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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT04482452
Other study ID # 2020-00074
Secondary ID
Status Recruiting
Phase
First received
Last updated
Start date June 8, 2020
Est. completion date May 19, 2022

Study information

Verified date July 2020
Source University Hospital Inselspital, Berne
Contact Benjamin Misselwitz, Prof.
Phone +41 31 632 5719
Email benjamin.misselwitz@insel.ch
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

Primary hypothesis: The percentage of mucosa visualized during the withdrawal of a colonoscopy with reference to the position in the colon by means of the scope-guide is an appropriate parameter for assessment of the quality of colonoscopy and correlates with the probability of the detection of adenomas.

Secondary hypothesis:

The investigators hypothesize that the percentage of visualized mucosa differs according patient specific parameters (e.g. gender, age, BMI, bowel preparation), procedure specific parameters (e.g. patient position, device, buscopan, fentanyl, withdrawal time) and investigator specific parameters (professional experience as resident and consultant).

Study Procedure/Evaluation:

The endoscopic images and scope guide from colonoscopy of 500 patients will be filmed. The investigators will correlate the detection of at least one adenoma in the cohort of included patients with the percentage of visualized mucosa during the withdrawal of a colonoscopy. Additional endpoints concerning the quality of the colonoscopy will be assessed as well.


Description:

PROJECT OBJECTIVES AND DESIGN 1.1 Hypothesis Primary hypothesis: The percentage of mucosa visualized during the withdrawal of a colonoscopy with reference to the position in the colon by means of the scope-guide is an appropriate parameter for assessment of the quality of colonoscopy and correlates with the probability of the detection of adenomas.

Secondary hypothesis:

The investigators hypothesize that the percentage of visualized mucosa differs according patient specific parameters (e.g. gender, age, BMI, bowel preparation), procedure specific parameters (e.g. patient position, device, buscopan, fentanyl, withdrawal time) and investigator specific parameters (professional experience as resident and consultant).

STUDY DESIGN AND PROCEDURES 2.1 Study Design: The investigators will perform a non-interventional, single center exploratory study. Only total colonoscopies will be included. All of the examinations will be performed by board-certified specialists or fellows in training, supervised by the former. The investigators will enroll only participants who will have an explicit indication, in other words who will get a colonoscopy anyway. Therefore, colonoscopies will be conducted for a wide variety of indications including, but not limited, to CRC screening, CRC/ adenoma surveillance, abdominal symptoms such as pain, irregular defecation (diarrhea or constipation), gastrointestinal occult or overt bleeding, family history of polyps or CRC, prior colonic resection, hereditary polyposis syndromes and inflammatory bowel diseases (IBD). Since the study does not pose any additional risk to the participants (the only thing which changes for the patient is that the endoscopic images from colonoscopy and scope guide will be filmed), the enrollment can be done during consultation hour, at the ward or shortly before a colonoscopy.

2.2 Recruitment, screening and informed consent procedure: Patients will be recruited by the project team in the Department of Visceral Surgery and Medicine at the Inselspital. The patient will be provided with information regarding the study. If the patient shows interest, the investigator will explain the study protocol, answer questions and check inclusion and exclusion criteria. For this study, no compensatory fee will be paid.

2.3 Study procedures: If the patient agrees to participate in the study and has signed the informed consent the colonoscopy will be performed in the usual setting and using general safety measures. The endoscopist will start filming all the phases of the colonoscopy and the position of the scope-guide simultaneously. Both films will be uploaded to the local server and then cut and analyzed with the help of iMovie. The only study procedure specific for the study is the filming and no other study specific measures will be taken.

Basic parameters of patient history and colonoscopy procedure will be recorded (compare CRF). As always, any findings of the colonoscopy will be reported to the participant/ patient after the procedure.

2.4 Withdrawal and discontinuation: If an individual withdraws informed consent after the colonoscopy or during the analysis of the data, he/she will be withdrawn from the project. All videos will be anonymized. In case of withdrawal, patient data and videos will not be considered for study purposes and will be deleted completely.

