Frontiers in Radiology (Aug 2024)

Wideband radiofrequency pulse sequence for evaluation of myocardial scar in patients with cardiac implantable devices

  • Neil D. Shah,
  • Mayil Krishnam,
  • Bharat Ambale Venkatesh,
  • Fouzia Khan,
  • Michele Smith,
  • Darwin R. Jones,
  • Patrick Koon,
  • Xianglun Mao,
  • Martin A. Janich,
  • Anja C. S. Brau,
  • Michael Salerno,
  • Rajesh Dash,
  • Frandics Chan,
  • Phillip C. Yang

DOI
https://doi.org/10.3389/fradi.2024.1327406
Journal volume & issue
Vol. 4

Abstract

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BackgroundCardiac magnetic resonance is a useful clinical tool to identify late gadolinium enhancement in heart failure patients with implantable electronic devices. Identification of LGE in patients with CIED is limited by artifact, which can be improved with a wide band radiofrequency pulse sequence.ObjectiveThe authors hypothesize that image quality of LGE images produced using wide-band pulse sequence in patients with devices is comparable to image quality produced using standard LGE sequences in patients without devices.MethodsTwo independent readers reviewed LGE images of 16 patients with CIED and 7 patients without intracardiac devices to assess for image quality, device-related artifact, and presence of LGE using the American Society of Echocardiography/American Heart Association 17 segment model of the heart on a 4-point Likert scale. The mean and standard deviation for image quality and artifact rating were determined. Inter-observer reliability was determined by calculating Cohen's kappa coefficient. Statistical significance was determined by T-test as a p {less than or equal to} 0.05 with a 95% confidence interval.ResultsAll patients underwent CMR without any adverse events. Overall IQ of WB LGE images was significantly better in patients with devices compared to standard LGE in patients without devices (p = 0.001) with reduction in overall artifact rating (p = 0.05).ConclusionOur study suggests wide-band pulse sequence for LGE can be applied safely to heart failure patients with devices in detection of LV myocardial scar while maintaining image quality, reducing artifact, and following routine imaging protocol after intravenous gadolinium contrast administration.

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