一种用于MRI引导下腰痛注射的全驱动车载机器人助手。

Gang Li, Niravkumar A Patel, Weiqiang Liu, Di Wu, Karun Sharma, Kevin Cleary, Jan Fritz, Iulian Iordachita
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引用次数: 10

摘要

本文报道了一种用于MRI引导下腰痛注射的全驱动身体安装机器人助手的开发。该机器人设计有一个4自由度的针对齐模块和一个2自由度的远程驱动针驱动器模块。6自由度全驱动机器人可以在成像过程中在扫描仪孔内操作;因此,最大限度地减少了在手术过程中将患者移入或移出扫描仪的需要,从而潜在地减少了手术时间并简化了工作流程。该机器人采用轻型紧凑的结构,可以使用带子直接连接到患者的下背部;从而通过与患者一起移动来减弱患者运动的影响。具有珠链传动的针头驱动器模块的新型远程致动设计可以减轻患者的重量和外形,并最大限度地减少致动电子设备引起的成像退化。使用光学跟踪系统评估了该系统的自由空间定位精度,表明尖端位置的平均绝对误差(MAE)为0.99±0.46 mm,方位为0.99°±0.65°。对一名人类志愿者进行了定性成像质量评估,显示可见图像退化最小,不应影响手术。在人类志愿者身上评估了该系统的安装稳定性,表明目标运动相对于机器人框架的3D位置变化小于0.7mm。
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A Fully Actuated Body-Mounted Robotic Assistant for MRI-Guided Low Back Pain Injection.

This paper reports the development of a fully actuated body-mounted robotic assistant for MRI-guided low back pain injection. The robot is designed with a 4-DOF needle alignment module and a 2-DOF remotely actuated needle driver module. The 6-DOF fully actuated robot can operate inside the scanner bore during imaging; hence, minimizing the need of moving the patient in or out of the scanner during the procedure, and thus potentially reducing the procedure time and streamlining the workflow. The robot is built with a lightweight and compact structure that can be attached directly to the patient's lower back using straps; therefore, attenuating the effect of patient motion by moving with the patient. The novel remote actuation design of the needle driver module with beaded chain transmission can reduce the weight and profile on the patient, as well as minimize the imaging degradation caused by the actuation electronics. The free space positioning accuracy of the system was evaluated with an optical tracking system, demonstrating the mean absolute errors (MAE) of the tip position to be 0.99±0.46 mm and orientation to be 0.99±0.65°. Qualitative imaging quality evaluation was performed on a human volunteer, revealing minimal visible image degradation that should not affect the procedure. The mounting stability of the system was assessed on a human volunteer, indicating the 3D position variation of target movement with respect to the robot frame to be less than 0.7 mm.

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