Alexander Seager, Linda Sharp, Laura J Neilson, Andrew Brand, James S Hampton, Tom J W Lee, Rachel Evans, Luke Vale, John Whelpton, Nathania Bestwick, Colin J Rees
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The COLO-DETECT trial aimed to assess the clinical effectiveness of the GI Genius intelligent endoscopy module for polyp detection, comparing colonoscopy assisted by GI Genius (computer-aided detection [CADe]-assisted colonoscopy) with standard colonoscopy in routine practice.</p><p><strong>Methods: </strong>We did a multicentre, open-label, parallel-arm, pragmatic randomised controlled trial in 12 National Health Service (NHS) hospitals (ten NHS Trusts) in England, among adults (aged ≥18 years) undergoing planned colonoscopy for gastrointestinal symptoms or for surveillance due to personal or family history (ie, symptomatic indications), or colorectal cancer screening. Randomisation (1:1) to CADe-assisted colonoscopy or standard colonoscopy was done with a web-based dynamic adaptive algorithm, immediately before colonoscopy, with stratification by age group, sex, colonoscopy indication (screening or symptomatic), and NHS Trust. Recruiting staff, participants, and colonoscopists were unmasked to trial allocation; histopathologists, co-chief investigators, and trial statisticians were masked. CADe-assisted colonoscopy consisted of standard colonoscopy plus the GI Genius module active for at least the entire inspection phase of colonoscope withdrawal. The primary outcome was mean adenomas per procedure (total number of adenomas detected divided by total number of procedures); the key secondary outcome was adenoma detection rate (proportion of colonoscopies with at least one adenoma). Analysis was by intention to treat (ITT), with outcomes compared between groups by mixed-effects regression modelling, in which effect estimates were adjusted for randomisation stratification variables. Data were imputed for outcome measures with more than 5% missing values. All participants who underwent colonoscopy were assessed for safety. The trial is registered on ISRCTN (ISRCTN10451355) and ClinicalTrials.gov (NCT04723758), and is complete.</p><p><strong>Findings: </strong>Between March 29, 2021, and April 6, 2023, 2032 participants (1132 [55·7%] male, 900 [44·3%] female; mean age 62·4 years [SD 10·8]) were recruited and randomly assigned: 1015 to CADe-assisted colonoscopy and 1017 to standard colonoscopy. 1231 (60·6%) participants were undergoing screening and 801 (39·4%) had symptomatic indications. Mean adenomas per procedure was 1·56 (SD 2·82; n=1001 participants with available data) in the CADe-assisted colonoscopy group versus 1·21 (1·91; n=1009) in the standard colonoscopy group, representing an adjusted mean difference of 0·36 (95% CI 0·14-0·57; adjusted incidence rate ratio 1·30 [95% CI 1·15-1·47], p<0·0001). Adenomas were detected in 555 (56·6%) of 980 participants in the CADe-assisted colonoscopy group versus 477 (48·4%) of 986 in the standard colonoscopy group, representing a proportion difference of 8·3% (95% CI 3·9-12·7; adjusted odds ratio 1·47 [95% CI 1·21-1·78], p<0·0001). Numbers of adverse events were similar between the CADe-assisted colonoscopy and standard colonoscopy groups (adverse events: 25 vs 19; serious adverse events: four vs six), and no adverse events in the CADe-assisted colonoscopy group were deemed to be related to GI Genius use on independent review.</p><p><strong>Interpretation: </strong>Results of the COLO-DETECT trial support the use of GI Genius to increase detection of premalignant colorectal polyps in routine colonoscopy practice.</p><p><strong>Funding: </strong>Medtronic.</p>","PeriodicalId":30,"journal":{"name":"Biomacromolecules","volume":null,"pages":null},"PeriodicalIF":5.5000,"publicationDate":"2024-10-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Polyp detection with colonoscopy assisted by the GI Genius artificial intelligence endoscopy module compared with standard colonoscopy in routine colonoscopy practice (COLO-DETECT): a multicentre, open-label, parallel-arm, pragmatic randomised controlled trial.\",\"authors\":\"Alexander Seager, Linda Sharp, Laura J Neilson, Andrew Brand, James S Hampton, Tom J W Lee, Rachel Evans, Luke Vale, John Whelpton, Nathania Bestwick, Colin J Rees\",\"doi\":\"10.1016/S2468-1253(24)00161-4\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>Increased polyp detection during colonoscopy is associated with decreased post-colonoscopy colorectal cancer incidence and mortality. 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引用次数: 0
摘要
