Harnessing the power of ANN for early detection and prediction of oral cancer
Ghada A. Khouqeer, Ranjeet Kumar Pathak, Naglaa AbdelAll, Sandip Kumar Roy, Preeta Sharan, Anup M. Upadhyaya

TL;DR
This study shows that artificial neural networks can accurately detect oral cancer using optical refractive index data, offering a fast and reliable early screening method.
Contribution
The study introduces an optimized ANN model using optical refractive index features for early oral cancer detection with high precision and specificity.
Findings
The optimized ANN model achieved 98.72% precision in identifying cancerous cases.
The model demonstrated 99.00% specificity in correctly identifying non-cancerous cases.
ANN-assisted optical analysis shows potential for efficient and reliable early oral cancer screening.
Abstract
Oral cancer affects millions of people worldwide, and early detection significantly improves treatment outcomes and survival rates. Conventional diagnostic approaches often face challenges related to subjectivity and delayed identification. In this context, artificial intelligence–based tools offer promising opportunities for rapid and reliable early screening. This study investigates the feasibility of using an Artificial Neural Network (ANN) to predict oral cancer risk based on optical refractive index (RI) features. RI data corresponding to reported INOK (normal oral cells) and YD-10B (oral cancer cells) cell lines were employed. To enhance model robustness and assess feasibility, the dataset was synthetically augmented. Multiple ANN architectures and hyperparameter configurations were systematically evaluated to identify the optimal network topology for classification. The…
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Taxonomy
TopicsOral Health Pathology and Treatment · Optical Imaging and Spectroscopy Techniques · Optical Coherence Tomography Applications
