Abstract
Focal cortical dysplasia (FCD) is the main cause of epilepsy and can be automatically detected via magnetic resonance (MR) images. However, visual detection of lesions is time consuming and highly dependent on the doctor's personal knowledge and experience. In this paper, we propose a new framework for positive unanimous voting (PUV) to detect FCD lesions. Maps of gray matter thickness, gradient, relative intensity, and gray/white matter width are computed in the proposed framework to enhance the differences between lesional and non-lesional regions. Feature maps are further compared with the feature distributions of healthy controls to obtain feature difference maps. PUV driven by feature and feature difference maps is then applied to classify image voxels into lesion and non-lesion. The connected region analysis then refines the classification results by removing the tiny fragment regions consisting of falsely classified positive voxels. The proposed method correctly identified 8/10 patients with FCD lesions and 30/31 healthy people. Experimental results on the small FCD samples demonstrated that the proposed method can effectively reduce the number of false positives and guarantee correct detection of lesion regions compared with four single classifiers and two recent methods.
Highlights
Focal cortical dysplasia (FCD) is the main cause of epilepsy, which is a chronic illness of human brain that affects 50–65 million people worldwide (Bernasconi and Bernasconi, 2011)
We developed a new framework for positive unanimous voting (PUV) to reduce the false positive (FP) regions for automatic FCD detection
All patients suffered from epilepsy due to FCD have been confirmed by clinical examinations
Summary
Focal cortical dysplasia (FCD) is the main cause of epilepsy, which is a chronic illness of human brain that affects 50–65 million people worldwide (Bernasconi and Bernasconi, 2011). Threshold methods consider the intensity of T1 MR data as a feature, compare the intensities of patients with those of healthy controls, and classify the voxels of images into lesional and non-lesional. Considering that the high similarity in features of lesional and non-lesional regions, the basic classifiers are comprised of the classifiers that calculate both the mean and the variance in each class These classifiers are as stable in convergence as the support vector machine and neural network based methods are. (1) A detection framework using positive results based on unanimous voting of multiple classifiers was proposed to classify images into lesional and non-lesional. The FG6 integrates the mean representations of the healthy model, while FG3 does not. (3) Connected region analysis removed tiny FP fragments and extended the evaluation of the voxel level to the subject level
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