背景:结肠镜检查中息肉检测率的提高与结肠镜检查后结直肠癌发病率和死亡率的降低有关。COLO-DETECT 试验旨在评估 GI Genius 智能内窥镜检查模块在息肉检测方面的临床效果,并将 GI Genius 辅助结肠镜检查(计算机辅助检测[CADe]辅助结肠镜检查)与常规做法中的标准结肠镜检查进行比较:我们在英格兰的 12 家国民健康服务(NHS)医院(10 个 NHS 信托基金会)开展了一项多中心、开放标签、平行臂、实用随机对照试验,对象是因胃肠道症状或因个人或家族病史(即症状适应症)或结直肠癌筛查而计划接受结肠镜检查的成年人(年龄≥18 岁)。在结肠镜检查前,通过网络动态自适应算法随机分配(1:1)CADe 辅助结肠镜检查或标准结肠镜检查,并根据年龄组、性别、结肠镜检查适应症(筛查或症状)和 NHS 信托基金会进行分层。招募人员、参与者和结肠镜医师均未蒙面,不参与试验分配;组织病理学家、联合首席研究员和试验统计人员均蒙面。CADe辅助结肠镜检查包括标准结肠镜检查和至少在结肠镜退出的整个检查阶段都在使用的GI Genius模块。主要结果是每次手术的平均腺瘤数(检测到的腺瘤总数除以手术总数);次要结果是腺瘤检测率(至少有一个腺瘤的结肠镜检查比例)。分析采用意向治疗(ITT)法,通过混合效应回归模型对各组间的结果进行比较,其中效应估计值根据随机分层变量进行了调整。对于缺失值超过5%的结果指标,将对数据进行估算。对所有接受结肠镜检查的参与者进行了安全性评估。该试验已在ISRCTN(ISRCTN10451355)和ClinicalTrials.gov(NCT04723758)上注册,并已完成:2021年3月29日至2023年4月6日期间,共招募并随机分配了2032名参与者(男性1132人[55-7%],女性900人[44-3%];平均年龄62-4岁[SD 10-8]):其中 1015 人接受 CADe 辅助结肠镜检查,1017 人接受标准结肠镜检查。1231人(60-6%)正在接受筛查,801人(39-4%)有症状指征。CADe辅助结肠镜检查组每次检查的平均腺瘤数为1-56(标度2-82;人数=1001,有可用数据),而标准结肠镜检查组为1-21(1-91;人数=1009),调整后的平均差异为0-36(95% CI 0-14-0-57;调整后的发病率比为1-30 [95% CI 1-15-1-47],p解释:COLO-DETECT试验结果支持在常规结肠镜检查中使用消化道天才来提高恶性前大肠息肉的检出率:资金来源:美敦力公司。
Polyp detection with colonoscopy assisted by the GI Genius artificial intelligence endoscopy module compared with standard colonoscopy in routine colonoscopy practice (COLO-DETECT): a multicentre, open-label, parallel-arm, pragmatic randomised controlled trial.
Background: Increased polyp detection during colonoscopy is associated with decreased post-colonoscopy colorectal cancer incidence and mortality. The COLO-DETECT trial aimed to assess the clinical effectiveness of the GI Genius intelligent endoscopy module for polyp detection, comparing colonoscopy assisted by GI Genius (computer-aided detection [CADe]-assisted colonoscopy) with standard colonoscopy in routine practice.
Methods: We did a multicentre, open-label, parallel-arm, pragmatic randomised controlled trial in 12 National Health Service (NHS) hospitals (ten NHS Trusts) in England, among adults (aged ≥18 years) undergoing planned colonoscopy for gastrointestinal symptoms or for surveillance due to personal or family history (ie, symptomatic indications), or colorectal cancer screening. Randomisation (1:1) to CADe-assisted colonoscopy or standard colonoscopy was done with a web-based dynamic adaptive algorithm, immediately before colonoscopy, with stratification by age group, sex, colonoscopy indication (screening or symptomatic), and NHS Trust. Recruiting staff, participants, and colonoscopists were unmasked to trial allocation; histopathologists, co-chief investigators, and trial statisticians were masked. CADe-assisted colonoscopy consisted of standard colonoscopy plus the GI Genius module active for at least the entire inspection phase of colonoscope withdrawal. The primary outcome was mean adenomas per procedure (total number of adenomas detected divided by total number of procedures); the key secondary outcome was adenoma detection rate (proportion of colonoscopies with at least one adenoma). Analysis was by intention to treat (ITT), with outcomes compared between groups by mixed-effects regression modelling, in which effect estimates were adjusted for randomisation stratification variables. Data were imputed for outcome measures with more than 5% missing values. All participants who underwent colonoscopy were assessed for safety. The trial is registered on ISRCTN (ISRCTN10451355) and ClinicalTrials.gov (NCT04723758), and is complete.
Findings: Between March 29, 2021, and April 6, 2023, 2032 participants (1132 [55·7%] male, 900 [44·3%] female; mean age 62·4 years [SD 10·8]) were recruited and randomly assigned: 1015 to CADe-assisted colonoscopy and 1017 to standard colonoscopy. 1231 (60·6%) participants were undergoing screening and 801 (39·4%) had symptomatic indications. Mean adenomas per procedure was 1·56 (SD 2·82; n=1001 participants with available data) in the CADe-assisted colonoscopy group versus 1·21 (1·91; n=1009) in the standard colonoscopy group, representing an adjusted mean difference of 0·36 (95% CI 0·14-0·57; adjusted incidence rate ratio 1·30 [95% CI 1·15-1·47], p<0·0001). Adenomas were detected in 555 (56·6%) of 980 participants in the CADe-assisted colonoscopy group versus 477 (48·4%) of 986 in the standard colonoscopy group, representing a proportion difference of 8·3% (95% CI 3·9-12·7; adjusted odds ratio 1·47 [95% CI 1·21-1·78], p<0·0001). Numbers of adverse events were similar between the CADe-assisted colonoscopy and standard colonoscopy groups (adverse events: 25 vs 19; serious adverse events: four vs six), and no adverse events in the CADe-assisted colonoscopy group were deemed to be related to GI Genius use on independent review.
Interpretation: Results of the COLO-DETECT trial support the use of GI Genius to increase detection of premalignant colorectal polyps in routine colonoscopy practice.
期刊介绍:
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