Communications Medicine (Jul 2024)

Precision imaging of cardiac function and scar size in acute and chronic porcine myocardial infarction using ultrahigh-field MRI

  • David Lohr,
  • Alena Kollmann,
  • Maya Bille,
  • Maxim Terekhov,
  • Ibrahim Elabyad,
  • Michael Hock,
  • Steffen Baltes,
  • Theresa Reiter,
  • Florian Schnitter,
  • Wolfgang Rudolf Bauer,
  • Ulrich Hofmann,
  • Laura Maria Schreiber

DOI
https://doi.org/10.1038/s43856-024-00559-y
Journal volume & issue
Vol. 4, no. 1
pp. 1 – 17

Abstract

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Abstract Background 7 T cardiac magnetic resonance imaging (MRI) studies may enable higher precision in clinical metrics like cardiac function, ventricular mass, and more. Higher precision may allow early detection of functional impairment and early evaluation of treatment responses in clinical practice and pre-clinical studies. Methods: Seven female German Landrace pigs were scanned prior to and at three time points (3–4 days, 7–10 days, and ~60 days) post myocardial infarction using a whole body 7 T system and three radiofrequency (RF) coils developed and built in-house to accompany animal growth. Results: The combination of dedicated RF hardware and 7 T MRI enables a longitudinal study in a pig model of acute and chronic infarction, providing consistent blood tissue contrast and high signal-to-noise ratio (SNR) in measurements of cardiac function, as well as low coefficients of variation (CoV) for ejection fraction (CoVintra-observer: 2%, CoVinter-observer: 3.8%) and infarct size (CoVintra-observer: 8.4%, CoVinter-observer: 3.8%), despite drastic animal growth. Conclusions: Best results are achieved via manual segmentation. We define state-of-the-art procedures for large animal studies at 7 T.