WD‐UNeXt: Weight loss function and dropout U‐Net with ConvNeXt for automatic segmentation of few shot brain gliomas

Abstract: Accurate segmentation of brain gliomas (BG) is a crucial and challenging task for effective treatment planning in BG therapy. This study presents the weight loss function and dropout U‐Net with ConvNeXt block (WD‐UNeXt), which precisely segments BG from few shot MRI. The ConvNeXt block, which comprises the main body of the network, is a structure that can extract more detailed features from images. The weight loss function addresses the issue of category imbalance, thereby enhancing the network's ability to ac… Show more

“…The existing EDD‐Net 55 achieved Sy values of 88% for ET, 89% for WT, and 87% for TC, along with high Sp values. Implemented WD‐UNeXt 56 demonstrated high performance across all metrics. The existing focal cross‐transformer method 57 achieved moderate to high performance.…”

“…This section discusses, the analysis of outcomes accomplished from various simulation experiment for BT segmentation and OSP. The existing methods such as ResUNet+, 53 radiomics based automatic framework (RBAF), 35 DCNN, 54 encoder–decoder method with depthwise atrous spatial pyramid pooling Network (EDD‐Net), 55 Weight loss function and Dropout U‐Net with convNeXt block (WD‐UNeXt), 56 focal cross transformer, 57 Attention‐based Multimodal Glioma Segmentation (AMMGS), 58 Segmentation based on Transformer and U2‐Net (STrans‐U2Net), 59 deep Residual U‐Net (dRes U‐Net), 60 and DenseTransformer (DenseTrans) 61 are compared with the introduced approach based on DSC, Sy, Sp and Hausdorff 95 in Table 6.…”

Brain tumor segmentation and survival time prediction using graph momentum fully convolutional network with modified Elman spike neural network

“…The existing EDD‐Net 55 achieved Sy values of 88% for ET, 89% for WT, and 87% for TC, along with high Sp values. Implemented WD‐UNeXt 56 demonstrated high performance across all metrics. The existing focal cross‐transformer method 57 achieved moderate to high performance.…”

“…This section discusses, the analysis of outcomes accomplished from various simulation experiment for BT segmentation and OSP. The existing methods such as ResUNet+, 53 radiomics based automatic framework (RBAF), 35 DCNN, 54 encoder–decoder method with depthwise atrous spatial pyramid pooling Network (EDD‐Net), 55 Weight loss function and Dropout U‐Net with convNeXt block (WD‐UNeXt), 56 focal cross transformer, 57 Attention‐based Multimodal Glioma Segmentation (AMMGS), 58 Segmentation based on Transformer and U2‐Net (STrans‐U2Net), 59 deep Residual U‐Net (dRes U‐Net), 60 and DenseTransformer (DenseTrans) 61 are compared with the introduced approach based on DSC, Sy, Sp and Hausdorff 95 in Table 6.…”

Brain tumor segmentation and survival time prediction using graph momentum fully convolutional network with modified Elman spike neural network

Comprehensive Review on MRI-Based Brain Tumor Segmentation: A Comparative Study from 2017 Onwards

Efficient SpineUNetX for X-ray: A spine segmentation network based on ConvNeXt and UNet