STATISTICS AND METHODOLOGY 3.1 Evaluation of Videos: All videos will be anonymized. Then the percentage of visible mucosa and lumen during withdrawal will be determined in each video. The scope-guide will allow to correlate the images with the position of the colonoscope within the colon. The investigators will record the amount of time spend in colon segments such as the cecum, ascending colon, right flexure, right transverse colon, left transverse colon, left flexure, descending colon, sigma and rectum. For each of these segments, the investigators will record the amount of time with good mucosa visibility and poor mucosa visibility.

In addition to manual analysis, computer-aided analysis and artificial intelligence methods will be developed to assist the evaluation of the videos. The development of computer-aided methods consists of two phases. In the first phase, frames in the video will be extracted as individual images. Experienced physicians will be assigned to annotate the images. The position of the scope-guide will be extracted for the annotation. Then a classifier based on deep neural network will be trained on these annotated images. The percentage of visible mucosa and lumen during withdrawal will be determined in each video based on the classification results of each individual frame. The classification according to the scope-guide will allow to correlate the images with the position of the colonoscope within the colon. The amount of time spending in colon segments such as the cecum, ascending colon, right flexure, right transverse colon, left transverse colon, left flexure, descending colon, sigma and rectum will be determined based on deep learning prediction results. Each frame will be classified to good mucosa visibility and poor mucosa visibility and the amount of time with good mucosa visibility and poor mucosa visibility of each of the segments will be determined accordingly. In the second phase, videos will be analysed directly with deep learning methods and the consistency between the frames will be explored during the analysis to improve the accuracy.

The investigators will also analyse advancements of the endoscope from the anus to the cecum. To this end, the time until each of the segments is reached will be recorded as well as all loops which have formed within the colon.

3.2 Statistical analysis plan 3.2.1. Statistical evaluation of the primary endpoint For evaluation of the primary endpoint (adenoma detection rate as a function of mucosa visibility) the investigators will rank all investigations regarding mucosa visibility and will divide the study population in 50% individuals with the best mucosa visibility and compare this number to the 50% of individuals with the worst mucosa visibility. They will compare the fraction of individuals with at least 1 detected adenoma to individuals without a detected adenoma (Fisher exact test). They will subsequently use multivariate logistic regression to correct for confounders (age, gender, family history of CRC, personal history of adenomas, advanced adenomas, carcinomas, BMI and bowel preparation).

3.2.2. Power analysis Our study is exploratory and no proper power analysis is possible. To provide an estimation the investigators assume that the effect of poor vs. good mucosa visibility will be as good as the effect of one of a number of technical devices recently tested in clinical studies to improve adenoma detection during colonoscopy. Such new technical devices (NTDs) include mucosa caps attached to the tips of the endoscope which flatten and stretch the mucosa or lenses to improve the field and angle of view. In a recent meta-analysis, NTDs increased the odds of adenoma detection by 35% (odds ratio 1.35) 25. In a screening colonoscopy, an adenoma detection rate of at least 20% would be expected 26 (i.e. 50 individuals with at least one adenoma among 250 individuals). In individuals with optimal mucosa visibility, this number would be 35% higher (i.e. 68 in 250 individuals). According to the power analysis using G* Power 3.1 27, 419 individuals would be needed to detect such a difference (i.e. 20% vs. 27% adenoma detection) with a power of 80% at an alpha level of 5%. The Investigators are aiming to include 500 individuals to account for an estimated 15% of investigations which could not be evaluated due to incomplete examinations or technical problems.

3.2.3 Statistical analysis of the secondary endpoints For the secondary outcomes, observed effects and interactions will be statistically substantiated by parametric and non-parametric tests and/ or multivariate analyses considering confounders as appropriate. A p-value <0.05 will be considered significant.

3.3 Handling of missing data: The nature of this exploratory study allows for some tolerance regarding missing data. Patients with incomplete or missing data/videos due to technical problems will be excluded from the study.


Recruitment information / eligibility

Status Recruiting
Enrollment 500
Est. completion date May 19, 2022
Est. primary completion date May 19, 2022
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria:

- Signed informed consent.

- Ability to understand and follow study procedures and understand informed consent.

- Complete colonoscopy.

- Age at least 18 years.

Exclusion Criteria:

- Participation in another clinical study interfering with study procedures.

