Variation in the rate of detection of minute and small early gastric cancers at diagnostic endoscopy may reflect the performance of individual endoscopists

Objective The documented variation in gastric cancer (GC) detection among endoscopists has often been dismissed as a coincidental artefact of the low incidence of gastric neoplasms; it is not considered associated with differences in physicians’ performance of the esophagogastroduodenoscopy procedure. This study is to confirm whether significant variations among endoscopists in early GC detection suggest the individual performance of the upper endoscopy. Design A retrospective observational study at a single centre in Japan assessed the results of 218 early GCs detected during 25 688 routine esophagogastroduodenoscopies by 12 endoscopists. The main outcome was the rate of early GC detection for each endoscopist under the same circumstances. Other measures included the major diameters and locations of the lesions, Helicobacter pylori infection status, and baseline patient characteristics that could affect the prevalence of GC. Results The early GC detection rates exhibited wide variation among endoscopists (0.09%–2.87%) despite performing routine esophagogastroduodenoscopies in a population with a similar background. Endoscopists were assigned to a low-detection group (n=6; detection rate: 0.47% (range: 0.09%–0.55%)) and a high-detection group (n=5; detection rate: 0.83% (range: 0.63%–1.12%)), with the single highest detector analysed separately due to his distinct detection rate (2.87%). Endoscopists in the high-detection group had better detection rates for minute (major diameter ≤5 mm) and small (major diameter 6–10 mm) GCs than the low-detection group (0.19%/0.23% vs 0.085%/0.098%). These differences were significant (p<0.01), although there were no significant differences in detection of larger tumours (major diameter ≥11 mm; 0.40% vs 0.28%; p=0.13). The tumour location and H. pylori status were similar in the low-detection group, high-detection group and for the highest detector. Conclusion Significant variation in the detection of hard-to-find, smaller GCs may reflect individual performance of the examination.

[1]  T. Kawano,et al.  Linked color imaging provides enhanced visibility with a high color difference in upper gastrointestinal neoplasms , 2022, Journal of gastroenterology and hepatology.

[2]  D. Hirasawa,et al.  Assigning a different endoscopist for each annual follow-up may contribute to improved gastric cancer detection rates , 2022, Endoscopy international open.

[3]  K. Kagawa,et al.  Clinical Features of False-Negative Early Gastric Cancers: A Retrospective Study of Endoscopic Submucosal Dissection Cases , 2021, Gastroenterology research and practice.

[4]  T. Kawano,et al.  Linked Color Imaging Focused on Neoplasm Detection in the Upper Gastrointestinal Tract , 2020, Annals of Internal Medicine.

[5]  M. Yamato,et al.  Challenging detection of hard-to-find gastric cancers with artificial intelligence-assisted endoscopy , 2020, Gut.

[6]  A. Ofosu,et al.  Implementing visual cues to improve the efficacy of screening colonoscopy: exploiting the Hawthorne effect , 2020, Annals of gastroenterology.

[7]  Masahiro Yoshida,et al.  Guidelines for endoscopic diagnosis of early gastric cancer , 2020, Digestive endoscopy : official journal of the Japan Gastroenterological Endoscopy Society.

[8]  Linda S. Lee,et al.  Best Practices in Teaching Endoscopy Based on a Delphi Survey of Gastroenterology Program Directors and Experts in Endoscopy Education. , 2020, Clinical gastroenterology and hepatology : the official clinical practice journal of the American Gastroenterological Association.

[9]  S. Choi,et al.  A Lesion-Based Convolutional Neural Network Improves Endoscopic Detection and Depth Prediction of Early Gastric Cancer , 2019, Journal of clinical medicine.

[10]  K. Chayama,et al.  Genomic landscape of epithelium with low-grade atypia on gastric cancer after Helicobacter pylori eradiation therapy , 2019, Journal of Gastroenterology.

[11]  M. Kaminski,et al.  Endoscopist biopsy rate as a quality indicator for outpatient gastroscopy: a multicenter cohort study with validation. , 2019, Gastrointestinal endoscopy.

[12]  E. Vazquez-Sequeiros,et al.  Characteristics and consequences of missed gastric cancer: A multicentric cohort study. , 2019, Digestive and liver disease : official journal of the Italian Society of Gastroenterology and the Italian Association for the Study of the Liver.

[13]  T. Hirasawa,et al.  Differences in upper gastrointestinal neoplasm detection rates based on inspection time and esophagogastroduodenoscopy training , 2018, Endoscopy International Open.

[14]  Myung-Gyu Choi,et al.  The effect of photo-documentation of the ampulla on neoplasm detection rate during esophagogastroduodenoscopy , 2018, Endoscopy.

[15]  M. Fujishiro,et al.  Application of artificial intelligence using a convolutional neural network for detecting gastric cancer in endoscopic images , 2018, Gastric Cancer.

[16]  I. Oda,et al.  Metachronous Gastric Cancer Following Curative Endoscopic Resection of Early Gastric Cancer , 2017, Clinical endoscopy.

[17]  Myung-Gyu Choi,et al.  Longer Observation Time Increases Proportion of Neoplasms Detected by Esophagogastroduodenoscopy. , 2017, Gastroenterology.

