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In contrast, patients with high-risk adenomas at baseline had significantly elevated rates of both CRC and CRC-related death, reported lead author Jeffrey K. Lee, MD, of Kaiser Permanente San Francisco and colleagues.
With additional research, these findings may influence colonoscopy surveillance intervals, the investigators wrote in Gastroenterology.
“Current guidelines recommend that patients with a low-risk adenoma finding ... receive surveillance colonoscopy in 5-10 years, although in practice, clinicians often use even more frequent surveillance ... in this low-risk group,” they wrote. “The rationale for continued support of shorter-than-recommended surveillance intervals for patients with low-risk adenomas is unclear, but could stem from a lack of long-term population-based studies assessing colorectal cancer incidence and related deaths following low-risk adenoma removal or randomized trials evaluating optimal postpolypectomy surveillance intervals.”
To alleviate this knowledge gap, the investigators began by screening data from 186,046 patients who underwent baseline colonoscopy between 2004 and 2010 at 21 medical centers in California. Following exclusions based on family history, confounding gastrointestinal diseases, and incomplete data, 64,422 patients remained. Among these patients, the mean age was 61.6 years, with a slight female majority (54.3%). Almost three out of four patients (71.2%) had normal colonoscopy findings, followed by smaller proportions who were diagnosed with low-risk adenoma (17.0%) or high-risk adenoma (11.7%), based on United States Multi-Society Task Force guidelines.
After a median follow-up of 8.1 years, 117 patients who had normal colonoscopy findings developed CRC, 22 of whom died from the disease. In comparison, the low-risk adenoma group had 37 cases of CRC and 3 instances of CRC-related death, whereas the high-risk adenoma group had 60 cases of CRC and 13 instances of CRC-related death.
In the no-adenoma and low-risk groups, trends in age-adjusted CRC incidence rates were similar; in both cohorts, CRC incidence increased gradually over the decade following colonoscopy, with each group reaching approximately 50 cases per 100,000 person-years by year 10. In contrast, CRC incidence climbed rapidly in the high-risk adenoma group, ultimately peaking a decade later at almost 220 cases per 100,000 person-years. Average incidence rates per 100,000 person-years were similar among patients with no adenoma (31.1) and low-risk adenoma (38.8), but markedly higher among those with high-risk adenoma (90.8). At the end of the 14-year follow-up period, absolute risks of CRC among patients with no adenoma, low-risk adenoma, and high-risk adenoma were 0.51%, 0.57%, and 2.03%, respectively.
Based on covariate-adjusted Cox regression models, patients with low-risk adenoma did not have a significantly higher risk of CRC or CRC-related death than did patients with no adenoma. In contrast, patients with high-risk adenoma had significantly higher risks of CRC (hazard ratio, 2.61) and CRC-related death (HR, 3.94).
“These findings support guideline recommendations for intensive colonoscopy surveillance in [patients with high-risk adenomas at baseline],” the investigators wrote.
Considering similar risks between patients with low-risk adenomas and those with normal findings, the investigators suggested that longer surveillance intervals may be acceptable for both of these patient populations.
“Guidelines recommending comparable follow-up for low-risk adenomas and normal examinations, such as lengthening the surveillance interval to more than 5 years and possibly 10 years, may provide comparable cancer incidence and mortality benefits for these two groups,” they wrote.
Still, the investigators noted that study limitations – such as disparate rates of subsequent colonoscopy between groups – make it difficult to draw definitive, practice-changing conclusions.
“Additional studies, potentially including randomized trials, on the natural history of low-risk adenoma and normal findings without intervening surveillance exams before 10 years are needed to help guide future surveillance practices,” they concluded.
The study was supported by the National Cancer Institute and the American Gastroenterological Association. The investigators disclosed no conflicts of interest.
SOURCE: Lee JK et al. Gastroenterology. 2019 Oct 4. doi: 10.1053/j.gastro.2019.09.039.
The current CRC surveillance paradigm stratifies adults into high- and low-risk groups based on index findings. However, there are few data on postcolonoscopy CRC incidence to support this approach. Lee et al. provided valuable long-term data in their retrospective analysis of data from an integrated health organization. While index high-risk adenomas were associated with an increased CRC risk, compared with no adenomas, low-risk adenomas (LRA; 1-2 tubular adenomas less than 1 cm) had no increased risk. A lower CRC mortality in those with LRAs decreased the likelihood that CRCs resulted from overdiagnosis or lead time bias caused by differences in exposure among the three groups to subsequent surveillance colonoscopies, a common issue in long-term studies. These data add to growing evidence, such as that from the Prostate, Lung, Colorectal and Ovarian Cancer Trial, that support lengthening current surveillance intervals for LRAs.
