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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT06220149
Other study ID # FILLIP
Secondary ID
Status Recruiting
Phase
First received
Last updated
Start date May 6, 2024
Est. completion date December 2025

Study information

Verified date May 2024
Source Carol Davila University of Medicine and Pharmacy
Contact n/a
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

Patients with colorectal polyps removed endoscopically (polypectomy, endoscopic mucosal resection, underwater endoscopic mucosal resection, endoscopic submucosal dissection) may experience delayed post polypectomy bleeding. The incidence is about one in 40 cases. There are risks factors for this complication, depending on the polyp type, patient demographics and co-morbidities and polypectomy technique. There are meta-analysis and nomograms for risk prediction available. We will try to predict delayed post polypectomy bleeding by using FIT (fecal immunochemical test), with a cut-off adapted to detect post polypectomy bleeding, administered daily for 2 weeks after polypectomy.


Description:

Why should one be concerned about delayed post polypectomy bleeding (DPPB)? One in 40 patients with polypectomy for large polyps will have it. A large systematic review of 50 studies including 6779 large polyps > 20mm resected by polypectomy, endoscopic mucosal resection (EMR) or endoscopic submucosal dissection (ESD), "en bloc" or in piece-meal have had an DPPB incidence of 2.6% (2.1% - 3.2%) [1]. Cand we generally predict what group of patients are more likely to have DPPB? Jaruvongvanich et al [2] have designed a meta-analysis of 12 studies on 14,313 patients. The pooled DPPB rate was 1.5% (0.7% - 3.4%). Cardiovascular disease (OR = 1.55), hypertension (OR = 1.53), polyp size > 10 mm (OR = 3.41), and polyps located in the right colon (OR = 1.60) were identified as significant DPPB risk factors, whereas age, sex, alcohol use, smoking, diabetes, cerebrovascular disease, pedunculated morphology, and carcinoma histology were not. Huai et al [3] have designed a nomogram for DPPB prediction, based on 6 parameters, with a high AUC of 0.824 in the validation model, as in Figure 1, below. The model states that older men on anticoagulant, with pedunculated polyps on the right side are likely to bleed more often. Age, gender, and pedunculated morphology were included in the model, as risk factors, as opposed to previously mentioned paper [2]. The jury is probably still out for certain risk factors. Yet, at the individual level, what could a patient do? Could a form of active surveillance for DPPB may be proposed? Here's an idea. Fecal Immunochemical Test (FIT). FIT can detect minute quantities of hemoglobin in faces. It is used for colorectal cancer population screening in asymptomatic average risk individuals (eg. 50 to 75 years old) or in primary care in certain groups of symptomatic individuals, without overt rectal bleeding, as an adjunct decision tool for colonoscopy evaluation [5]. A recent meta-analysis on more than 6 million asymptomatic average risk individuals of which more than 2.6 million completed a screening FIT test have found a 5.4% positivity rate, an 85% colonoscopy completion rate, a 47.8% adenoma detection rate, a 25.3% advanced adenoma detection rate and a 5.1% colorectal cancer rate [6]. The fecal hemoglobin (f-Hb) cut-offs are set at 10 or 20 microg/g feces in majority of screening programs, depending on colorectal cancer incidence and the healthcare system's colonoscopy availability [7]. FIT result is usually read in central laboratory by specialized machines with cut-off threshold set by the health policy makers. Mowat et al [8] have used FIT tests differently. They studied the dynamic of FIT values, before and after colonoscopy with polypectomy. They have found that the median pre-polypectomy f-Hb was significantly greater in advanced adenomas as compared to non-advanced adenomas (6.0 vs. 1.0 μg/g feces, p < 0.0001). For patients with both pre and post polypectomy FIT, the dynamic showed a significant decrease for advanced adenomas (19.2 microg/g pre-polypectomy decreasing to 3.5 microg/g post-polypectomy, p=0.01) and remained fairly constant and low for non-advanced adenomas (0.8 microg/g pre-polypectomy to 1.0 microg/g post-polypectomy, p = 0.96). To note that the authors recommended patients that the second FIT test be taken after 3-weeks to allow healing of colorectal resection site, an interval arbitrarily chosen based on experience. This would theoretically avoid false positive elevated quantitative FIT test values due to occult bleeding form the resection site. Maybe we can use FIT for DPPB surveillance. There are, however, few obstacles: - The time to epithelization of a resection site is unknown, possibly 3-weeks as Mowat et al [8] have assumed. It depends on lesion size and whether the resection site has been closed with metallic clips. - The occult bleeding from the resection site depends on time to epithelization, the prophylactic coagulation of vessels at the end of the procedure (snare tip, APC, CoagGrasper), the use of hemostatic gel (Purastat). - The probability of positive FIT depends on the occult bleeding from the resection site, location (rectum versus right colon) and FIT cut-off value. - FIT laboratory central reading for quantitative tests takes a certain amount of time (post office time) which defies the purpose of a rapid result for an immediate individual predictive information. - DPPB mostly occurs in the first week after polypectomy and extremely rarely in the second week after polypectomy [4]. There are a lot of known unknowns and unknown unknowns. We propose to use a rapid qualitative FIT test to be self-administered daily by the patient in the first 2 weeks after colonoscopy, after each passage of feces. This will hopefully identify a desirable dynamic pattern of FIT results: - Positive daily until day X, negative afterwards - Positive daily until day X, negative afterwards, but then again positive in day Y just before DPPB We could hypothetically, do a rapid test in the day Y and if negative maybe leave the patient go about his usual activities, hobbies, and holidays. The proposed qualitative rapid FIT is HEMOTRUST (Biosyntex, Switzerland, www.biosyntex.com). The cut-off for HEMOTRUST is 6 microg/g, which is lower than advanced adenoma pre-polypectomy values and higher than post-polypectomy values for both advanced and non-advanced adenomas [8]. Aim of the research project We aim to study the DPPB predictive value of FIT after resection of advanced colorectal adenomas. Question of the research project Is there a dynamic of f-Hb presence after resection of advanced adenomas? Is this dynamic different in patients with DPPB after resection of advanced adenomas? Could we predict DPPB by studying f-Hb dynamic using qualitative rapid FIT? Hypothesis The f-Hb assessment dynamic using qualitative rapid FIT may help predict DPPB at the individual level.


