Author:
Takamatsu Toshihiro,Endo Yuto,Fukushima Ryodai,Yasue Tatsuki,Shinmura Kensuke,Ikematsu Hiroaki,Takemura Hiroshi
Abstract
AbstractThe insertion of conventional colonoscopes can sometimes cause patients to experience pain during the procedure owing to the stretching of the mesentery. In this study, a prototype of a robotic colonoscope with a double-balloon and double-bend tube based on the conventional double-balloon endoscope was developed to simplify insertion and prevent the overstretching of the colon. Both the outer and inner tubes were confirmed to be free from interference from wires and sheaths. Additionally, all functions such as tip bending, inflation and deflation of the balloons, and actuator-driven pulling and pushing of the inner tube were operated properly. During the insertion test, the device could be reached the cecum of a colon model in approximately 442 s when operated by a non-medical operator. In addition, the device did not overstretch the colon model, thereby suggesting that the insertion mechanism can follow the shape of the colon model. As a result, the developed mechanism has the potential to navigate through a highly-bent colon without overstretching.
Funder
Japan Society for the Promotion of Science
National Cancer Center Research and Development Fund
Publisher
Springer Science and Business Media LLC