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Precise Identification of Prostate Cancer from DWI Using Transfer Learning

Islam R. Abdelmaksoud, Ahmed Shalaby, Ali Mahmoud, Mohammed Elmogy, Ahmed Aboelfetouh, Mohamed Abou El‐Ghar, Moumen El-Melegy, Norah Saleh Alghamdi, Ayman El‐Baz

2021Sensors28 citationsDOIOpen Access PDF

Abstract

Background and Objective: The use of computer-aided detection (CAD) systems can help radiologists make objective decisions and reduce the dependence on invasive techniques. In this study, a CAD system that detects and identifies prostate cancer from diffusion-weighted imaging (DWI) is developed. Methods: The proposed system first uses non-negative matrix factorization (NMF) to integrate three different types of features for the accurate segmentation of prostate regions. Then, discriminatory features in the form of apparent diffusion coefficient (ADC) volumes are estimated from the segmented regions. The ADC maps that constitute these volumes are labeled by a radiologist to identify the ADC maps with malignant or benign tumors. Finally, transfer learning is used to fine-tune two different previously-trained convolutional neural network (CNN) models (AlexNet and VGGNet) for detecting and identifying prostate cancer. Results: Multiple experiments were conducted to evaluate the accuracy of different CNN models using DWI datasets acquired at nine distinct b-values that included both high and low b-values. The average accuracy of AlexNet at the nine b-values was 89.2±1.5% with average sensitivity and specificity of 87.5±2.3% and 90.9±1.9%. These results improved with the use of the deeper CNN model (VGGNet). The average accuracy of VGGNet was 91.2±1.3% with sensitivity and specificity of 91.7±1.7% and 90.1±2.8%. Conclusions: The results of the conducted experiments emphasize the feasibility and accuracy of the developed system and the improvement of this accuracy using the deeper CNN.

Topics & Concepts

Computer scienceConvolutional neural networkArtificial intelligenceProstate cancerPattern recognition (psychology)Transfer of learningNon-negative matrix factorizationSegmentationDiffusion MRISensitivity (control systems)Effective diffusion coefficientComputer-aided diagnosisCancerMatrix decompositionMagnetic resonance imagingRadiologyMedicinePhysicsQuantum mechanicsInternal medicineElectronic engineeringEigenvalues and eigenvectorsEngineeringAI in cancer detectionAdvanced Neural Network ApplicationsMedical Imaging and Analysis
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