Scientific Reports (Mar 2023)

Increased cardiac involvement in Fabry disease using blood-corrected native T1 mapping

  • Jannike Nickander,
  • Ben Cole,
  • Sabrina Nordin,
  • Ravi Vijapurapu,
  • Richard P. Steeds,
  • James C. Moon,
  • Peter Kellman,
  • Martin Ugander,
  • Rebecca Kozor

DOI
https://doi.org/10.1038/s41598-023-31211-9
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 7

Abstract

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Abstract Fabry disease (FD) is a rare lysosomal storage disorder resulting in myocardial sphingolipid accumulation which is detectable by cardiovascular magnetic resonance as low native T1. However, myocardial T1 contains signal from intramyocardial blood which affects variability and consequently measurement precision and accuracy. Correction of myocardial T1 by blood T1 increases precision. We therefore deployed a multicenter study of FD patients (n = 218) and healthy controls (n = 117) to investigate if blood-correction of myocardial native T1 increases the number of FD patients with low T1, and thus reclassifies FD patients as having cardiac involvement. Cardiac involvement was defined as a native T1 value 2 standard deviations below site-specific means in healthy controls for both corrected and uncorrected measures. Overall low T1 was 135/218 (62%) uncorrected vs. 145/218 (67%) corrected (p = 0.02). With blood-correction, 13/83 previously normal patients were reclassified to low T1. This reclassification appears clinically relevant as 6/13 (46%) of reclassified had focal late gadolinium enhancement or left ventricular hypertrophy as signs of cardiac involvement. Blood-correction of myocardial native T1 increases the proportion of FD subjects with low myocardial T1, with blood-corrected results tracking other markers of cardiac involvement. Blood-correction may potentially offer earlier detection and therapy initiation, but merits further prospective studies.