Litcius/Paper detail

Design and Validation of a Nonparasitic 2R1T Parallel Hand-Held Prostate Biopsy Robot With Remote Center of Motion

Wenhe Jiang, Dongmei Wu, Wei Dong, Jiajun Ding, Zhichao Ye, Pei Zeng, Yongzhuo Gao

2023Journal of Mechanisms and Robotics29 citationsDOI

Abstract

Abstract An increasing number of grounded robots are being used in prostate interventions to improve clinical outcomes, but their large size and high-cost limit their popularity. Thus, we present a hand-held 3-degree-of-freedom (DoF) parallel robot with remote center of motion (RCM) for minimally invasive prostate biopsy applications, combining the flexibility of hand-held devices with the precision of robotic assistance. First, the kinematic structure of robotic assistance is introduced according to its design requirements. Then, the kinematic analysis of robotic assistance is carried out by using a simplified kinematic model. The kinematic parameters are designed according to the desired workspace. A prototype has been developed and validated in animal experiments. Twenty beagles of different sizes were selected for the robot-assisted and controlled experiments, resulting in target errors of 3.30 ± 1.63 mm and 5.40 ± 1.76 mm, respectively. The error of robot-assisted experiments was significantly better than in controlled experiments. Preliminary animal tests have demonstrated that the hand-held robot can improve the accuracy of free-hand biopsy punctures.

Topics & Concepts

KinematicsWorkspaceRobotComputer scienceFlexibility (engineering)Prostate biopsyRobot kinematicsSimulationArtificial intelligenceInverse kinematicsComputer visionMedicineMobile robotMathematicsProstateCancerStatisticsClassical mechanicsInternal medicinePhysicsProstate Cancer Diagnosis and TreatmentAdvanced Radiotherapy TechniquesSurgical Simulation and Training