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For patients with Barrett’s esophagus, surveillance endoscopy detects high-grade dysplasia (HGD) and esophageal adenocarcinoma (EAC) more often than previously reported, according to a retrospective analysis of more than 1,000 patients.

Dr. Lovekirat Dhaliwal

Neoplasia detection rate, defined as findings on initial surveillance endoscopy, was also lower than that observed in past studies, according to lead author Lovekirat Dhaliwal, MBBS, of Mayo Clinic, Rochester, Minn., and colleagues.

This study’s findings may help define quality control benchmarks for endoscopic surveillance of Barrett’s esophagus, the investigators wrote in Clinical Gastroenterology and Hepatology. Accurate metrics are needed, they noted, because almost 9 out of 10 patients with Barrett’s esophagus present with EAC outside of a surveillance program, which “may represent missed opportunities at screening.” At the same time, a previous study by the investigators and one from another group, have suggested that 25%-33% of HGD/EAC cases may go undetected by initial surveillance endoscopy.

“Dysplasia detection in [Barrett’s esophagus] is challenging because of its patchy distribution and often subtle appearance,” the investigators noted. “Lack of compliance with recommended biopsy guidelines is also well-documented.”

On the other hand, Dr. Dhaliwal and colleagues suggested that previous studies may not accurately portray community practice and, therefore, have limited value in determining quality control metrics. A 2019 review, for instance, reported a neoplasia detection rate of 7% among patients with Barrett’s esophagus, but this finding “is composed of data from largely referral center cohorts with endoscopy performed by experienced academic gastroenterologists,” they wrote, which may lead to overestimation of such detection.

To better characterize this landscape, the investigators conducted a retrospective analysis involving 1,066 patients with Barrett’s esophagus who underwent initial surveillance endoscopy between 1991 and 2019. Approximately three out of four surveillance endoscopies (77%) were performed by gastroenterologists, while the remaining were performed by nongastroenterologists, such as family practitioners or surgeons. About 60% of patients were adequately biopsied according to the Seattle protocol.

Analysis revealed that the neoplasia detection rate was 4.9% (95% confidence interval, 3.8%-6.4%), which is less than the previously reported rate of 7%. HGD was more common than EAC (33 cases vs. 20 cases). Out of 1,066 patients, 391 without neoplasia on initial endoscopy underwent repeat endoscopy within a year. Among these individuals, HGD or EAC was detected in eight patients, which suggests that 13% of diagnoses were missed on initial endoscopy, a rate well below the previously reported range of 25%-33%.
 

Technology challenged by technique

The neoplasia detection rate “appeared to increase significantly from 1991 to 2019 on univariate analysis (particularly after 2000), but this was not observed on multivariate analysis,” the investigators wrote. “This was despite the introduction of high definition monitors and high resolution endoscopes in subsequent years.

“This may suggest that in a low dysplasia prevalence setting, basic techniques such as careful white light inspection of the [Barrett’s esophagus] mucosa along with targeted and Seattle protocol biopsies may be more important,” they noted.

The importance of technique may be further supported by another finding: Gastroenterologists detected neoplasia almost four times as often as did nongastroenterologists (odds ratio, 3.6; P = .0154).

“This finding is novel and may be due to additional training in endoscopy, lesion recognition, and familiarity with surveillance guidelines in gastroenterologists,” the investigators wrote. “If this finding is replicated in other cohorts, it may support recommendations for the performance of surveillance by endoscopists trained in gastrointestinal endoscopy and well-versed in surveillance guidelines.

“[U]sing neoplasia detection as a quality metric coupled with outcome measures such as missed dysplasia rates could improve adherence to established biopsy protocols and improve the quality of care to patients,” they wrote. “Ultimately, this can be an opportunity to develop a high-value, evidence-based quality metric in [Barrett’s esophagus] surveillance.”

The authors acknowledged some limitations to their study. Its retrospective design meant no one biopsy protocol could be adopted across the entire study period; however, the results were “unchanged” when restricted to the period after introduction of the Seattle protocol in 2000. The study’s long period could have left results susceptible to changing guidelines, but the neoplasia detection rates remained relatively stable over time.

“Because prior reports consisted largely of tertiary care center cohorts, our findings may reflect the absence of referral bias and be more generalizable,” the investigators wrote.

The study was funded by the National Institute of Aging and the National Cancer Institute. The investigators disclosed relationships with Celgene, Nine Point Medical, Takeda, and others.