Study Design


Related Conditions & MeSH terms


Intervention

Procedure:
Colonoscopy
Diagnostic colonoscopy will be performed

Locations

Country Name City State
Switzerland Inselspital Bern

Sponsors (1)

Lead Sponsor Collaborator
University Hospital Inselspital, Berne

Country where clinical trial is conducted

Switzerland, 

References & Publications (24)

Bressler B, Paszat LF, Chen Z, Rothwell DM, Vinden C, Rabeneck L. Rates of new or missed colorectal cancers after colonoscopy and their risk factors: a population-based analysis. Gastroenterology. 2007 Jan;132(1):96-102. — View Citation

Calderwood AH, Schroy PC 3rd, Lieberman DA, Logan JR, Zurfluh M, Jacobson BC. Boston Bowel Preparation Scale scores provide a standardized definition of adequate for describing bowel cleanliness. Gastrointest Endosc. 2014 Aug;80(2):269-76. doi: 10.1016/j.gie.2014.01.031. Epub 2014 Mar 12. — View Citation

Castaneda D, Popov VB, Verheyen E, Wander P, Gross SA. New technologies improve adenoma detection rate, adenoma miss rate, and polyp detection rate: a systematic review and meta-analysis. Gastrointest Endosc. 2018 Aug;88(2):209-222.e11. doi: 10.1016/j.gie.2018.03.022. Epub 2018 Apr 1. Review. — View Citation

Corley DA, Levin TR, Doubeni CA. Adenoma detection rate and risk of colorectal cancer and death. N Engl J Med. 2014 Jun 26;370(26):2541. doi: 10.1056/NEJMc1405329. — View Citation

Faul F, Erdfelder E, Lang AG, Buchner A. G*Power 3: a flexible statistical power analysis program for the social, behavioral, and biomedical sciences. Behav Res Methods. 2007 May;39(2):175-91. — View Citation

Holme Ø, Løberg M, Kalager M, Bretthauer M, Hernán MA, Aas E, Eide TJ, Skovlund E, Schneede J, Tveit KM, Hoff G. Effect of flexible sigmoidoscopy screening on colorectal cancer incidence and mortality: a randomized clinical trial. JAMA. 2014 Aug 13;312(6):606-15. doi: 10.1001/jama.2014.8266. Erratum in: JAMA. 2014 Sep 3;312(9):964. — View Citation

Iwatate M, Kitagawa T, Katayama Y, Tokutomi N, Ban S, Hattori S, Hasuike N, Sano W, Sano Y, Tamano M. Post-colonoscopy colorectal cancer rate in the era of high-definition colonoscopy. World J Gastroenterol. 2017 Nov 14;23(42):7609-7617. doi: 10.3748/wjg.v23.i42.7609. — View Citation

Kaminski MF, Regula J, Kraszewska E, Polkowski M, Wojciechowska U, Didkowska J, Zwierko M, Rupinski M, Nowacki MP, Butruk E. Quality indicators for colonoscopy and the risk of interval cancer. N Engl J Med. 2010 May 13;362(19):1795-803. doi: 10.1056/NEJMoa0907667. — View Citation

Kaminski MF, Thomas-Gibson S, Bugajski M, Bretthauer M, Rees CJ, Dekker E, Hoff G, Jover R, Suchanek S, Ferlitsch M, Anderson J, Roesch T, Hultcranz R, Racz I, Kuipers EJ, Garborg K, East JE, Rupinski M, Seip B, Bennett C, Senore C, Minozzi S, Bisschops R, Domagk D, Valori R, Spada C, Hassan C, Dinis-Ribeiro M, Rutter MD. Performance measures for lower gastrointestinal endoscopy: a European Society of Gastrointestinal Endoscopy (ESGE) quality improvement initiative. United European Gastroenterol J. 2017 Apr;5(3):309-334. doi: 10.1177/2050640617700014. Epub 2017 Mar 16. Review. — View Citation

Kluge MA, Williams JL, Wu CK, Jacobson BC, Schroy PC 3rd, Lieberman DA, Calderwood AH. Inadequate Boston Bowel Preparation Scale scores predict the risk of missed neoplasia on the next colonoscopy. Gastrointest Endosc. 2018 Mar;87(3):744-751. doi: 10.1016/j.gie.2017.06.012. Epub 2017 Jun 23. — View Citation