[18]  K. Yasuda,et al.  Examination time as a quality indicator of screening upper gastrointestinal endoscopy for asymptomatic examinees , 2017, Digestive endoscopy : official journal of the Japan Gastroenterological Endoscopy Society.

[19]  Y. Naito,et al.  Diagnostic ability of magnifying endoscopy with blue laser imaging for early gastric cancer: a prospective study , 2017, Gastric Cancer.

[20]  Mário Dinis-Ribeiro,et al.  Missing rate for gastric cancer during upper gastrointestinal endoscopy: a systematic review and meta-analysis , 2016, European journal of gastroenterology & hepatology.

[21]  Mário Dinis-Ribeiro,et al.  Performance measures for upper gastrointestinal endoscopy: a European Society of Gastrointestinal Endoscopy (ESGE) Quality Improvement Initiative , 2016, Endoscopy.

[22]  J. J. Bonilla,et al.  Development of an E-learning System for the Endoscopic Diagnosis of Early Gastric Cancer: An International Multicenter Randomized Controlled Trial , 2016, EBioMedicine.

[23]  T. Yano,et al.  Basic principles and practice of gastric cancer screening using high‐definition white‐light gastroscopy: Eyes can only see what the brain knows , 2016, Digestive endoscopy : official journal of the Japan Gastroenterological Endoscopy Society.

[24]  S. Nimura,et al.  Endoscopic and histological features of gastric cancers after successful Helicobacter pylori eradication therapy , 2016, Gastric Cancer.

[25]  I. Oda,et al.  Long-term surveillance and treatment outcomes of metachronous gastric cancer occurring after curative endoscopic submucosal dissection , 2015, Endoscopy.

[26]  G. Hanna,et al.  Gastric Cancers Missed During Endoscopy in England. , 2015, Clinical gastroenterology and hepatology : the official clinical practice journal of the American Gastroenterological Association.

[27]  J. Kim,et al.  Risk Factors of Developing Interval Early Gastric Cancer After Negative Endoscopy , 2015, Digestive Diseases and Sciences.

[28]  Qiang Zhang,et al.  Training in Early Gastric Cancer Diagnosis Improves the Detection Rate of Early Gastric Cancer , 2015, Medicine.

[29]  Walter G. Park,et al.  Quality Indicators for EGD , 2015, The American Journal of Gastroenterology.

[30]  K. Chayama,et al.  Characteristic Epithelium with Low‐Grade Atypia Appears on the Surface of Gastric Cancer after Successful Helicobacter pylori Eradication Therapy , 2014, Helicobacter.

[31]  Muhammad F Dawwas,et al.  Adenoma detection rate and risk of colorectal cancer and death. , 2014, The New England journal of medicine.

[32]  S. Menon,et al.  How commonly is upper gastrointestinal cancer missed at endoscopy? A meta-analysis , 2014, Endoscopy International Open.

[33]  D. Elbourne,et al.  Systematic review of the Hawthorne effect: New concepts are needed to study research participation effects☆ , 2014, Journal of clinical epidemiology.

[34]  Takuji Kishimoto,et al.  Sensitivity of endoscopic screening for gastric cancer by the incidence method , 2013, International journal of cancer.

[35]  S. Moss,et al.  Colonoscopy quality measures: experience from the NHS Bowel Cancer Screening Programme , 2011, Gut.

[36]  Robert H. Lee,et al.  Quality of colonoscopy withdrawal technique and variability in adenoma detection rates (with videos). , 2011, Gastrointestinal endoscopy.

[37]  H. Lee,et al.  When do we miss synchronous gastric neoplasms with endoscopy? , 2010, Gastrointestinal endoscopy.

[38]  Marcin Polkowski,et al.  Quality indicators for colonoscopy and the risk of interval cancer. , 2010, The New England journal of medicine.

[39]  Hooi C. Ee,et al.  A Cohort Study of Missed and New Cancers After Esophagogastroduodenoscopy , 2010, The American Journal of Gastroenterology.

[40]  O. Hosokawa,et al.  Difference in accuracy between gastroscopy and colonoscopy for detection of cancer. , 2007, Hepato-gastroenterology.

[41]  D. Faigel,et al.  Quality Indicators for Esophagogastroduodenoscopy , 2006, The American Journal of Gastroenterology.

[42]  M F Dixon,et al.  The Vienna classification of gastrointestinal epithelial neoplasia , 2000, Gut.

[43]  O. Hosokawa,et al.  Diagnosis of Gastric Cancer up to Three Years after Negative Upper Gastrointestinal Endoscopy , 1998, Endoscopy.

[44]  M. Stolte,et al.  Differences in diagnostic criteria for gastric carcinoma between Japanese and Western pathologists , 1997, The Lancet.

[45]  T. Takemoto,et al.  An Endoscopic Recognition of the Atrophic Border and its Significance in Chronic Gastritis , 1969 .

[46]  S. Shin,et al.  Endoscopic Quality Indicators for Esophagogastroduodenoscopy in Gastric Cancer Screening , 2014, Digestive Diseases and Sciences.

[47]  胃癌研究会 Japanese classification of gastric carcinoma , 1995 .