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NCT04666194
Complete polypectomy is one of the major factors for effectiveness of colonoscopy to prevent colon cancer. Given the prevalence of the 4-6 mm polyp, and the concern about interval cancers at polypectomy sites, there is a clear and significant need to determine which technique(s) are most appropriate for clinical practice. This study was to compare the three commonly used polypectomy techniques in terms of efficacy and efficiency.
NCT02665741
The goal of this study is to compare two FDA approved distal colonoscope attachment devices, in order to identify which device can increase adenoma detection rate the most without increasing procedure time or risk.
NCT02332772
With this study, the investigators plan to review the performance of colonoscopic resection of large (\> 1 cm) and flat lesions in the colon. The findings will help us define the role of colonoscopic resection of colon polyps and flat lesions and identity areas for improvement. The data will be used for continuing quality improvement and presenting our outcomes at academic meetings and publishing our results in peer reviewed journals.
NCT02516748
Accurate optical diagnosis of colorectal polyps could allow a "resect and discard" strategy with surveillance intervals determined based on the results of the optical biopsy. The investigators perform education to characterize the histology of diminutive and small colorectal polyps by using narrow band imaging (NBI). After education program, the investigators prospectively evaluate real-time optical biopsy analysis of polyps with NBI by 15 gastroenterologists at a medical check up center.
NCT02156557
We are studying new ways to look for abnormal areas/tissues of the colon during a colonoscopy. The current scopes used for colonoscopies are very good. But if the area doesn't look different to the naked eye, then the scope can't improve on that. We are using special stains or dyes and special scopes to see abnormal areas that are hard to see with the naked eye. The stain or dye is "fluorescent", meaning it glows when special light is used in the colonoscopy scope. You are being asked to let us spray a peptide with a fluorescent tag onto your colon. Peptides are small chains of amino acids (the building blocks that make up proteins) linked together. The peptide we use has 7 amino acids attached to a fluorescent tag ("FIT C" or Fluoresceinisothiocyanate). FITC is used by eye doctors to examine your eyes (the yellow eye drops). We are testing this "fluorescent peptide" to see if it will stick if there are any abnormal areas. If the peptide "sticks", it will "glow" when a special light in the scope is used. In this study, we will apply the fluorescent peptide to your colon by using a spray tube that fits in the colonoscope. This is a phase IB study. This means that although we have applied the peptide to 25 people in our first research study, we still need to learn more about "fluorescent peptide" in people. The Food and Drug Administration (FDA) has not approved this agent, but is allowing us to test it in this study. The main goal of this study is to see if the peptide "glows" well and if we can take pictures of areas that do glow. This is a research study of the peptide and our ability to see it "glow or fluoresce". Being in this study and applying the peptide won't change how our biopsies are taken or how your colonoscopy is done.
NCT01384240
The overall objective of this study is to obtain data to evaluate whether high-resolution imaging of the colon can assist clinicians in detecting dysplastic (precancerous) and neoplastic areas. This is a pilot study of a novel technology, a miniaturized microscope device which can be used during standard endoscopy to image the gastrointestinal epithelium. Theoretically, by visualizing superficial mucosal changes at a high-resolution and magnification, the investigators will be able to obtain optical images that can be used to guide endoscopic biopsy and polypectomy. This may foster the selective targeting of dysplasia/neoplasia, thereby improving diagnostic accuracy.
NCT02325635
Randomized prospective multi-site validation study.
NCT01354873
The investigators seek to compare the accuracy of the existing colonoscope model to determine the magnitude of the improvement the investigators can expect in polyp discrimination as neoplastic or non-neoplastic.
NCT00825292
Colon cancer is the third most common cancer in western society. To prevent colon cancer it is recommended for people to undergo a screening colonoscopy at the age of fifty. The purpose of the colonoscopy is to remove polyps, since some of these lesions are precancerous. Precancerous polyps are called adenomas. This method of prevention is effective, but the standard colonoscopy currently used does not detect all polyps. Studies have reported a polyp miss rate of about 24%. Furthermore, we are unable to distinguish precancerous polyps from benign polyps, also known as hyperplastic polyps, with standard colonoscopy. This results in all polyps being removed at time of colonoscopy, even the benign polyps. To help improve the detection of colon polyps new endoscopic technologies have been developed. These technologies include high definition white light (HDWL)and high definition narrow band imaging (HDNBI). HDWL improves the overall resolution of the images seen during colonoscopy. HDNBI can help us better classify polyps by enhancing their tissue appearance as well as seeing small blood vessels and capillaries. The goal of this study to determine if HDNBI imaging shows an increased polyp detection rate when compared to the current standard colonoscopy. In addition to develop a classification system to help better differentiate between precancerous polyps and their benign counterparts using HDWL and HDNBI.