View clinical trials related to Capsule Endoscopes.
Filter by:The investigators developed a wearable magnet tracking system, which provided a non-invasive and high accuracy method for capsule endoscopes localization. Data fusion from multiple sensors expanded positioning range and proposed localization algorithm overcame shortcomings of existing systems. This clinical trial was conducted to verify effectiveness and stability of the tracking system.
With the development of endoscopy, patients with suspected gastrointestinal tract disease can be evaluated with further management. Upper esophageal tract including esophagus, stomach and duodenum, and colon are easily to be evaluated in daily practice. However, small bowel, located between stomach and colon, is a long tortuous organ about 4-6 meter long and causing difficulty in optical evaluation. Since Prof. Swain and Iddan invented video capsule endoscopy(VCE) from over 20 years ago.[1] VCE is increasingly used in evaluation of small bowel disease across the world.[2, 3] Originally, VCE is composed of one front lens, with flashlight and battery to take images during its passage throughout small bowel. Wireless device were also implanted for transmission of the video signal for further diagnosis.[4] In recent decades, new generation of VCE have better image quality, longer battery life and more frequent images taken. Therefore, VCE is recommended as the first line treatment in obscure gastrointestinal bleeding(OGIB) by multiple societies.[5-7] The efficacy of capsule endoscopy in evaluating patients with OGIB is good, but not perfect. The current diagnostic yield of VCE in patients with OGIB is from 35% to 77%.[8-11] Part of OGIB patients still can't be diagnosed using current conventional capsule endoscopy. The current forward looking lens may cause some difficulties, including inability to visualize the duodenal papilla, blind points missed by capsule endoscopy. In recent years, another type of panoramic side view capsule endoscopy was developed.[12] The CapsoCam Plus (Capsovision) capsule has four cameras allowing the exploration of the small bowel through 360° lateral viewing and makes papilla stably visualized. However, this system does not include a recording system so the capsule endoscope has to be collected by the patient after defecation in order for the film to be downloaded which may be a disadvantage compared with the conventional capsule endoscopy. In previous studies, the diagnostic yield of conventional capsule endoscope and panoramic side view capsule endoscope were comparable while visualization of duodenal papilla is more frequent in using panoramic side view capsule endoscopy. [13-15] However, most studies are done in single arm historical control or randomized controlled study, which may be influenced by the uneven distribution of OGIB patients in both groups. To date only one simultaneous capsule endoscopy study using both capsule endoscope in the same patient is available to data using older version of conventional capsule endoscope and panoramic side view capsule endoscope .[16] The efficiency between two capsule endoscopies were comparable in terms of diagnostic yield and image quality. Therefore, we aimed to conduct this study to evaluate the diagnostic efficiency between two capsule endoscopies. The aim of this study was to evaluate (1) visualization of duodenal papilla (2) diagnostic concordance (kappa value) of the conventional capsule endoscopy (Olmypus endocapsule 10) and panoramic side view (CapsoCam Plus) capsule endoscopy in the same OGIB patient. The clinical experience and satisfaction of both capsule endoscope by the patient and the physicians will be also be assessed.