Cancer Detection Using a New Hybrid Method Based on Pattern Recognition in MicroRNAs Combining Particle Swarm Optimization Algorithm and Artificial Neural Network

• Published in: Big data and cognitive computing Vol. 8; no. 3; p. 33
• Main Authors: Molaei, Sepideh, Cirillo, Stefano, Solimando, Giandomenico
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.03.2024
• Subjects: Accuracy; Algorithms; Analysis; Artificial intelligence; Artificial neural networks; Biomarkers; Cancer; cancer diagnosis; Classification; Cost analysis; Datasets; Diagnosis; Efficiency; Feature selection; Gene expression; Genetic markers; Lung cancer; Machine learning; Melanoma; Methods; MicroRNA; MicroRNAs; neural network; Neural networks; Oncology, Experimental; Optimization; Particle swarm optimization; particle swarm optimization algorithm; Pattern recognition; Redundancy; Sensors; Support vector machines
• ISSN: 2504-2289; 2504-2289
• DOI: 10.3390/bdcc8030033

MicroRNAs (miRNAs) play a crucial role in cancer development, but not all miRNAs are equally significant in cancer detection. Traditional methods face challenges in effectively identifying cancer-associated miRNAs due to data complexity and volume. This study introduces a novel, feature-based technique for detecting attributes related to cancer-affecting microRNAs. It aims to enhance cancer diagnosis accuracy by identifying the most relevant miRNAs for various cancer types using a hybrid approach. In particular, we used a combination of particle swarm optimization (PSO) and artificial neural networks (ANNs) for this purpose. PSO was employed for feature selection, focusing on identifying the most informative miRNAs, while ANNs were used for recognizing patterns within the miRNA data. This hybrid method aims to overcome limitations in traditional miRNA analysis by reducing data redundancy and focusing on key genetic markers. The application of this method showed a significant improvement in the detection accuracy for various cancers, including breast and lung cancer and melanoma. Our approach demonstrated a higher precision in identifying relevant miRNAs compared to existing methods, as evidenced by the analysis of different datasets. The study concludes that the integration of PSO and ANNs provides a more efficient, cost-effective, and accurate method for cancer detection via miRNA analysis. This method can serve as a supplementary tool for cancer diagnosis and potentially aid in developing personalized cancer treatments.