• DocumentCode
    2921448
  • Title

    ZMIND - an interactive environment for electrical modeling of the thorax

  • Author

    Yang, Fei ; Patterson, Robert

  • Author_Institution
    Sch. of Med., Dept. of Radiat. Oncology, Washington Univ., St. Louis, MO, USA
  • fYear
    2010
  • fDate
    Aug. 31 2010-Sept. 4 2010
  • Firstpage
    6686
  • Lastpage
    6689
  • Abstract
    Interest in the electrical modeling of the thorax is motivated by various desires ranging from determining cardiac function, optimizing defibrillation efficacy, monitoring pulmonary edema, etc. However, existing models represent the thorax with rather coarse anatomical details, limiting their utilizations for accurately simulating small electrodes which typically occurs in pacing and defibrillation clinical practices. In this paper, we describe an anatomically realistic finite difference modeling software environment, referred as ZMIND. Segmented image-based finite difference models of a male adult at the end of systole and the end of diastole were constructed based on ECG-gated MRI scans. Up to 36 types of tissues were identified and included in the model, providing fine anatomical details in the heart and lung regions. The environment enables placing electrodes interactively and also provides a library of clinically-based, user-configurable electrodes. The analysis module of this environment allows performing sensitivity analysis and visualizing the computed electric fields, current density, and sensitivity distribution.
  • Keywords
    bioelectric phenomena; biomedical MRI; current density; diseases; electrocardiography; finite difference methods; graphical user interfaces; image segmentation; lung; medical image processing; ECG-gated MRI; ZMIND software; anatomically realistic finite difference modeling software environment; current density; defibrillation; diastole; electric conductivity; electric fields; electrical modeling; electrodes; heart; interactive environment; lung; pulmonary edema; sensitivity analysis; sensitivity distribution; systole; thorax; user friendly graphical interface; user-configurable electrodes; Computational modeling; Conductivity; Defibrillation; Electrodes; Impedance; Object oriented modeling; Thorax; Algorithms; Electric Conductivity; Electrocardiography; Humans; Magnetic Resonance Imaging; Male; Middle Aged; Software; Thorax;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Engineering in Medicine and Biology Society (EMBC), 2010 Annual International Conference of the IEEE
  • Conference_Location
    Buenos Aires
  • ISSN
    1557-170X
  • Print_ISBN
    978-1-4244-4123-5
  • Type

    conf

  • DOI
    10.1109/IEMBS.2010.5626261
  • Filename
    5626261