超声引导下导航肝切除术：朝向深度学习增强的变形和器官运动补偿。

Ultrasound guidance in navigated liver surgery: toward deep-learning enhanced compensation of deformation and organ motion.

机构信息

Department of Surgical Oncology, The Netherlands Cancer Institute-Antoni van Leeuwenhoek, Plesmanlaan 121, 1066CX, Amsterdam, The Netherlands.

Nanobiophysics Group (NBP), Faculty of Science and Technology (TNW), University of Twente, Enschede, The Netherlands.

出版信息

Int J Comput Assist Radiol Surg. 2024 Jan;19(1):1-9. doi: 10.1007/s11548-023-02942-x. Epub 2023 May 30.

DOI:10.1007/s11548-023-02942-x

PMID:37249749

Abstract

PURPOSE

Accuracy of image-guided liver surgery is challenged by deformation of the liver during the procedure. This study aims at improving navigation accuracy by using intraoperative deep learning segmentation and nonrigid registration of hepatic vasculature from ultrasound (US) images to compensate for changes in liver position and deformation.

METHODS

This was a single-center prospective study of patients with liver metastases from any origin. Electromagnetic tracking was used to follow US and liver movement. A preoperative 3D model of the liver, including liver lesions, and hepatic and portal vasculature, was registered with the intraoperative organ position. Hepatic vasculature was segmented using a reduced 3D U-Net and registered to preoperative imaging after initial alignment followed by nonrigid registration. Accuracy was assessed as Euclidean distance between the tumor center imaged in the intraoperative US and the registered preoperative image.

RESULTS

Median target registration error (TRE) after initial alignment was 11.6 mm in 25 procedures and improved to 6.9 mm after nonrigid registration (p = 0.0076). The number of TREs above 10 mm halved from 16 to 8 after nonrigid registration. In 9 cases, registration was performed twice after failure of the first attempt. The first registration cycle was completed in median 11 min (8:00-18:45 min) and a second in 5 min (2:30-10:20 min).

CONCLUSION

This novel registration workflow using automatic vascular detection and nonrigid registration allows to accurately localize liver lesions. Further automation in the workflow is required in initial alignment and classification accuracy.

摘要

目的

术中肝脏变形会影响图像引导肝切除术的准确性。本研究旨在通过术中深度学习对超声（US）图像中的肝血管进行分割和非刚性配准，以补偿肝脏位置和变形的变化，从而提高导航的准确性。

方法

这是一项针对任何来源肝转移的单中心前瞻性研究。电磁跟踪用于跟踪 US 和肝脏的运动。使用术前的 3D 肝脏模型，包括肝脏病变、肝和门静脉血管，将其与术中器官位置进行配准。使用简化的 3D U-Net 对肝血管进行分割，并在初始配准后，对术前图像进行初始对齐，然后进行非刚性配准。通过术中 US 成像的肿瘤中心与术前登记图像之间的欧几里得距离评估准确性。

结果

25 例手术中初始配准后的中位靶区注册误差（TRE）为 11.6mm，经非刚性配准后改善至 6.9mm（p=0.0076）。非刚性配准后，TRE 大于 10mm 的次数从 16 次减少到 8 次。在 9 例中，首次尝试失败后进行了两次配准。第一次配准循环中位时间为 11 分钟（8:00-18:45 分钟），第二次配准中位时间为 5 分钟（2:30-10:20 分钟）。

结论

使用自动血管检测和非刚性配准的新型注册工作流程可准确定位肝脏病变。初始配准和分类准确性方面需要进一步的工作流程自动化。

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超声引导下导航肝切除术：朝向深度学习增强的变形和器官运动补偿。

Ultrasound guidance in navigated liver surgery: toward deep-learning enhanced compensation of deformation and organ motion.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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