Study strengths include a large sample and inclusion of quality measures such as adenoma detection rates. However, to examine conventional adenoma risk, individuals with serrated polyps were excluded and thus the impact of these lesions is unclear. Since New Hampshire Colonoscopy Registry data demonstrate a higher risk of metachronous advanced adenomas for those with both sessile serrated polyps and high-risk adenomas, long-term CRC data for serrated polyps is crucial. In addition, data from short-term studies suggest that there may be heterogeneity in risk for LRAs, a higher risk for an 8-mm lesion than a 3-mm one. Thus, we await more long-term studies to address these and other issues.
Joseph C. Anderson, MD, MHCDS, is an associate professor of medicine at White River Junction VAMC, Dartmouth College, Hanover, N.H., and the University of Connecticut Health Center, Farmington, Conn. The contents of this work do not represent the views of the Department of Veterans Affairs or the United States Government. He has no relevant conflicts of interest.
The current CRC surveillance paradigm stratifies adults into high- and low-risk groups based on index findings. However, there are few data on postcolonoscopy CRC incidence to support this approach. Lee et al. provided valuable long-term data in their retrospective analysis of data from an integrated health organization. While index high-risk adenomas were associated with an increased CRC risk, compared with no adenomas, low-risk adenomas (LRA; 1-2 tubular adenomas less than 1 cm) had no increased risk. A lower CRC mortality in those with LRAs decreased the likelihood that CRCs resulted from overdiagnosis or lead time bias caused by differences in exposure among the three groups to subsequent surveillance colonoscopies, a common issue in long-term studies. These data add to growing evidence, such as that from the Prostate, Lung, Colorectal and Ovarian Cancer Trial, that support lengthening current surveillance intervals for LRAs.
Study strengths include a large sample and inclusion of quality measures such as adenoma detection rates. However, to examine conventional adenoma risk, individuals with serrated polyps were excluded and thus the impact of these lesions is unclear. Since New Hampshire Colonoscopy Registry data demonstrate a higher risk of metachronous advanced adenomas for those with both sessile serrated polyps and high-risk adenomas, long-term CRC data for serrated polyps is crucial. In addition, data from short-term studies suggest that there may be heterogeneity in risk for LRAs, a higher risk for an 8-mm lesion than a 3-mm one. Thus, we await more long-term studies to address these and other issues.
Joseph C. Anderson, MD, MHCDS, is an associate professor of medicine at White River Junction VAMC, Dartmouth College, Hanover, N.H., and the University of Connecticut Health Center, Farmington, Conn. The contents of this work do not represent the views of the Department of Veterans Affairs or the United States Government. He has no relevant conflicts of interest.
The current CRC surveillance paradigm stratifies adults into high- and low-risk groups based on index findings. However, there are few data on postcolonoscopy CRC incidence to support this approach. Lee et al. provided valuable long-term data in their retrospective analysis of data from an integrated health organization. While index high-risk adenomas were associated with an increased CRC risk, compared with no adenomas, low-risk adenomas (LRA; 1-2 tubular adenomas less than 1 cm) had no increased risk. A lower CRC mortality in those with LRAs decreased the likelihood that CRCs resulted from overdiagnosis or lead time bias caused by differences in exposure among the three groups to subsequent surveillance colonoscopies, a common issue in long-term studies. These data add to growing evidence, such as that from the Prostate, Lung, Colorectal and Ovarian Cancer Trial, that support lengthening current surveillance intervals for LRAs.
Study strengths include a large sample and inclusion of quality measures such as adenoma detection rates. However, to examine conventional adenoma risk, individuals with serrated polyps were excluded and thus the impact of these lesions is unclear. Since New Hampshire Colonoscopy Registry data demonstrate a higher risk of metachronous advanced adenomas for those with both sessile serrated polyps and high-risk adenomas, long-term CRC data for serrated polyps is crucial. In addition, data from short-term studies suggest that there may be heterogeneity in risk for LRAs, a higher risk for an 8-mm lesion than a 3-mm one. Thus, we await more long-term studies to address these and other issues.
