifacts. METHODS: Blipped-CAIPI bSSFP was combined with spiral sampling for ventricular function assessment at 0.55 T. Cine movies with single band and SMS factors of 2 and 3 (SMS 2 and 3), and FA ranging from 60° to 160°, were acquired in seven healthy volunteers. Left ventricular blood and myocardial signal intensity (SI) normalized by background noise and blood-myocardium contrast were measured and compared across acquisition settings. RESULTS: Myocardial SI was slightly higher in single band than in SMS and decreased with an increasing FA. Blood SI increased as the FA increased for single band, and increment was small for FA ≥120°. Blood SI for SMS 2 and 3 increased with an increasing FA up to ∼100°. Blood-myocardium contrast increased with an increasing FA for single band, peaked at FA = 160° (systole: 28.43, diastole: 29.15), attributed mainly to reduced myocardial SI when FA ≥120°. For SMS 2, contrast peaked at 120° (systole: 21.43, diastole: 19.85). For SMS 3, contrast peaked at 120° in systole (16.62) and 100° in diastole (19.04). CONCLUSIONS: Contemporary 0.55 T MR scanners equipped with high-performance gradient systems allow the use of contrast-optimal FA for SMS accelerated bSSFP cine examinations without compromising image quality. The contrast-optimal FA was found to be 140° to 160° for single band and 100° to 120° for SMS 2 and 3.

Topics & Concepts

Contrast (vision)DiastoleSystoleMedicineCardiac cycleCardiologyNuclear medicineBiomedical engineeringInternal medicineComputer scienceBlood pressureArtificial intelligenceAdvanced MRI Techniques and ApplicationsCardiac Imaging and DiagnosticsCardiovascular Function and Risk Factors