AI Article Synopsis
- Accurate segmentation of thyroid nodules in ultrasound images is essential for diagnosing thyroid cancer, but it's difficult due to factors like irregular shapes and blurred edges.
- The study introduces an innovative dual-branch network called MRDB, which combines elements from Mamba and ResNet-34 to enhance feature extraction and detail reconstruction in ultrasound images.
- Experimental results show that MRDB significantly outperforms existing methods, achieving a DSC score of 90.02% on the TN3K dataset and improving performance by 10.8% on external datasets, indicating its effectiveness and potential use in clinical settings.
Article Abstract
Accurate segmentation of thyroid nodules in ultrasound images is crucial for the diagnosis of thyroid cancer and preoperative planning. However, the segmentation of thyroid nodules is challenging due to their irregular shape, blurred boundary, and uneven echo texture. To address these challenges, a novel Mamba- and ResNet-based dual-branch network (MRDB) is proposed. Specifically, the visual state space block (VSSB) from Mamba and ResNet-34 are utilized to construct a dual encoder for extracting global semantics and local details, and establishing multi-dimensional feature connections. Meanwhile, an upsampling-convolution strategy is employed in the left decoder focusing on image size and detail reconstruction. A convolution-upsampling strategy is used in the right decoder to emphasize gradual feature refinement and recovery. To facilitate the interaction between local details and global context within the encoder and decoder, cross-skip connection is introduced. Additionally, a novel hybrid loss function is proposed to improve the boundary segmentation performance of thyroid nodules. Experimental results show that MRDB outperforms the state-of-the-art approaches with DSC of 90.02% and 80.6% on two public thyroid nodule datasets, TN3K and TNUI-2021, respectively. Furthermore, experiments on a third external dataset, DDTI, demonstrate that our method improves the DSC by 10.8% compared to baseline and exhibits good generalization to clinical small-scale thyroid nodule datasets. The proposed MRDB can effectively improve thyroid nodule segmentation accuracy and has great potential for clinical applications.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11504408 | PMC |
| http://dx.doi.org/10.3390/bioengineering11101047 | DOI Listing |
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