Joseph C. Anderson, MD, MHCDS, is an associate professor of medicine at White River Junction VAMC, Dartmouth College, Hanover, N.H., and the University of Connecticut Health Center, Farmington, Conn. The contents of this work do not represent the views of the Department of Veterans Affairs or the United States Government. He has no relevant conflicts of interest.
In contrast, patients with high-risk adenomas at baseline had significantly elevated rates of both CRC and CRC-related death, reported lead author Jeffrey K. Lee, MD, of Kaiser Permanente San Francisco and colleagues.
With additional research, these findings may influence colonoscopy surveillance intervals, the investigators wrote in Gastroenterology.
“Current guidelines recommend that patients with a low-risk adenoma finding ... receive surveillance colonoscopy in 5-10 years, although in practice, clinicians often use even more frequent surveillance ... in this low-risk group,” they wrote. “The rationale for continued support of shorter-than-recommended surveillance intervals for patients with low-risk adenomas is unclear, but could stem from a lack of long-term population-based studies assessing colorectal cancer incidence and related deaths following low-risk adenoma removal or randomized trials evaluating optimal postpolypectomy surveillance intervals.”
To alleviate this knowledge gap, the investigators began by screening data from 186,046 patients who underwent baseline colonoscopy between 2004 and 2010 at 21 medical centers in California. Following exclusions based on family history, confounding gastrointestinal diseases, and incomplete data, 64,422 patients remained. Among these patients, the mean age was 61.6 years, with a slight female majority (54.3%). Almost three out of four patients (71.2%) had normal colonoscopy findings, followed by smaller proportions who were diagnosed with low-risk adenoma (17.0%) or high-risk adenoma (11.7%), based on United States Multi-Society Task Force guidelines.
After a median follow-up of 8.1 years, 117 patients who had normal colonoscopy findings developed CRC, 22 of whom died from the disease. In comparison, the low-risk adenoma group had 37 cases of CRC and 3 instances of CRC-related death, whereas the high-risk adenoma group had 60 cases of CRC and 13 instances of CRC-related death.
In the no-adenoma and low-risk groups, trends in age-adjusted CRC incidence rates were similar; in both cohorts, CRC incidence increased gradually over the decade following colonoscopy, with each group reaching approximately 50 cases per 100,000 person-years by year 10. In contrast, CRC incidence climbed rapidly in the high-risk adenoma group, ultimately peaking a decade later at almost 220 cases per 100,000 person-years. Average incidence rates per 100,000 person-years were similar among patients with no adenoma (31.1) and low-risk adenoma (38.8), but markedly higher among those with high-risk adenoma (90.8). At the end of the 14-year follow-up period, absolute risks of CRC among patients with no adenoma, low-risk adenoma, and high-risk adenoma were 0.51%, 0.57%, and 2.03%, respectively.
Based on covariate-adjusted Cox regression models, patients with low-risk adenoma did not have a significantly higher risk of CRC or CRC-related death than did patients with no adenoma. In contrast, patients with high-risk adenoma had significantly higher risks of CRC (hazard ratio, 2.61) and CRC-related death (HR, 3.94).
“These findings support guideline recommendations for intensive colonoscopy surveillance in [patients with high-risk adenomas at baseline],” the investigators wrote.
Considering similar risks between patients with low-risk adenomas and those with normal findings, the investigators suggested that longer surveillance intervals may be acceptable for both of these patient populations.
“Guidelines recommending comparable follow-up for low-risk adenomas and normal examinations, such as lengthening the surveillance interval to more than 5 years and possibly 10 years, may provide comparable cancer incidence and mortality benefits for these two groups,” they wrote.
Still, the investigators noted that study limitations – such as disparate rates of subsequent colonoscopy between groups – make it difficult to draw definitive, practice-changing conclusions.
“Additional studies, potentially including randomized trials, on the natural history of low-risk adenoma and normal findings without intervening surveillance exams before 10 years are needed to help guide future surveillance practices,” they concluded.
The study was supported by the National Cancer Institute and the American Gastroenterological Association. The investigators disclosed no conflicts of interest.
SOURCE: Lee JK et al. Gastroenterology. 2019 Oct 4. doi: 10.1053/j.gastro.2019.09.039.
In contrast, patients with high-risk adenomas at baseline had significantly elevated rates of both CRC and CRC-related death, reported lead author Jeffrey K. Lee, MD, of Kaiser Permanente San Francisco and colleagues.
