• DocumentCode
    1236217
  • Title

    Wall position and thickness estimation from sequences of echocardiographic images

  • Author

    Dias, José M B ; Leitão, José M N

  • Author_Institution
    Dept. de Engenharia Electrotecnica e de Comput., Inst. Superior Tecnico, Lisbon, Portugal
  • Volume
    15
  • Issue
    1
  • fYear
    1996
  • fDate
    2/1/1996 12:00:00 AM
  • Firstpage
    25
  • Lastpage
    38
  • Abstract
    Presents a new method for endocardial (inner) and epicardial (outer) contour estimation from sequences of echocardiographic images. The framework herein introduced is fine-tuned for parasternal short axis views at the papillary muscle level. The underlying model is probabilistic; it captures the relevant features of the image generation physical mechanisms and of the heart morphology. Contour sequences are assumed to be two-dimensional noncausal first-order Markov random processes; each variable has a spatial index and a temporal index. The image pixels are modeled as Rayleigh distributed random variables with means depending on their positions (inside endocardium, between endocardium and pericardium, or outside pericardium). The complete probabilistic model is built under the Bayesian framework. As estimation criterion the maximum a posteriori (MAP) is adopted. To solve the optimization problem, one is led to (joint estimation of contours and distributions´ parameters), the authors introduce an algorithm herein named iterative multigrid dynamic programming (IMDP). It is a fully data-driven scheme with no ad-hoc parameters. The method is implemented on an ordinary workstation, leading to computation times compatible with operational use. Experiments with simulated and real images are presented
  • Keywords
    echocardiography; image sequences; medical image processing; position measurement; thickness measurement; Bayesian framework; Rayleigh distributed random variables; contour sequences; echocardiographic images sequence; endocardium; fully data-driven scheme; heart morphology; heart wall position estimation; image generation physical mechanisms; iterative multigrid dynamic programming; maximum a posteriori; medical diagnostic imaging; pericardium; probabilistic model; thickness estimation; Bayesian methods; Heart; Image generation; Iterative algorithms; Morphology; Muscles; Pixel; Random processes; Random variables; Spatial indexes;
  • fLanguage
    English
  • Journal_Title
    Medical Imaging, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0278-0062
  • Type

    jour

  • DOI
    10.1109/42.481438
  • Filename
    481438