An Endovascular Catheterization Robotic System Using Collaborative Operation with Magnetically Controlled Haptic Force Feedback

• Main Authors: Guo, S. (Author), Jin, X. (Author), Kawanishi, M. (Author), Li, X. (Author), Shi, P. (Author)
• Format: Article
• Language: English
• Published: MDPI 2022
• Subjects: collaborative operation; Collaborative operations; Diagnosis; Endovascular; Endovascular catheterization robotic system; endovascular catheterization robotic system (ECRS); Feedback; Force-feedback; Haptic feedbacks; Haptic force; In-vitro; Magnetically controled haptic force feedback; magnetically controlled haptic (MCH) force feedback; robot-assisted surgery; Robot-assisted surgery; Robotic surgery; Robotic systems; Robotics; Surgical equipment
• Online Access: View Fulltext in Publisher

 Robot-assisted technology is often used to perform endovascular catheterization surgeries, which generally depend on the flexible operability and the accurate force feedback of a robotic system. In this paper, an endovascular catheterization robotic system (ECRS) was developed to improve collaborative operation and haptic force feedback. A couple of operating handles were designed to maximize the use of the natural operations of surgeons on the master side, which is a flexible and ergonomic device. A magnetically controlled haptic force feedback structure is proposed based on hydrogel and solid magnetorheological (MR) fluid to offer a sense of haptic feedback to operators; this has potential influence on the field of force feedback. In addition, a unique tremor-reduction structure is introduced to enhance operating safety. Tracking performance experiments and in vitro experiments were conducted to evaluate the performance of the developed ECRS. According to these experimental results, the average translation-tracking error is 0.94 mm, and the average error of rotation is 0.89 degrees. Moreover, in vitro experiments demonstrated that haptic feedback has the advantage of reducing workload and shortening surgery completion time. The developed ECRS also has the benefits of inspiring other researchers to study collaborative robots and magnetically controlled feedback. © 2022 by the authors. Licensee MDPI, Basel, Switzerland.