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MorphGI: A Self-Propelling Soft Robotic Endoscope Through Morphing Shape

Julius E. Bernth, Guokai Zhang, Dionysios Malas, George Abrahams, Bu Hayee, Hongbin Liu

2024Soft Robotics14 citationsDOIOpen Access PDF

Abstract

Colonoscopy is currently the best method for detecting bowel cancer, but fundamental design and construction have not changed significantly in decades. Conventional colonoscope (CC) is difficult to maneuver and can lead to pain with a risk of damaging the bowel due to its rigidity. We present the MorphGI, a robotic endoscope system that is self-propelling and made of soft material, thus easy to operate and inherently safe to patient. After verifying kinematic control of the distal bending segment, the system was evaluated in: a benchtop colon simulator, using multiple colon configurations; a colon simulator with force sensors; and surgically removed pig colon tissue. In the colon simulator, the MorphGI completed a colonoscopy in an average of 10.84 min. The MorphGI showed an average of 77% and 62% reduction in peak forces compared to a CC in high- and low-stiffness modes, respectively. Self-propulsion was demonstrated in the excised tissue test but not in the live pig test, due to anatomical differences between pig and human colons. This work demonstrates the core features of MorphGI.

Topics & Concepts

EndoscopeMorphingSoft roboticsColonoscopyKinematicsBiomedical engineeringComputer scienceSoft tissueSimulationColorectal cancerBiomechanicsRobotArtificial intelligenceSurgeryMedicinePhysicsAnatomyCancerInternal medicineClassical mechanicsSoft Robotics and ApplicationsGastrointestinal Bleeding Diagnosis and TreatmentRobotics and Sensor-Based Localization
MorphGI: A Self-Propelling Soft Robotic Endoscope Through Morphing Shape | Litcius