Enhancement Technique Based on the Breast Density Level for Mammogram for Computer-Aided Diagnosis

• Published in: Bioengineering (Basel) Vol. 10; no. 2; p. 153
• Main Authors: Razali, Noor Fadzilah, Isa, Iza Sazanita, Sulaiman, Siti Noraini, Abdul Karim, Noor Khairiah, Osman, Muhammad Khusairi, Che Soh, Zainal Hisham
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 23.01.2023; MDPI
• Subjects: Algorithms; Bioengineering; Breast; Breast cancer; breast density; CAD; Classification; Datasets; deep learning; Density; Diagnosis; Feature extraction; Image contrast; Image enhancement; Image processing; Image quality; Image segmentation; Mammography; Methods; Neural networks; Optimization; textural; Training; Malaysia; deep learning; breast cancer; textural; image enhancement; breast density; CAD
• ISSN: 2306-5354; 2306-5354
• DOI: 10.3390/bioengineering10020153

Mass detection in mammograms has a limited approach to the presence of a mass in overlapping denser fibroglandular breast regions. In addition, various breast density levels could decrease the learning system's ability to extract sufficient feature descriptors and may result in lower accuracy performance. Therefore, this study is proposing a textural-based image enhancement technique named Spatial-based Breast Density Enhancement for Mass Detection (SbBDEM) to boost textural features of the overlapped mass region based on the breast density level. This approach determines the optimal exposure threshold of the images' lower contrast limit and optimizes the parameters by selecting the best intensity factor guided by the best Blind/Reference-less Image Spatial Quality Evaluator (BRISQUE) scores separately for both dense and non-dense breast classes prior to training. Meanwhile, a modified You Only Look Once v3 (YOLOv3) architecture is employed for mass detection by specifically assigning an extra number of higher-valued anchor boxes to the shallower detection head using the enhanced image. The experimental results show that the use of SbBDEM prior to training mass detection promotes superior performance with an increase in mean Average Precision (mAP) of 17.24% improvement over the non-enhanced trained image for mass detection, mass segmentation of 94.41% accuracy, and 96% accuracy for benign and malignant mass classification. Enhancing the mammogram images based on breast density is proven to increase the overall system's performance and can aid in an improved clinical diagnosis process.