Semi-automatic robotic puncture system based on deformable soft tissue point cloud registration.

IF 2.3 3区 医学 Q3 ENGINEERING, BIOMEDICAL
Bo Zhang, Kui Chen, Yuhang Yao, Bo Wu, Qiang Li, Zheming Zhang, Peihua Fan, Wei Wang, Manxia Lin, Masakatsu G Fujie
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引用次数: 0

Abstract

Purpose: Traditional surgical puncture robot systems based on computed tomography (CT) and infrared camera guidance have natural disadvantages for puncture of deformable soft tissues such as the liver. Liver movement and deformation caused by breathing are difficult to accurately assess and compensate by current technical solutions. We propose a semi-automatic robotic puncture system based on real-time ultrasound images to solve this problem.

Method: Real-time ultrasound images and their spatial position information can be obtained by robot in this system. By recognizing target tissue in these ultrasound images and using reconstruction algorithm, 3D real-time ultrasound tissue point cloud can be constructed. Point cloud of the target tissue in the CT image can be obtained by using developed software. Through the point cloud registration method based on feature points, two point clouds above are registered. The puncture target will be automatically positioned, then robot quickly carries the puncture guide mechanism to the puncture site and guides the puncture. It takes about just tens of seconds from the start of image acquisition to completion of needle insertion. Patient can be controlled by a ventilator to temporarily stop breathing, and patient's breathing state does not need to be the same as taking CT scan.

Results: The average operation time of 24 phantom experiments is 64.5 s, and the average error between the needle tip and the target point after puncture is 0.8 mm. Two animal puncture surgeries were performed, and the results indicated that the puncture errors of these two experiments are 1.76 mm and 1.81 mm, respectively.

Conclusion: Robot system can effectively carry out and implement liver tissue puncture surgery, and the success rate of phantom experiments and experiments is 100%. It also shows that the puncture robot system has high puncture accuracy, short operation time, and great clinical value.

基于可变形软组织点云注册的半自动机器人穿刺系统。
目的:基于计算机断层扫描(CT)和红外摄像引导的传统手术穿刺机器人系统在穿刺肝脏等易变形软组织时存在天然缺陷。目前的技术解决方案难以准确评估和补偿由呼吸引起的肝脏移动和变形。我们提出了一种基于实时超声图像的半自动机器人穿刺系统来解决这一问题:方法:在该系统中,机器人可获取实时超声图像及其空间位置信息。方法:本系统中机器人可获取实时超声图像及其空间位置信息,通过识别这些超声图像中的靶组织并使用重建算法,可构建三维实时超声组织点云。使用开发的软件可获得 CT 图像中靶组织的点云。通过基于特征点的点云注册方法,将上述两个点云进行注册。穿刺目标将被自动定位,然后机器人将穿刺导向机构快速运至穿刺部位并引导穿刺。从开始采集图像到完成穿刺,只需几十秒。病人可以通过呼吸机控制暂时停止呼吸,病人的呼吸状态不需要与 CT 扫描时相同:结果:24 个模型实验的平均操作时间为 64.5 秒,穿刺后针尖与目标点之间的平均误差为 0.8 毫米。进行了两次动物穿刺手术,结果表明这两次实验的穿刺误差分别为 1.76 毫米和 1.81 毫米:机器人系统可以有效地开展和实施肝组织穿刺手术,模型实验和实验成功率均为 100%。这也表明穿刺机器人系统具有穿刺精度高、手术时间短、临床价值大等特点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Computer Assisted Radiology and Surgery
International Journal of Computer Assisted Radiology and Surgery ENGINEERING, BIOMEDICAL-RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
CiteScore
5.90
自引率
6.70%
发文量
243
审稿时长
6-12 weeks
期刊介绍: The International Journal for Computer Assisted Radiology and Surgery (IJCARS) is a peer-reviewed journal that provides a platform for closing the gap between medical and technical disciplines, and encourages interdisciplinary research and development activities in an international environment.
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