부산대학교 도서관

Endomicroscopy uses the properties of light to obtain microscopic images of tissue in real-time and provide insights into disease processes. To date, endomicroscopy has primarily been directed against surface/near-surface inflammatory and other conditions, as there is an absence of an integrated technology for directed and automated optical fibre delivery. In this paper, we propose a robotic platform that offers controlled optical imaging in percutaneous interventions. The platform incorporates a concentric tube robot (CTR) to steer a fluorescent imaging probe with cellular and bacterial imaging capability inside soft tissue. Moreover, we develop motion planning algorithms that accept pre-operatively defined regions of interest for imaging and calculate desired insertion configuration and trajectory for reaching the target. Finally, we refine our previous control algorithm to autonomously steer the robot on the pre-planned path toward the target region for endomicroscopic imaging. The platform is tested on phantom tissue with embedded targets. Results demonstrate the feasibility of controlled imaging of target regions at tissue surfaces equal to or bigger than 3 mm and reaching targets inside tissue at a maximum depth of 50 mm. Combining emerging endomicroscopic imaging modalities with continuum robots can enable future research in on-site diagnosis and treatment of infectious diseases.