• DocumentCode
    3851452
  • Title

    High Time-Resolved Cardiac Functional Imaging Using Temporal Regularization for Small Animal on a Clinical 3T Scanner

  • Author

    Bénédicte M. A. Delattre;Dimitri Van De Ville;Vincent Braunersreuther;Corinne Pellieux;Jean-Noël Hyacinthe;René Lerch;François Mach;Jean-Paul Vallée

  • Author_Institution
    Division of Radiology, Faculty of Medicine, Foundation for Medical Researchers, Geneva University Hospital, University of Geneva , Geneva, Switzerland
  • Volume
    59
  • Issue
    4
  • fYear
    2012
  • Firstpage
    929
  • Lastpage
    935
  • Abstract
    Accurate assessment of mice cardiac function with magnetic resonance imaging is essential for longitudinal studies and for drug development related to cardiovascular diseases. Whereas dedicated small animal MR scanners are not readily available, it would be a great advantage to be able to perform cardiac assessment on clinical systems, in particular, in the context of translational research. However, mouse imaging remains challenging since it requires both high spatial and temporal resolutions, while gradient performances of clinical scanners often limit the reachable parameters. In this study, we propose a new cine sequence, named “interleaved cine,” which combines two repetitions of a standard cine sequence shifted in time in order to reach resolution parameters compatible with mice imaging. More precisely, this sequence allows temporal resolution to be reduced to 6.8 ms instead of 13.5 ms initially imposed by the system´s hardware. We also propose a two-step denoising algorithm to suppress some artifacts inherent to the new interleaved cine thus allowing an efficient enhancement of the image quality. In particular, we model and suppress the periodic intensity pattern and further denoise the sequence by soft thresholding of the temporal Fourier coefficients. This sequence was successfully validated with mass and function measurements on relevant mice models of cardiovascular diseases.
  • Keywords
    "Mice","Magnetic resonance imaging","Heart","Spatial resolution","Noise reduction"
  • Journal_Title
    IEEE Transactions on Biomedical Engineering
  • Publisher
    ieee
  • ISSN
    0018-9294
  • Type

    jour

  • DOI
    10.1109/TBME.2011.2174363
  • Filename
    6068237