Brain Tumor Detection and Classification Using Fine-Tuned CNN with ResNet50 and U-Net Model: A Study on TCGA-LGG and TCIA Dataset for MRI Applications.
Abdullah A AsiriAhmad ShafTariq AliMuhammad AamirMuhammad IrfanSaeed AlqahtaniKhlood M MehdarHanan Talal HalawaniAli H AlghamdiAbdullah Fahad A AlshamraniSamar M AlqhtaniPublished in: Life (Basel, Switzerland) (2023)
Nowadays, brain tumors have become a leading cause of mortality worldwide. The brain cells in the tumor grow abnormally and badly affect the surrounding brain cells. These cells could be either cancerous or non-cancerous types, and their symptoms can vary depending on their location, size, and type. Due to its complex and varying structure, detecting and classifying the brain tumor accurately at the initial stages to avoid maximum death loss is challenging. This research proposes an improved fine-tuned model based on CNN with ResNet50 and U-Net to solve this problem. This model works on the publicly available dataset known as TCGA-LGG and TCIA. The dataset consists of 120 patients. The proposed CNN and fine-tuned ResNet50 model are used to detect and classify the tumor or no-tumor images. Furthermore, the U-Net model is integrated for the segmentation of the tumor regions correctly. The model performance evaluation metrics are accuracy, intersection over union, dice similarity coefficient, and similarity index. The results from fine-tuned ResNet50 model are IoU: 0.91, DSC: 0.95, SI: 0.95. In contrast, U-Net with ResNet50 outperforms all other models and correctly classified and segmented the tumor region.
Keyphrases
- induced apoptosis
- convolutional neural network
- air pollution
- type diabetes
- magnetic resonance
- magnetic resonance imaging
- machine learning
- cardiovascular disease
- signaling pathway
- cell cycle arrest
- oxidative stress
- computed tomography
- cardiovascular events
- cell death
- brain injury
- endoplasmic reticulum stress
- cell proliferation
- diffusion weighted imaging
- patient reported