Lebwohl B, Kastrinos F, Glick M, Rosenbaum AJ, Wang T, Neugut AI. The impact of suboptimal bowel preparation on adenoma miss rates and the factors associated with early repeat colonoscopy. Gastrointest Endosc. 2011 Jun;73(6):1207-14. doi: 10.1016/j.gie.2011.01.051. Epub 2011 Apr 8. — View Citation

Lieberman D, Ladabaum U, Cruz-Correa M, Ginsburg C, Inadomi JM, Kim LS, Giardiello FM, Wender RC. Screening for Colorectal Cancer and Evolving Issues for Physicians and Patients: A Review. JAMA. 2016 Nov 22;316(20):2135-2145. doi: 10.1001/jama.2016.17418. Review. — View Citation

Peery AF, Dellon ES, Lund J, Crockett SD, McGowan CE, Bulsiewicz WJ, Gangarosa LM, Thiny MT, Stizenberg K, Morgan DR, Ringel Y, Kim HP, DiBonaventura MD, Carroll CF, Allen JK, Cook SF, Sandler RS, Kappelman MD, Shaheen NJ. Burden of gastrointestinal disease in the United States: 2012 update. Gastroenterology. 2012 Nov;143(5):1179-1187.e3. doi: 10.1053/j.gastro.2012.08.002. Epub 2012 Aug 8. — View Citation

Rees CJ, Thomas Gibson S, Rutter MD, Baragwanath P, Pullan R, Feeney M, Haslam N; British Society of Gastroenterology, the Joint Advisory Group on GI Endoscopy, the Association of Coloproctology of Great Britain and Ireland. UK key performance indicators and quality assurance standards for colonoscopy. Gut. 2016 Dec;65(12):1923-1929. doi: 10.1136/gutjnl-2016-312044. Epub 2016 Aug 16. — View Citation

Rex DK, Bond JH, Winawer S, Levin TR, Burt RW, Johnson DA, Kirk LM, Litlin S, Lieberman DA, Waye JD, Church J, Marshall JB, Riddell RH; U.S. Multi-Society Task Force on Colorectal Cancer. Quality in the technical performance of colonoscopy and the continuous quality improvement process for colonoscopy: recommendations of the U.S. Multi-Society Task Force on Colorectal Cancer. Am J Gastroenterol. 2002 Jun;97(6):1296-308. — View Citation

Rex DK, Petrini JL, Baron TH, Chak A, Cohen J, Deal SE, Hoffman B, Jacobson BC, Mergener K, Petersen BT, Safdi MA, Faigel DO, Pike IM; ASGE/ACG Taskforce on Quality in Endoscopy. Quality indicators for colonoscopy. Am J Gastroenterol. 2006 Apr;101(4):873-85. — View Citation

Rex DK, Schoenfeld PS, Cohen J, Pike IM, Adler DG, Fennerty MB, Lieb JG 2nd, Park WG, Rizk MK, Sawhney MS, Shaheen NJ, Wani S, Weinberg DS. Quality indicators for colonoscopy. Am J Gastroenterol. 2015 Jan;110(1):72-90. doi: 10.1038/ajg.2014.385. Epub 2014 Dec 2. — View Citation

Sawhney MS, Cury MS, Neeman N, Ngo LH, Lewis JM, Chuttani R, Pleskow DK, Aronson MD. Effect of institution-wide policy of colonoscopy withdrawal time > or = 7 minutes on polyp detection. Gastroenterology. 2008 Dec;135(6):1892-8. doi: 10.1053/j.gastro.2008.08.024. Epub 2008 Aug 27. — View Citation

Schoen RE, Pinsky PF, Weissfeld JL, Yokochi LA, Church T, Laiyemo AO, Bresalier R, Andriole GL, Buys SS, Crawford ED, Fouad MN, Isaacs C, Johnson CC, Reding DJ, O'Brien B, Carrick DM, Wright P, Riley TL, Purdue MP, Izmirlian G, Kramer BS, Miller AB, Gohagan JK, Prorok PC, Berg CD; PLCO Project Team. Colorectal-cancer incidence and mortality with screening flexible sigmoidoscopy. N Engl J Med. 2012 Jun 21;366(25):2345-57. doi: 10.1056/NEJMoa1114635. Epub 2012 May 21. — View Citation

