Abstract
In this paper, we present a novel cascaded classification framework for automatic detection of individual and clusters of microcalcifications (μC). Our framework comprises three classification stages: i) a random forest (RF) classifier for simple features capturing the second order local structure of individual μCs, where non-μC pixels in the target mammogram are efficiently eliminated; ii) a more complex discriminative restricted Boltzmann machine (DRBM) classifier for μC candidates determined in the RF stage, which automatically learns the detailed morphology of μC appearances for improved discriminative power; and iii) a detector to detect clusters of μCs from the individual μC detection results, using two different criteria. From the two-stage RF-DRBM classifier, we are able to distinguish μCs using explicitly computed features, as well as learn implicit features that are able to further discriminate between confusing cases. Experimental evaluation is conducted on the original Mammographic Image Analysis Society (MIAS) and mini-MIAS databases, as well as our own Seoul National University Bundang Hospital digital mammographic database. It is shown that the proposed method outperforms comparable methods in terms of receiver operating characteristic (ROC) and precision-recall curves for detection of individual μCs and free-response receiver operating characteristic (FROC) curve for detection of clustered μCs.
Highlights
Breast cancer is the most common cancer in women worldwide and the second most common cancer overall [1]
The validity of the proposed method is evaluated and compared with relevant methods, on digitized mammograms from the original Mammographic Image Analysis Society (MIAS) database [23] and the mini-MIAS database [24], a processed version of the original, as well as digital mammograms obtained from Seoul National University Bundang Hospital (SNUBH)
The Seoul National University Bundang Hospital Digital Mammographic database (SNUBH-MDB) comprises 319 digital mammograms, all with spatial resolution of 0.1 mm/pixel, pixel resolution of 1914 × 2294 pixels, and 12 bit depth, from 175 clinical cases all obtained from the SNUBH using a GE Senographe 2000D digital mammography system
Summary
Breast cancer is the most common cancer in women worldwide and the second most common cancer overall [1]. In the work by Wei et al [15], a linear classifier and a non-linear RVM classifier are combined in a two-stage network to enhance accuracy and efficiency In both works, the evaluation of individual μC detection is conducted not on actual clinical cases where only an extremely small number of pixels are μCs but on comparatively well-balanced test samples. The key advantages of the proposed framework are as follows: 1) Improved accuracy of individual μC detection based on the DRBM which automatically learns the detailed morphology of μC appearances. 2) Improved efficiency of individual μC detection from the fast RF classification Does this stage improve efficiency, it enhances the second stage by focusing the discriminative power of the DRBM exclusively for difficult cases with subtle differences in appearance. The validity of the proposed method is evaluated and compared with relevant methods, on digitized mammograms from the original Mammographic Image Analysis Society (MIAS) database [23] and the mini-MIAS database [24], a processed version of the original, as well as digital mammograms obtained from Seoul National University Bundang Hospital (SNUBH)
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