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For patients with Barrett’s esophagus, surveillance endoscopy detects high-grade dysplasia (HGD) and esophageal adenocarcinoma (EAC) more often than previously reported, according to a retrospective analysis of more than 1,000 patients.

Dr. Lovekirat Dhaliwal

Neoplasia detection rate, defined as findings on initial surveillance endoscopy, was also lower than that observed in past studies, according to lead author Lovekirat Dhaliwal, MBBS, of Mayo Clinic, Rochester, Minn., and colleagues.

This study’s findings may help define quality control benchmarks for endoscopic surveillance of Barrett’s esophagus, the investigators wrote in Clinical Gastroenterology and Hepatology. Accurate metrics are needed, they noted, because almost 9 out of 10 patients with Barrett’s esophagus present with EAC outside of a surveillance program, which “may represent missed opportunities at screening.” At the same time, a previous study by the investigators and one from another group, have suggested that 25%-33% of HGD/EAC cases may go undetected by initial surveillance endoscopy.

“Dysplasia detection in [Barrett’s esophagus] is challenging because of its patchy distribution and often subtle appearance,” the investigators noted. “Lack of compliance with recommended biopsy guidelines is also well-documented.”

On the other hand, Dr. Dhaliwal and colleagues suggested that previous studies may not accurately portray community practice and, therefore, have limited value in determining quality control metrics. A 2019 review, for instance, reported a neoplasia detection rate of 7% among patients with Barrett’s esophagus, but this finding “is composed of data from largely referral center cohorts with endoscopy performed by experienced academic gastroenterologists,” they wrote, which may lead to overestimation of such detection.

To better characterize this landscape, the investigators conducted a retrospective analysis involving 1,066 patients with Barrett’s esophagus who underwent initial surveillance endoscopy between 1991 and 2019. Approximately three out of four surveillance endoscopies (77%) were performed by gastroenterologists, while the remaining were performed by nongastroenterologists, such as family practitioners or surgeons. About 60% of patients were adequately biopsied according to the Seattle protocol.

Analysis revealed that the neoplasia detection rate was 4.9% (95% confidence interval, 3.8%-6.4%), which is less than the previously reported rate of 7%. HGD was more common than EAC (33 cases vs. 20 cases). Out of 1,066 patients, 391 without neoplasia on initial endoscopy underwent repeat endoscopy within a year. Among these individuals, HGD or EAC was detected in eight patients, which suggests that 13% of diagnoses were missed on initial endoscopy, a rate well below the previously reported range of 25%-33%.
 

Technology challenged by technique

The neoplasia detection rate “appeared to increase significantly from 1991 to 2019 on univariate analysis (particularly after 2000), but this was not observed on multivariate analysis,” the investigators wrote. “This was despite the introduction of high definition monitors and high resolution endoscopes in subsequent years.

“This may suggest that in a low dysplasia prevalence setting, basic techniques such as careful white light inspection of the [Barrett’s esophagus] mucosa along with targeted and Seattle protocol biopsies may be more important,” they noted.

The importance of technique may be further supported by another finding: Gastroenterologists detected neoplasia almost four times as often as did nongastroenterologists (odds ratio, 3.6; P = .0154).

“This finding is novel and may be due to additional training in endoscopy, lesion recognition, and familiarity with surveillance guidelines in gastroenterologists,” the investigators wrote. “If this finding is replicated in other cohorts, it may support recommendations for the performance of surveillance by endoscopists trained in gastrointestinal endoscopy and well-versed in surveillance guidelines.

“[U]sing neoplasia detection as a quality metric coupled with outcome measures such as missed dysplasia rates could improve adherence to established biopsy protocols and improve the quality of care to patients,” they wrote. “Ultimately, this can be an opportunity to develop a high-value, evidence-based quality metric in [Barrett’s esophagus] surveillance.”

The authors acknowledged some limitations to their study. Its retrospective design meant no one biopsy protocol could be adopted across the entire study period; however, the results were “unchanged” when restricted to the period after introduction of the Seattle protocol in 2000. The study’s long period could have left results susceptible to changing guidelines, but the neoplasia detection rates remained relatively stable over time.

“Because prior reports consisted largely of tertiary care center cohorts, our findings may reflect the absence of referral bias and be more generalizable,” the investigators wrote.

The study was funded by the National Institute of Aging and the National Cancer Institute. The investigators disclosed relationships with Celgene, Nine Point Medical, Takeda, and others.

