Xing Yao, Han Liu, Dewei Hu, Daiwei Lu, Ange Lou, Hao Li, Ruining Deng, Gabriel Arenas, Baris Oguz, Nadav Schwartz, Brett C Byram, Ipek Oguz
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引用次数: 0
Abstract
The Segment Anything Model (SAM) is a recently developed all-range foundation model for image segmentation. It can use sparse manual prompts such as bounding boxes to generate pixel-level segmentation in natural images but struggles in medical images such as low-contrast, noisy ultrasound images. We propose a refined test-phase prompt augmentation technique designed to improve SAM's performance in medical image segmentation. The method couples multi-box prompt augmentation and an aleatoric uncertainty-based false-negative (FN) and false-positive (FP) correction (FNPC) strategy. We evaluate the method on two ultrasound datasets and show improvement in SAM's performance and robustness to inaccurate prompts, without the necessity for further training or tuning. Moreover, we present the Single-Slice-to-Volume (SS2V) method, enabling 3D pixel-level segmentation using only the bounding box annotation from a single 2D slice. Our results allow efficient use of SAM in even noisy, low-contrast medical images. The source code has been released at: https://github.com/MedICL-VU/FNPC-SAM.
任意分割模型(SAM)是最近开发的一种用于图像分割的全范围基础模型。它可以使用稀疏的人工提示(如边界框)来生成自然图像中的像素级分割,但在医疗图像(如低对比度、高噪声的超声图像)中却显得力不从心。我们提出了一种改进的测试阶段提示增强技术,旨在提高 SAM 在医学图像分割中的性能。该方法结合了多箱提示增强和基于不确定性的假阴性(FN)和假阳性(FP)校正(FNPC)策略。我们在两个超声数据集上对该方法进行了评估,结果表明,无需进一步训练或调整,SAM 的性能和对不准确提示的鲁棒性均有所提高。此外,我们还提出了单切片到容积(SS2V)方法,只需使用来自单个二维切片的边界框注释即可实现三维像素级分割。我们的成果使 SAM 即使在噪声大、对比度低的医学图像中也能得到有效利用。源代码已在以下网址发布:https://github.com/MedICL-VU/FNPC-SAM。
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