Efficient Classification of Prostate Cancer Using Artificial Intelligence Techniques

As the primary cause of illness and death for men, Prostate Cancer (PCa) is a serious worldwide health problem. To maximise treatment results and raise patient survival rates, prostate cancer diagnosis and timing are essential. The rising death rate of PCa could be reduced with better treatment plan...

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Bibliographic Details
Published inSN computer science Vol. 5; no. 4; p. 389
Main Author Baazeem, Rami Mohamdfowzi Yaslam
Format Journal Article
LanguageEnglish
Published Singapore Springer Nature Singapore 02.04.2024
Springer Nature B.V
Subjects
Algorithms
Artificial intelligence
Bladder
Breast cancer
Cancer therapies
Classification
Computer Imaging
Computer Science
Computer Systems Organization and Communication Networks
Data Structures and Information Theory
Diagnosis
Diagnostic systems
Discriminant analysis
Feature extraction
Hormones
Image quality
Image segmentation
Information Systems and Communication Service
Life expectancy
Machine Intelligence and Smart Systems
Machine learning
Magnetic resonance imaging
Medical imaging
Mortality
Multilayer perceptrons
Noise reduction
Original Research
Particle swarm optimization
Pattern Recognition and Graphics
Penis
Prostate cancer
Signal to noise ratio
Similarity
Software Engineering/Programming and Operating Systems
Sperm
Support vector machines
Tumors
Vision
Asia
Magnetic resonance imaging (MRI)
Support vector machine (SVM)
Multilayer perceptron (MLP)
Linear discriminant analysis (LDA)
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ISSN2661-8907
2662-995X
2661-8907
DOI10.1007/s42979-024-02745-0

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Summary:As the primary cause of illness and death for men, Prostate Cancer (PCa) is a serious worldwide health problem. To maximise treatment results and raise patient survival rates, prostate cancer diagnosis and timing are essential. The rising death rate of PCa could be reduced with better treatment planning and diagnosis, both of which depend on early and accurate detection. In this paper, a comprehensive computer-aided diagnostic (CAD) system that transforms prostate cancer diagnosis is introduced. The system includes crucial steps like feature extraction, feature classification, prostate segmentation, and image denoising, providing an all-encompassing strategy for early and precise detection. A careful evaluation of the denoising filters’ effectiveness on 300 mp-Magnetic Resonance Imaging images focuses on preserving key structural features. Notably, anisotropic and Non-Local Means filters are shown to be the best options for reducing noise while maintaining image quality. The quality of diagnostic images is improved as a result of the standardization of denoising techniques in medical imaging. A remarkable 7.8% improvement in accuracy is achieved by the study’s integration of Particle Swarm Optimization (PSO) into the segmentation process. The ability of PSO-based segmentation algorithms to manage a variety of data sources and medical imaging modalities effectively is highlighted by the flexibility and robustness of these algorithms. The study uses support vector machine, multilayer perceptron, and linear discriminant analysis machine learning algorithms to accurately classify benign and malignant prostate cancer cases. A thorough evaluation framework that includes a variety of assessment metrics, including the Peak Signal Noise Ratio, Structural Similarity Index, Feature Similarity Index, Mean Opinion Score, and a Final Score, guarantees a thorough examination of the performance of the suggested method.
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ISSN:2661-8907
2662-995X
2661-8907
DOI:10.1007/s42979-024-02745-0