Colonoscopy is the gold standard for colorectal screening. The diagnostic accuracy of colonoscopy highly depends on the quality of inspection of the colon during the procedure. To increase detection new polyp detection systems based on artificial intelligence (AI) have been developed. However, these systems still depend on the ability of the endoscopist to adequately visualize the complete colonic mucosa, especially to detect smaller and more subtle lesions, or lesions hidden behind folds in the colon. With this study we want to combine a device to flatten the folds in the colon combined with an artificial intelligence system to further improve the detection rate of lesions during colonoscopy.
Rationale: Colonoscopy is the gold standard for CRC screening. The adenoma detection rate (ADR) is the most important quality parameter for colonoscopy, because of its inverse association with the risk of interval CRC. Yet, the adenoma miss rate (AMR) in conventional colonoscopy is reported in meta-analyses to vary between 22-26%. The diagnostic accuracy of colonoscopy highly depends on the quality of inspection of the colonic mucosa during the procedure. To increase the adenoma detection rate (ADR), new polyp/adenoma detection systems based on artificial intelligence (AI) have been developed, i.e., computer assisted detection (CADe). However, these systems still depend on the ability of the endoscopist to adequately visualize the complete colonic mucosa, especially to detect smaller and more subtle lesions. Therefore, we hypothesize that ADR can further be improved by combining a CADe system, the Discovery system, with a behind the fold (BTF) visualization technique, the G-Eye. Study design: International multicenter prospective interventional cohort, compared with a cohort from the Discovery II study (NL73127.091.20, trial code NL9135). All subjects will be undergoing colonoscopy with a combined BFT and CADe assisted approach. Outcomes will be corrected for confounders using regression modeling. Study population: 194 Adult patients (\>18 years) from 3 hospitals, scheduled for diagnostic, screening (non-iFOBT based), or surveillance colonoscopy. Exclusion criteria: inflammatory bowel disease (IBD), known polyp or tumor upon referral, therapeutic procedure (e.g. endoscopic mucosal resection), prior surgical resection of any portion of the colon, American Society of Anesthesiologists score of ≥3, Inadequately corrected anticoagulation disorders or anticoagulation medication use, inability to provide informed consent. Main study endpoints: The primary objective of the present study is to compare ADR between CADe assisted and a combined BTF/CADe assisted colonoscopy. Secondary objectives include advanced neoplasia rate (including advanced adenomas and/or CRC), polyp detection rate, size and histopathology, mean number of polyps per patient, procedure times, bowel cleaning levels, adverse events, inter-operator variability. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: Eligible patients who are scheduled for surveillance colonoscopy will undergo one BFT and CADe assisted colonoscopy. There will be no burden for participants regarding the colonoscopy procedure. Colonoscopy is a commonly performed procedure, and the overall serious adverse event rate is low with an estimated risk 2.8 per 1000 colonoscopies. The risk of experiencing a (serious) adverse event with G-Eye and Discovery guided colonoscopy is believed to be equivalent to conventional colonoscopy. The benefit for patients is a higher likelihood of lesion detection during colonoscopy.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
196
All participants will be subjected to a colonoscopy procedure, assisted by both G-eye balloon and the Discovery CADe system. Standard of care regarding the colonoscopy procedure will be applied to all study subjects. Any lesions detected during the procedure will be removed directly
Radboud university medical center Nijmegen
Nijmegen, Gelderland, Netherlands
Adenoma Detection Rate (ADR)
Calculated as the number of patients in whom at least one adenoma is detected during the colonoscopy procedure, divided by the total number of patients that underwent the colonoscopy procedure.
Time frame: 30 days after procedure
Advanced adenoma detection rate (AADR).
calculated as the number of patients in whom at least one advanced adenoma is detected during the colonoscopy procedure, divided by the total number of patients that underwent the colonoscopy procedure
Time frame: 30 days after procedure
Polyp Detection Rate
calculated as the number of patients in whom at least one polyp is detected during the colonoscopy procedure, divided by the total number of patients that underwent the colonoscopy procedure
Time frame: 30 days after procedure
Sessile detection Rate
calculated as the number of patients in whom at least one SSL is detected during the colonoscopy procedure, divided by the total number of patients that underwent the colonoscopy procedure
Time frame: 30 days after procedure
Indication specific ADR,
ADR specific for screening, diagnostic, or surveillance
Time frame: 30 days after procedure
Mean number of adenomas detected per patient
Mean number of adenomas detected per patient
Time frame: 30 days after procedure
Mean number of polyps detected per patient
Mean number of polyps detected per patient
Time frame: 30 days after procedure
Number of sessile serrated lesions
Number of sessile serrated lesions
Time frame: 30 days after procedure
Number of advanced adenomas (adenomas ≥ 10 mm and/or with a villous component and/or with HGD
Number of advanced adenomas (adenomas ≥ 10 mm and/or with a villous component and/or with HGD
Time frame: 30 days after procedure
Size of the lesion subdivided in categories 0-5 mm, 6-10 mm, 10-20 mm, >20 mm
Size of the lesion subdivided in categories 0-5 mm, 6-10 mm, 10-20 mm, \>20 mm
Time frame: During procedure
Location of the lesion: cecum, ascending colon, transverse colon, descending colon, sigmoid, rectum;
Location of the lesion: cecum, ascending colon, transverse colon, descending colon, sigmoid, rectum;
Time frame: During procedure
Morphological characteristics of the lesion using the Paris classification (Ip, Is, IIa, IIb, IIc, III)
Morphological characteristics of the lesion using the Paris classification (Ip, Is, IIa, IIb, IIc, III)
Time frame: During procedure
Histopathological characteristics of the lesion according to the Vienna classification
Histopathological characteristics of the lesion according to the Vienna classification
Time frame: 30 days after procedure
ADR of the first 20% of patients that have undergone colonoscopy by each endoscopist will be compared with the final 20% of patients in each arm to identify any changes in ADR throughout the trial
ADR of the first 20% of patients that have undergone colonoscopy by each endoscopist will be compared with the final 20% of patients in each arm to identify any changes in ADR throughout the trial
Time frame: At end of study
Bowel cleansing
Using the Boston Bowel Prep Scale
Time frame: During procedure
Cecal intubation rate (CIR)
Cecal intubation rate (CIR)
Time frame: During procedure
Procedure times with both techniques (i.e., total procedure time, mean polypectomy time and withdrawal time)
Procedure times with both techniques (i.e., total procedure time, mean polypectomy time and withdrawal time)
Time frame: During procedure
Severe) adverse events (S)AEs up to 30 days post-procedure
SAEs will be subcategorized into colonoscopy related, cardiac (cardiac ischemia, heart failure, arrhythmia, other) pulmonary (exacerbation COPD, infectious, other), neurological (stroke, cerebrovascular accident, bleeding, other), and other (surgical interventions etc.)
Time frame: 30 days after procedure
Gloucester Comfort Scale score and analgesia use
Gloucester Comfort Scale score and analgesia use
Time frame: During procedure
Post-colonoscopy surveillance intervals when applying European and US surveillance guidelines
Post-colonoscopy surveillance intervals when applying European and US surveillance guidelines
Time frame: 30 days after procedure
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