Multi-level adaptive segmentation of multi-parameter MR brain images

MR brain image segmentation into several tissue classes is of significant interest to visualize and quantify individual anatomical structures. Traditionally, the segmentation is performed manually in a clinical environment that is operator dependent and may be difficult to reproduce. Though several...

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Bibliographic Details
Published in:Computerized medical imaging and graphics 2000-04, Vol.24 (2), p.87-98
Main Authors: Zavaljevski, A., Dhawan, A.P., Gaskil, M., Ball, W., Johnson, J.D.
Format: Article
Language:English
Subjects:
Algorithms
Biological and medical sciences
Blood
Brain
Brain - pathology
Brain image classification
Brain image segmentation
Cerebrospinal Fluid
Cerebrovascular Disorders - pathology
Child
Color
Contrast Media
Discriminant Analysis
Expert Systems
Follow-Up Studies
Gadolinium
Humans
Image Processing, Computer-Assisted - classification
Image Processing, Computer-Assisted - methods
Image Processing, Computer-Assisted - statistics & numerical data
Image segmentation
Least-Squares Analysis
Likelihood Functions
Magnetic resonance imaging
Magnetic Resonance Imaging - methods
Markov Chains
Medical sciences
Model-based adaptive segmentation
Models, Statistical
Multi-parameter MR brain imaging
Neurology
Neurophysiology
Normal Distribution
Observer Variation
Pattern Recognition, Automated
Physiological models
Stroke - pathology
Tissue
User-Computer Interface
Vascular diseases and vascular malformations of the nervous system
Visualization
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Summary:MR brain image segmentation into several tissue classes is of significant interest to visualize and quantify individual anatomical structures. Traditionally, the segmentation is performed manually in a clinical environment that is operator dependent and may be difficult to reproduce. Though several algorithms have been investigated in the literature for computerized automatic segmentation of MR brain images, they are usually targeted to classify image into a limited number of classes such as white matter, gray matter, cerebrospinal fluid and specific lesions. We present a novel model-based method for the automatic segmentation and classification of multi-parameter MR brain images into a larger number of tissue classes of interest. Our model employs 15 brain tissue classes instead of the commonly used set of four classes, which were of clinical interest to neuroradiologists for following-up with patients suffering from cerebrovascular deficiency (CVD) and/or stroke. The model approximates the spatial distribution of tissue classes by a Gauss Markov random field and uses the maximum likelihood method to estimate the class probabilities and transitional probabilities for each pixel of the image. Multi-parameter MR brain images with T 1, T 2, proton density, Gd+ T 1, and perfusion imaging were used in segmentation and classification. In the development of the segmentation model, true class-membership of measured parameters was determined from manual segmentation of a set of normal and pathologic brain images by a team of neuroradiologists. The manual segmentation was performed using a human–computer interface specifically designed for pixel-by-pixel segmentation of brain images. The registration of corresponding images from different brains was accomplished using an elastic transformation. The presented segmentation method uses the multi-parameter model in adaptive segmentation of brain images on a pixel-by-pixel basis. The method was evaluated on a set of multi-parameter MR brain images of a twelve-year old patient 48 h after suffering a stroke. The results of classification as compared to the manual segmentation of the same data show the efficacy and accuracy of the presented methods as well as its capability to create and learn new tissue classes.
ISSN:0895-6111
1879-0771
DOI:10.1016/S0895-6111(99)00042-7