Effect of Serrated Polyps & High-grade Dysplasia at Index NCT05355363

Clinical Trial Details — Status: Recruiting

Administrative data
NCT number	NCT05355363
Other study ID #	22.179
Secondary ID
Status	Recruiting
Phase	N/A
First received
Last updated
Start date	February 27, 2023
Est. completion date	September 1, 2024

Study information
Verified date	December 2023
Source	Centre hospitalier de l'Université de Montréal (CHUM)
Contact	Daniel von Renteln, MD, PhD
Phone	514-890-8000
Email	daniel.von.renteln.med[@]ssss.gouv.qc.ca
Is FDA regulated	No
Health authority
Study type	Interventional

Clinical Trial Summary

During colonoscopy, the endoscopist will document colonoscopy indication; BBPS score; withdrawal time; adenoma and polyp detection rate at index and follow-up colonoscopy; completeness of polypectomy; polyp location, size, surface, morphology (Paris classification), histopathology; complications.

Description:

Colorectal cancer (CRC) ranks second among worldwide cancer related deaths and third in terms of cancer incidence. Colonoscopy-based screening programs have been established to reduce CRC morbidity and mortality. Multiple guidelines have established surveillance recommendations for repeat colonoscopies based on findings at index colonoscopy. Serrated lesions (SLs), including sessile serrated polyps/adenomas (SSP) and traditional serrated adenomas (TSA) have become of increased interest for their role as precursors of CRC. The optimal timing of follow-up colonoscopies after detection of SLs has been controversial as studies looking into optimal surveillance timing are lacking. The US Multi Society Task Force (USMSTF) 2020 guidelines recommend 5-10y surveillance intervals for detection of 1-2 SSPs, 3-5y for 3-4 SSPs, 3y for >4 SSPs or TSA. In contrast, the 2020 European Society of Gastrointestinal Endoscopy (ESGE) Guidelines state that 1-10mm SLs do not require follow-up. It is unclear what the appropriate surveillance intervals is for patients with SLs which is evidenced by diverging recommendations from USMSTF/ESGE. High-grade dysplasia (HGD) is an exceedingly rare finding in colorectal polyps. The current literature on the yield of colonoscopy after index HGD is sparse, with conflicting data on risk of metachronous HRA due to low numbers of included HGD leading to high variability in reported outcomes. The primary aim of this study is to determine the rate of metachronous advanced neoplasia (TMAN) detection after index detection of serrated lesions [sessile serrated polyps (SSPs), traditional serrated adenomas (TSAs)], and metachronous high-risk adenoma (HRA) after index detection of high-grade dysplasia (HGD). Patient with SL or HGD diagnosed from 2010-2022 with lack of follow-up will be contacted by phone, then invited to undergo follow-up colonoscopy. Data collected will include patient age; sex; ASA class; past medical history; family history of CRC; procedure date; name of endoscopist; colonoscopy indication; BBPS score; withdrawal time; adenoma and polyp detection rate at index and follow-up colonoscopy; completeness of polypectomy; polyp location, size, surface, morphology (Paris classification), histopathology; complications, immediate and late (14 days). We expect a higher percentage of high-risk lesions in our study group compared to our retrospective findings due to follow-up delays. As there is no published literature on the subject, our assumptions will be relative to our retrospective cohort. Assuming 60% participation in our study (patients deceased, unable to be contacted, received follow-up elsewhere, do not fit inclusion criteria), we expect 362 out of 603 patients to be enrolled in the SL group and 75 out of 124 in the HGD group. Assuming a 35% high-risk lesion (T-MAN) detection in the SL group compared to 22.1% detected retrospectively, we expect to include 127 cases of T-MAN. Assuming a 40% high-risk lesion (metachronous HRA) detection in the HGD group compared to 23.8% detected retrospectively [given the longer surveillance delays for these patients (7y) with 1% already with CRC at 1.8y median follow-up] we expect to include 30 cases of metachronous HRA. To perform univariate regression, we require inclusion of 10 patients with T-MAN in the SL group (minimum sample size: 29) and 10 patients with metachronous HRA in the HGD group (minimum sample size: 25). To perform our multivariate analyses, we require inclusion of 30 patients with T-MAN in the SL group (minimum sample size: 86) and 30 patients with metachronous HRA in the HGD group (minimum sample size: 75). Descriptive analysis with presentation of crude numbers, proportions, or medians with interquartile range will be used to present patient, procedure, and polyp outcomes. The rate of T-MAN in the SL group and metachronous HRA in the HGD group will be reported as proportions with exact 95% confidence intervals (CI). Primary outcomes will be illustrated using Kaplan Meier survival analyses for each group. We will perform COX proportional hazards regression to determine the effects of polyp size, location, and synchronous polyp status (no adenoma, LRA, or HRA) on risk of T-MAN, and effects of polyp size and location on risk of metachronous HRA for the SL and HGD groups respectively. Comparisons will be presented as Hazard ratios (HR) with 95% CI. We will perform multivariate COX regression to determine the effects of confounders on development of T-MAN or metachronous HRA. Our model will be adjusted family history of CRC and smoking status. Further confounders such as age, sex, and aspirin use will be evaluated in sensitivity analyses for possible inclusion in the multivariate analysis. The effect of duration of surveillance delays on risk of T-MAN or metachronous HRA will be evaluated using logistic regression. A two-tailed p<0.05 will be considered statistically significant for all analyses.

