Sewing up the Wounds: A Robotic Suturing System for Flexible Endoscopy

If a perforation occurs as a result of a flexible endoscopic procedure, urgent laparoscopy or open surgery may be required to repair the perforation, because suturing is normally stronger than closure using existing endo-scopic devices. Suturing with stitches and knots, widely adopted in open or laparoscopic surgery, is still not possible in flexible endoscopy. This is due to the confined space of the natural orifice and target area, the high levels of motion dexterity and force needed for stitching and knot tying, and the critical size and strength requirements of wound closure. We present a novel flexible endoscopic robotic suturing system that can suture gastrointestinal defects without opening up the patient's body as in open or laparo scopic surgery. This system features a robotic needle driver and a robotic grasper, both of which are flexible, small enough for through-the-scope delivery, and dexterous with five degrees of freedom (DoF). The needle driver, facilitated by the grasper, enables the surgeon to control a needle through teleoperation and so make stitches and knots in flexible endoscopy. Successful in vivo trials were conducted in the rectum of a live pig to confirm the feasibility of endoscopic suturing and knot tying using the system in a realistic surgical scenario (not possible with existing devices, which are all manually driven) . This new technology will change the way surgeons close gastro intestinal defects.

[1]  G. Raju,et al.  Endoluminal clip closure of a circular full-thickness colon resection in a porcine model (with videos). , 2007, Gastrointestinal endoscopy.

[2]  Philip Wai Yan Chiu,et al.  Application of robotics in gastrointestinal endoscopy: A review. , 2016, World journal of gastroenterology.

[3]  Lin Cao,et al.  A Novel Robotic Suturing System for Flexible Endoscopic Surgery , 2019, 2019 International Conference on Robotics and Automation (ICRA).

[4]  Xiaoguo Li,et al.  Deep learning for haptic feedback of flexible endoscopic robot without prior knowledge on sheath configuration , 2019, International Journal of Mechanical Sciences.

[5]  S. Tjin,et al.  Force Sensing With 1 mm Fiber Bragg Gratings for Flexible Endoscopic Surgical Robots , 2020, IEEE/ASME Transactions on Mechatronics.

[6]  S. Kantsevoy,et al.  Endoscopic Suturing, an Essential Enabling Technology for New NOTES Interventions. , 2016, Gastrointestinal endoscopy clinics of North America.

[7]  Lin Cao,et al.  Pneumatically Actuated Deployable Tissue Distension Device for NOTES for Colon , 2019, 2019 International Conference on Robotics and Automation (ICRA).

[8]  Candice Y. Lee,et al.  Comparison of Automated Titanium Fasteners to Hand-Tied Knots in Open Aortic Valve Replacement , 2018, Innovations.

[9]  W. Barendregt,et al.  Colonoscopic perforations: a review of 30,366 patients , 2007, Surgical Endoscopy.

[10]  Zhilin Xu,et al.  Distal End Force Sensing with Optical Fiber Bragg Gratings for Tendon-Sheath Mechanisms in Flexible Endoscopic Robots , 2018, 2018 IEEE International Conference on Robotics and Automation (ICRA).

[11]  Lin Cao,et al.  An Integrated Sensor-Model Approach for Haptic Feedback of Flexible Endoscopic Robots , 2019, Annals of Biomedical Engineering.

[12]  Peter Kazanzides,et al.  Force-Controlled Exploration for Updating Virtual Fixture Geometry in Model-Mediated Telemanipulation , 2017 .

[13]  Robert Kleinert,et al.  Successful closure of a gastropulmonary fistula after esophagectomy using the Apollo Overstitch and endoscopic vacuum therapy , 2018, Endoscopy.

[14]  A. Amiot,et al.  2017 WSES guidelines for the management of iatrogenic colonoscopy perforation , 2018, World Journal of Emergency Surgery.

[15]  D. Teel,et al.  Human tissue thickness measurements from excised sleeve gastrectomy specimens , 2014, Surgical Endoscopy.

[16]  Lin Cao,et al.  Distal-end force prediction of tendon-sheath mechanisms for flexible endoscopic surgical robots using deep learning , 2019, Mechanism and Machine Theory.

[17]  Alberto Arezzo,et al.  Endoscopic closure of gastric access in perspective NOTES: an update on techniques and technologies , 2010, Surgical Endoscopy.

[18]  Enrico Opocher,et al.  Performance of the over-the-scope clip system in the endoscopic closure of iatrogenic gastrointestinal perforations and post-surgical leaks and fistulas. , 2018, Minerva gastroenterologica e dietologica.

[19]  Nabil Simaan,et al.  Minimal visual occlusion redundancy resolution of continuum robots in confined spaces , 2017, 2017 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS).

[20]  K. Caca,et al.  Endoscopic full-thickness resection: Current status. , 2015, World journal of gastroenterology.

[21]  Per-Ola Park,et al.  Endoscopic suturing. , 2004, Best practice & research. Clinical gastroenterology.