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Article Dans Une Revue Computerized Medical Imaging and Graphics Année : 2010

Time-efficient sparse analysis of histopathological Whole Slide Images

Résumé

Histopathological examination is a powerful method for the prognosis of critical diseases. But, despite significant advances in high-speed and high-resolution scanning devices or in virtual exploration capabilities, the clinical analysis of Whole Slide Images (WSI) largely remains the work of human experts. We propose an innovative platform in which multi-scale computer vision algorithms perform fast analysis of a histopathological WSI. It relies on specific high and generic low resolution image analysis algorithms embedded in a multi-scale framework to rapidly identify the high power fields of interest used by the pathologist to assess a global grading. GPU technologies as well speed up the global time-efficiency of the system. In a sense, sparse coding and sampling is the keystone of our approach. In terms of validation, we are designing a computer-aided breast biopsy analysis application based on histopathology images and designed in collaboration with a pathology department. The current ground truth slides correspond to about 36,000 high magnification (40X) high power fields. The time processing to achieve automatic WSI analysis is on a par with the pathologist's performance (about ten minutes a WSI), which constitutes by itself a major contribution of the proposed methodology.
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Dates et versions

hal-00553877 , version 1 (10-01-2011)

Identifiants

  • HAL Id : hal-00553877 , version 1

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Chao-Hui Huang, Antoine Veillard, Nicolas Lomenie, Daniel Racoceanu, Ludovic Roux. Time-efficient sparse analysis of histopathological Whole Slide Images. Computerized Medical Imaging and Graphics, 2010, pp.5. ⟨hal-00553877⟩
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