Recruitment information / eligibility
Status	Recruiting
Enrollment	730
Est. completion date	September 1, 2024
Est. primary completion date	February 1, 2024
Accepts healthy volunteers	No
Gender	All
Age group	45 Years to 80 Years
Eligibility	Inclusion Criteria: - Patients 45-80 who underwent colonoscopy from 2009 to 2022 at the Montreal University Hospital Center (CHUM) with 1+ SL or HGD detected at index colonoscopy and lacking follow-up within or beyond the surveillance interval recommended by 2020 USMSTF guidelines. Exclusion Criteria: - 1) Patients with a diagnosis of inflammatory bowel disease; - 2) Hereditary CRC syndromes; - 3) CRC at index colonoscopy; - 4) Serrated polyposis syndrome; - 5) Life expectancy too short to benefit from colonoscopy; - 6) Follow-up colonoscopy not yet due according to USMSTF guidelines. Patients with concomitant HRA and SL at index will be invited to participate if the index (or last) colonoscopy was performed more than 1 year ago. This is based on the high rates of HRA we identified in our retrospective study posing increased risks for these patients.

Study Design

Related Conditions & MeSH terms

Intervention

Diagnostic Test:
• Standard Colonoscopy
Standard colonoscopy: All optically diagnosed polyps will be removed and sent to the CHUM pathology laboratory for histopathological evaluation according to institutional standards.

Locations
Country	Name	City	State
Canada	Centre Hospitalier de l'Université de Montréal	Montréal	Quebec

Sponsors *(1)*
Lead Sponsor	Collaborator
Centre hospitalier de l'Université de Montréal (CHUM)

Country where clinical trial is conducted

Canada,

Outcome
Type	Measure	Description	Time frame
Primary	Rate of TMAN detection after index detection of serrated lesions	the rate of total metachronous advanced neoplasia (TMAN) detection after index detection of serrated lesions [sessile serrated polyps (SSPs), traditional serrated adenomas (TSAs)]	1 year
Primary	Rate of metachronous high-risk adenoma (HRA) after index detection of high-grade dysplasia (HGD)	the rate of metachronous high-risk adenoma (HRA) after index detection of high-grade dysplasia (HGD)	1 year
Secondary	Rate of T-MAN detection for concomitant index SSP+low-risk adenoma (LRA); index SSP+ high-risk adenoma (HRA); index SSP alone	The rate of T-MAN detection for concomitant index SSP+low-risk adenoma (LRA); index SSP+ high-risk adenoma (HRA); index SSP alone	1 year
Secondary	Rate of T-MAN detection according to number, size, location, and dysplasia status of index SSPs	The rate of T-MAN detection according to number, size, location, and dysplasia status of index SSPs	1 year
Secondary	Rate of metachronous HRA detection for index HGD alone	The rate of metachronous HRA detection for index HGD alone	1 year
Secondary	Rate of metachronous HRA detection for index HGD according to number, size, location, of index HGD	The rate of metachronous HRA detection for index HGD according to number, size, location, of index HGD	1 year
Secondary	Rate of metachronous high-risk serrated lesion (SL) for concomitant index SSP+LRA; index SSP+HRA; index SSP alone; index SSP all synchronous findings included; index TSA a ll synchronous findings included	The rate of metachronous high-risk serrated lesion (SL) for concomitant index SSP+LRA; index SSP+HRA; index SSP alone; index SSP all synchronous findings included; index TSA all synchronous findings included	1 year
Secondary	Rate of metachronous high-risk SL detection according to number, size, location, and dysplasia status of index SSPs	The rate of metachronous high-risk SL detection according to number, size, location, and dysplasia status of index SSPs	1 year
Secondary	Rate of metachronous HRA for concomitant index SSP+LRA; index SSP+HRA; index SSP alone; index SSP all synchronous findings included; index TSA all synchronous findings included	The rate of metachronous HRA for concomitant index SSP+LRA; index SSP+HRA; index SSP alone; index SSP all synchronous findings included; index TSA all synchronous findings included	1 year
Secondary	Rate of metachronous HRA detection according to number, size, location, and dysplasia status of index SSPs	The rate of metachronous HRA detection according to number, size, location, and dysplasia status of index SSPs	1 year
Secondary	Rate of T-MAN and metachronous HRA detection for the serrated lesion (SL) and HGD groups	The rate of T-MAN and metachronous HRA detection for the serrated lesion (SL) and HGD groups stratified by number of years of surveillance delay	1 year
Secondary	Rate of metachronous advanced SL and metachronous HRA detection for the serrated lesion (SL) group	The rate of metachronous advanced SL and metachronous HRA detection for the serrated lesion (SL) group stratified by number of years of delay at time of endoscopy from surveillance intervals recommended by guidelines	1 year
Secondary	Adenoma detection rates (ADR) and advanced adenoma detection rates at follow-up	Adenoma detection rates (ADR) and advanced adenoma detection rates at follow-up stratified by number of years of delay at time of endoscopy from surveillance intervals recommended by guidelines	1 year

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Effect of Serrated Polyps and High-grade Dysplasia at Index Colonoscopy on Risk of Metachronous High-risk Adenomas

Clinical Trial Details — Status: Recruiting

Administrative data

Study information

Clinical Trial Summary

Description:

Recruitment information / eligibility

Study Design

Related Conditions & MeSH terms

Intervention

Locations

Sponsors (1)

Country where clinical trial is conducted

Outcome