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Literature DB >> 29503760

Semi-Autonomous Electrosurgery for Tumor Resection Using a Multi-Degree of Freedom Electrosurgical Tool and Visual Servoing.

Justin D Opfermann¹, Simon Leonard², Ryan S Decker¹, Nicholas A Uebele², Christopher E Bayne¹, Arjun S Joshi³, Axel Krieger¹.

Abstract

This paper specifies a surgical robot performing semi-autonomous electrosurgery for tumor resection and evaluates its accuracy using a visual servoing paradigm. We describe the design and integration of a novel, multi-degree of freedom electrosurgical tool for the smart tissue autonomous robot (STAR). Standardized line tests are executed to determine ideal cut parameters in three different types of porcine tissue. STAR is then programmed with the ideal cut setting for porcine tissue and compared against expert surgeons using open and laparoscopic techniques in a line cutting task. We conclude with a proof of concept demonstration using STAR to semi-autonomously resect pseudo-tumors in porcine tissue using visual servoing. When tasked to excise tumors with a consistent 4mm margin, STAR can semi-autonomously dissect tissue with an average margin of 3.67 mm and a standard deviation of 0.89mm.

Entities: Chemical Disease Gene Species

Year: 2017 PMID： 29503760 PMCID： PMC5830156 DOI： 10.1109/IROS.2017.8206210

Source DB: PubMed Journal: Rep U S ISSN： 2153-0858

25 in total

1. Robotic assistants aid surgeons during minimally invasive procedures.

Authors: H Kang; J T Wen
Journal: IEEE Eng Med Biol Mag Date: 2001 Jan-Feb

2. Smart tissue anastomosis robot (STAR): a vision-guided robotics system for laparoscopic suturing.

Authors: Simon Leonard; Kyle L Wu; Yonjae Kim; Axel Krieger; Peter C W Kim
Journal: IEEE Trans Biomed Eng Date: 2014-04 Impact factor: 4.538

3. A robot-guided minimally invasive approach for cochlear implant surgery: preliminary results of a temporal bone study.

Authors: Omid Majdani; Thomas S Rau; Stephan Baron; Hubertus Eilers; Claas Baier; Bodo Heimann; Tobias Ortmaier; Sönke Bartling; Thomas Lenarz; Martin Leinung
Journal: Int J Comput Assist Radiol Surg Date: 2009-06-13 Impact factor: 2.924

Semi-Autonomous Electrosurgery for Tumor Resection Using a Multi-Degree of Freedom Electrosurgical Tool and Visual Servoing.

1. Robotic assistants aid surgeons during minimally invasive procedures.

2. Smart tissue anastomosis robot (STAR): a vision-guided robotics system for laparoscopic suturing.

3. A robot-guided minimally invasive approach for cochlear implant surgery: preliminary results of a temporal bone study.

4. Supervised autonomous robotic soft tissue surgery.

5. Permanent dots in radiation therapy.

6. The Probot--an active robot for prostate resection.

7. Path Planning for Semi-automated Simulated Robotic Neurosurgery.

8. The emerging epidemic of melanoma and squamous cell skin cancer.

9. Principles and safety measures of electrosurgery in laparoscopy.

10. Transoral robotic surgery (TORS) for tongue base tumours.

1. Supervised Autonomous Electrosurgery via Biocompatible Near-Infrared Tissue Tracking Techniques.

2. Optical Coherence Tomography-Guided Robotic Ophthalmic Microsurgery via Reinforcement Learning from Demonstration.

3. Sensor-Based Automated Detection of Electrosurgical Cautery States.