基于深度学习的仿射医学图像配准用于多模态微创图像引导干预--可推广性比较研究

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Anika Strittmatter, Lothar R. Schad, Frank G. Zöllner
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引用次数: 0

摘要

多模态图像配准适用于医学图像分析,因为它可以整合多种成像模式的互补数据。近年来,已有论文介绍了各种基于神经网络的医学图像配准方法,但由于使用的数据集不同,因此无法进行公平的比较。在这项研究中,采用了 20 种不同的神经网络对医学图像进行仿射配准。使用肝脏三维 CT 和 MR 图像的两个多模态数据集(一个合成数据集和一个真实患者数据集)评估了这些网络的性能和对新数据集的通用性。首先使用合成数据集对网络进行半监督训练,然后在合成数据集和未见患者数据集上进行评估。然后,在患者数据集上对网络进行微调,随后在患者数据集上进行评估。以我们自己开发的 CNN 为基准,以 SimpleElastix 的传统仿射配准为基线,对这些网络进行了比较。六个网络显著提高了合成数据集的预注册 Dice 系数(p 值为 0.05),九个网络显著提高了患者数据集的预注册 Dice 系数,因此能够推广到我们实验中使用的新数据集。针对仿射多模态医学影像配准,已经提出了许多不同的基于机器学习的方法,但很少有方法可以推广到新的数据和应用中。因此,有必要开展进一步的研究,以开发出可更广泛应用的医学图像配准技术。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deep learning-based affine medical image registration for multimodal minimal-invasive image-guided interventions – A comparative study on generalizability

Multimodal image registration is applied in medical image analysis as it allows the integration of complementary data from multiple imaging modalities. In recent years, various neural network-based approaches for medical image registration have been presented in papers, but due to the use of different datasets, a fair comparison is not possible. In this research 20 different neural networks for an affine registration of medical images were implemented. The networks’ performance and the networks’ generalizability to new datasets were evaluated using two multimodal datasets - a synthetic and a real patient dataset - of three-dimensional CT and MR images of the liver. The networks were first trained semi-supervised using the synthetic dataset and then evaluated on the synthetic dataset and the unseen patient dataset. Afterwards, the networks were finetuned on the patient dataset and subsequently evaluated on the patient dataset. The networks were compared using our own developed CNN as benchmark and a conventional affine registration with SimpleElastix as baseline. Six networks improved the pre-registration Dice coefficient of the synthetic dataset significantly (p-value < 0.05) and nine networks improved the pre-registration Dice coefficient of the patient dataset significantly and are therefore able to generalize to the new datasets used in our experiments. Many different machine learning-based methods have been proposed for affine multimodal medical image registration, but few are generalizable to new data and applications. It is therefore necessary to conduct further research in order to develop medical image registration techniques that can be applied more widely.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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