Recruitment information / eligibility

Status Recruiting
Enrollment 200
Est. completion date December 2025
Est. primary completion date December 2025
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - Patient with at least one advanced adenoma > 10mm diameter resected at colonoscopy by polypectomy, EMR, underwater EMR or ESD - Age > 18 years old - Written informed consent. Exclusion Criteria: - Synchronous advanced colorectal cancer - Synchronous unresected advanced adenomas - Concomitant inflammatory bowel disease or any active colitis - Absence of written informed consent

Study Design


Related Conditions & MeSH terms


Intervention

Diagnostic Test:
FIT (fecal immunochemical test)
A FIT (fecal immunochemical test) will be done daily for the 14 days following polypectomy.

Locations

Country Name City State
Romania "Agrippa Ionescu" Hospital Bucharest

Sponsors (1)

Lead Sponsor Collaborator
Carol Davila University of Medicine and Pharmacy

Country where clinical trial is conducted

Romania, 

References & Publications (8)

Hassan C, Repici A, Sharma P, Correale L, Zullo A, Bretthauer M, Senore C, Spada C, Bellisario C, Bhandari P, Rex DK. Efficacy and safety of endoscopic resection of large colorectal polyps: a systematic review and meta-analysis. Gut. 2016 May;65(5):806-20. doi: 10.1136/gutjnl-2014-308481. Epub 2015 Feb 13. — View Citation

Huai J, Ye X, Ding J. Nomogram for the Prediction of Delayed Colorectal Post-Polypectomy Bleeding. Turk J Gastroenterol. 2021 Sep;32(9):727-734. doi: 10.5152/tjg.2021.20842. — View Citation

Jaruvongvanich V, Prasitlumkum N, Assavapongpaiboon B, Suchartlikitwong S, Sanguankeo A, Upala S. Risk factors for delayed colonic post-polypectomy bleeding: a systematic review and meta-analysis. Int J Colorectal Dis. 2017 Oct;32(10):1399-1406. doi: 10.1007/s00384-017-2870-0. Epub 2017 Aug 5. — View Citation

Lu Y, Zhou X, Chen H, Ding C, Si X. Establishment of a model for predicting delayed post-polypectomy bleeding: A real-world retrospective study. Front Med (Lausanne). 2022 Oct 19;9:1035646. doi: 10.3389/fmed.2022.1035646. eCollection 2022. — View Citation

Mohan BP, Khan SR, Daugherty E, Chandan S, Ponnada S, Facciorusso A, Kassab LL, Asokkumar R, Adler DG. Pooled rates of adenoma detection by colonoscopy in asymptomatic average-risk individuals with positive fecal immunochemical test: a systematic review and meta-analysis. Gastrointest Endosc. 2022 Aug;96(2):208-222.e14. doi: 10.1016/j.gie.2022.04.004. Epub 2022 Apr 9. — View Citation

Monahan KJ, Davies MM, Abulafi M, Banerjea A, Nicholson BD, Arasaradnam R, Barker N, Benton S, Booth R, Burling D, Carten RV, D'Souza N, East JE, Kleijnen J, Machesney M, Pettman M, Pipe J, Saker L, Sharp L, Stephenson J, Steele RJ. Faecal immunochemical testing (FIT) in patients with signs or symptoms of suspected colorectal cancer (CRC): a joint guideline from the Association of Coloproctology of Great Britain and Ireland (ACPGBI) and the British Society of Gastroenterology (BSG). Gut. 2022 Jul 12;71(10):1939-62. doi: 10.1136/gutjnl-2022-327985. Online ahead of print. — View Citation

Mowat C, Digby J, Cleary S, Gray L, Datt P, Goudie DR, Steele RJ, Strachan JA, Humphries A, Fraser CG. Faecal haemoglobin concentration in adenoma, before and after polypectomy, approaches the ideal tumour marker. Ann Clin Biochem. 2022 Jul;59(4):272-276. doi: 10.1177/00045632221080897. Epub 2022 Mar 2. — View Citation

Pokharel R, Lin YS, McFerran E, O'Mahony JF. A Systematic Review of Cost-Effectiveness Analyses of Colorectal Cancer Screening in Europe: Have Studies Included Optimal Screening Intensities? Appl Health Econ Health Policy. 2023 Sep;21(5):701-717. doi: 10.1007/s40258-023-00819-3. Epub 2023 Jun 28. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary Day of maximum probability of positive FIT to detect delayed post polypectomy bleeding Day (1 - 14) of positive FIT with maximum 24h before delayed post polypectomy bleeding 14 days
Secondary Time to delayed post polypectomy bleeding Duration to delayed post polypectomy bleeding 14 days
Secondary Time of FIT positivity after polypectomy with no delayed post polypectomy bleeding Duration of FIT positivity after polypectomy with no delayed post polypectomy bleeding 14 days
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