For patients with Barrett’s esophagus, surveillance endoscopy detects high-grade dysplasia (HGD) and esophageal adenocarcinoma (EAC) more often than previously reported, according to a retrospective analysis of more than 1,000 patients.

Dr. Lovekirat Dhaliwal

Neoplasia detection rate, defined as findings on initial surveillance endoscopy, was also lower than that observed in past studies, according to lead author Lovekirat Dhaliwal, MBBS, of Mayo Clinic, Rochester, Minn., and colleagues.

This study’s findings may help define quality control benchmarks for endoscopic surveillance of Barrett’s esophagus, the investigators wrote in Clinical Gastroenterology and Hepatology. Accurate metrics are needed, they noted, because almost 9 out of 10 patients with Barrett’s esophagus present with EAC outside of a surveillance program, which “may represent missed opportunities at screening.” At the same time, a previous study by the investigators and one from another group, have suggested that 25%-33% of HGD/EAC cases may go undetected by initial surveillance endoscopy.

“Dysplasia detection in [Barrett’s esophagus] is challenging because of its patchy distribution and often subtle appearance,” the investigators noted. “Lack of compliance with recommended biopsy guidelines is also well-documented.”

On the other hand, Dr. Dhaliwal and colleagues suggested that previous studies may not accurately portray community practice and, therefore, have limited value in determining quality control metrics. A 2019 review, for instance, reported a neoplasia detection rate of 7% among patients with Barrett’s esophagus, but this finding “is composed of data from largely referral center cohorts with endoscopy performed by experienced academic gastroenterologists,” they wrote, which may lead to overestimation of such detection.

To better characterize this landscape, the investigators conducted a retrospective analysis involving 1,066 patients with Barrett’s esophagus who underwent initial surveillance endoscopy between 1991 and 2019. Approximately three out of four surveillance endoscopies (77%) were performed by gastroenterologists, while the remaining were performed by nongastroenterologists, such as family practitioners or surgeons. About 60% of patients were adequately biopsied according to the Seattle protocol.

Analysis revealed that the neoplasia detection rate was 4.9% (95% confidence interval, 3.8%-6.4%), which is less than the previously reported rate of 7%. HGD was more common than EAC (33 cases vs. 20 cases). Out of 1,066 patients, 391 without neoplasia on initial endoscopy underwent repeat endoscopy within a year. Among these individuals, HGD or EAC was detected in eight patients, which suggests that 13% of diagnoses were missed on initial endoscopy, a rate well below the previously reported range of 25%-33%.
 

Technology challenged by technique

The neoplasia detection rate “appeared to increase significantly from 1991 to 2019 on univariate analysis (particularly after 2000), but this was not observed on multivariate analysis,” the investigators wrote. “This was despite the introduction of high definition monitors and high resolution endoscopes in subsequent years.

“This may suggest that in a low dysplasia prevalence setting, basic techniques such as careful white light inspection of the [Barrett’s esophagus] mucosa along with targeted and Seattle protocol biopsies may be more important,” they noted.

The importance of technique may be further supported by another finding: Gastroenterologists detected neoplasia almost four times as often as did nongastroenterologists (odds ratio, 3.6; P = .0154).

“This finding is novel and may be due to additional training in endoscopy, lesion recognition, and familiarity with surveillance guidelines in gastroenterologists,” the investigators wrote. “If this finding is replicated in other cohorts, it may support recommendations for the performance of surveillance by endoscopists trained in gastrointestinal endoscopy and well-versed in surveillance guidelines.

“[U]sing neoplasia detection as a quality metric coupled with outcome measures such as missed dysplasia rates could improve adherence to established biopsy protocols and improve the quality of care to patients,” they wrote. “Ultimately, this can be an opportunity to develop a high-value, evidence-based quality metric in [Barrett’s esophagus] surveillance.”

The authors acknowledged some limitations to their study. Its retrospective design meant no one biopsy protocol could be adopted across the entire study period; however, the results were “unchanged” when restricted to the period after introduction of the Seattle protocol in 2000. The study’s long period could have left results susceptible to changing guidelines, but the neoplasia detection rates remained relatively stable over time.

“Because prior reports consisted largely of tertiary care center cohorts, our findings may reflect the absence of referral bias and be more generalizable,” the investigators wrote.

The study was funded by the National Institute of Aging and the National Cancer Institute. The investigators disclosed relationships with Celgene, Nine Point Medical, Takeda, and others.

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