With additional research, these findings may influence colonoscopy surveillance intervals, the investigators wrote in Gastroenterology.
“Current guidelines recommend that patients with a low-risk adenoma finding ... receive surveillance colonoscopy in 5-10 years, although in practice, clinicians often use even more frequent surveillance ... in this low-risk group,” they wrote. “The rationale for continued support of shorter-than-recommended surveillance intervals for patients with low-risk adenomas is unclear, but could stem from a lack of long-term population-based studies assessing colorectal cancer incidence and related deaths following low-risk adenoma removal or randomized trials evaluating optimal postpolypectomy surveillance intervals.”
To alleviate this knowledge gap, the investigators began by screening data from 186,046 patients who underwent baseline colonoscopy between 2004 and 2010 at 21 medical centers in California. Following exclusions based on family history, confounding gastrointestinal diseases, and incomplete data, 64,422 patients remained. Among these patients, the mean age was 61.6 years, with a slight female majority (54.3%). Almost three out of four patients (71.2%) had normal colonoscopy findings, followed by smaller proportions who were diagnosed with low-risk adenoma (17.0%) or high-risk adenoma (11.7%), based on United States Multi-Society Task Force guidelines.
After a median follow-up of 8.1 years, 117 patients who had normal colonoscopy findings developed CRC, 22 of whom died from the disease. In comparison, the low-risk adenoma group had 37 cases of CRC and 3 instances of CRC-related death, whereas the high-risk adenoma group had 60 cases of CRC and 13 instances of CRC-related death.
In the no-adenoma and low-risk groups, trends in age-adjusted CRC incidence rates were similar; in both cohorts, CRC incidence increased gradually over the decade following colonoscopy, with each group reaching approximately 50 cases per 100,000 person-years by year 10. In contrast, CRC incidence climbed rapidly in the high-risk adenoma group, ultimately peaking a decade later at almost 220 cases per 100,000 person-years. Average incidence rates per 100,000 person-years were similar among patients with no adenoma (31.1) and low-risk adenoma (38.8), but markedly higher among those with high-risk adenoma (90.8). At the end of the 14-year follow-up period, absolute risks of CRC among patients with no adenoma, low-risk adenoma, and high-risk adenoma were 0.51%, 0.57%, and 2.03%, respectively.
Based on covariate-adjusted Cox regression models, patients with low-risk adenoma did not have a significantly higher risk of CRC or CRC-related death than did patients with no adenoma. In contrast, patients with high-risk adenoma had significantly higher risks of CRC (hazard ratio, 2.61) and CRC-related death (HR, 3.94).
“These findings support guideline recommendations for intensive colonoscopy surveillance in [patients with high-risk adenomas at baseline],” the investigators wrote.
Considering similar risks between patients with low-risk adenomas and those with normal findings, the investigators suggested that longer surveillance intervals may be acceptable for both of these patient populations.
“Guidelines recommending comparable follow-up for low-risk adenomas and normal examinations, such as lengthening the surveillance interval to more than 5 years and possibly 10 years, may provide comparable cancer incidence and mortality benefits for these two groups,” they wrote.
Still, the investigators noted that study limitations – such as disparate rates of subsequent colonoscopy between groups – make it difficult to draw definitive, practice-changing conclusions.
“Additional studies, potentially including randomized trials, on the natural history of low-risk adenoma and normal findings without intervening surveillance exams before 10 years are needed to help guide future surveillance practices,” they concluded.
The study was supported by the National Cancer Institute and the American Gastroenterological Association. The investigators disclosed no conflicts of interest.
SOURCE: Lee JK et al. Gastroenterology. 2019 Oct 4. doi: 10.1053/j.gastro.2019.09.039.
FROM GASTROENTEROLOGY
Key clinical point: High-risk adenomas, but not low-risk adenomas, are associated with increased long-term risks of colorectal cancer (CRC) and CRC-related death.
Major finding: Compared with patients without adenomas, patients diagnosed with high-risk adenoma had a significantly increased risk of colorectal cancer (hazard ratio, 2.61).
Study details: A retrospective cohort study involving 64,422 patients who underwent colonoscopy between 2004 and 2010.
Disclosures: The study was supported by the National Cancer Institute and the American Gastroenterological Association. The investigators disclosed no conflicts of interest.
Source: Lee JK et al. Gastroenterology. 2019 Oct 4. doi: 10.1053/j.gastro.2019.09.039.