Siegel RL, Miller KD, Jemal A. Cancer statistics, 2019. CA Cancer J Clin. 2019 Jan;69(1):7-34. doi: 10.3322/caac.21551. Epub 2019 Jan 8. — View Citation

Sonnenberg A, Amorosi SL, Lacey MJ, Lieberman DA. Patterns of endoscopy in the United States: analysis of data from the Centers for Medicare and Medicaid Services and the National Endoscopic Database. Gastrointest Endosc. 2008 Mar;67(3):489-96. doi: 10.1016/j.gie.2007.08.041. Epub 2008 Jan 7. — View Citation

Sulz MC, Kröger A, Prakash M, Manser CN, Heinrich H, Misselwitz B. Meta-Analysis of the Effect of Bowel Preparation on Adenoma Detection: Early Adenomas Affected Stronger than Advanced Adenomas. PLoS One. 2016 Jun 3;11(6):e0154149. doi: 10.1371/journal.pone.0154149. eCollection 2016. — View Citation

Szura M, Bucki K, Matyja A, Kulig J. Evaluation of magnetic scope navigation in screening endoscopic examination of colorectal cancer. Surg Endosc. 2012 Mar;26(3):632-8. doi: 10.1007/s00464-011-1930-8. Epub 2011 Sep 30. — View Citation

van Rijn JC, Reitsma JB, Stoker J, Bossuyt PM, van Deventer SJ, Dekker E. Polyp miss rate determined by tandem colonoscopy: a systematic review. Am J Gastroenterol. 2006 Feb;101(2):343-50. Review. — View Citation

* Note: There are 24 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary Correlation of detection of at least one adenoma with the percentage of visualized mucosa The investigators will correlate the detection of at least one adenoma in the cohort of included patients with the percentage of visualized mucosa during the withdrawal of a colonoscopy. In the Analysis of the investigators, the ADR will be corrected for confounders (age, gender, family history of CRC, personal history of adenomas, advanced adenomas, carcinomas, BMI and bowel preparation).
Mucosa visualization will be defined as the average of the visualized mucosa over all segments of the colon.
During the procedure
Secondary Correlation of the percentage of visualized mucosa (see above) with the number of polyps, number of adenomas, number of advanced adenomas Correlation of the percentage of visualized mucosa (see above) with the number of polyps, number of adenomas, number of advanced adenomas During the procedure
Secondary In which segment of the colon is the visualization worst In which segment of the colon is the visualization worst During the procedure
Secondary Which factors influence the visualization of the colon mucosa Which factors influence the visualization of the colon mucosa (bowel preparation, withdrawal time, device (colonoscope) selection, water vs. air immersion technique, buscopan, fentanyl, change of position of patient (supine position, lateral position) etc.) During the procedure
Secondary Change of visualized mucosa during training of a gastroenterology resident (learning curve) Change of visualized mucosa during training of a gastroenterology resident During the procedure
Secondary Differences in percentage visualized mucosa between individual board-certified gastroenterologists according to years of professional experience and numbers of previous endoscopies Differences in percentage visualized mucosa between individual board-certified gastroenterologists according to years of professional experience and numbers of previous endoscopies During the procedure
Secondary Differences in percentage of visualized mucosa in men vs. women Differences in percentage of visualized mucosa in men vs. women During the procedure
Secondary Speed of advancing the endoscope during the first phase of colonoscopy under the conditions mentioned above (bowel preparation, sedation parameters, position, gender, level of professional experience). Speed of advancing the endoscope during the first phase of colonoscopy During the procedure
Secondary Loops in the colon (alpha-loop, reverse alpha-loop, N-loop) during advancing the endoscope and the influence of the parameters described under outcome 8) Loops in the colon (alpha-loop, reverse alpha-loop, N-loop) during advancing the endoscope and the influence of the parameters described under outcome 8) During the procedure
Secondary 9) The above mentioned primary and secondary end-points will also be assessed using automated image analysis algorithms and artificial intelligence 9) The above mentioned primary and secondary end-points will also be assessed using automated image analysis algorithms and artificial intelligence During the procedure
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