Computer-aided Visualization of Colonoscopy

Abstract

Colonoscopy is the most widely used medical technique to examine the human large intestine (colon) and eliminate precancerous or malignant lesions, i.e., polyps. It uses a high-definition camera to examine the inner surface of the colon. Very often, a portion of the colon surface is not visualized during the procedure. Unsurveyed portions of the colon can harbor polyps that then progress to colorectal cancer. Unfortunately, it is hard for the endoscopist to realize there is unsurveyed surface from the video as it is formed. A system to alert endoscopists to missed surface area could thus more fully protect patients from colorectal cancer following colonoscopy. In this dissertation computer-aided visualization techniques were developed in order to solve this problem:1. A novel Simultaneous Localization and Mapping (SLAM) algorithm called RNNSLAM was proposed to address the difficulties of applying a traditional SLAM system on colonic images. I improved a standard SLAM system with a previously proposed Recurrent Neural Network for Depth and Pose Estimation (RNN-DP). The combination of SLAM’s optimization mechanism and RNN-DP’s prior knowledge achieved state-of-the-art performance on colonoscopy, especially addressing the drift problem in both SLAM and RNN-DP. A fusion module was added to this system to generate a dense 3D surface.2. I conducted exploration research on recognizing colonic places that have been visited based on video frames. This technique called image relocalization or retrieval is needed for helping the endoscopist to fully survey the previously unsurveyed regions. A benchmark testing dataset was created for colon image retrieval. Deep neural networks were successfully trained using Structure from Motion results on colonoscopy and achieved promising results.3. To visualize highly-curved portions of a colon or the whole colon, a generalized cylinder deformation algorithm was proposed to semi-flatten the geometry of the colon model for more succinct and global visualization.Doctor of Philosoph