BACKGROUND: The need for colonoscopy in the care of patients with rectosigmoid adenoma 5 mm or less in diameter is still debatable. METHODS: We estimated the prevalence of proximal adenomas among 3052 consecutive subjects undergoing total colonoscopy. Rectosigmoid adenoma was classified as diminutive (5 mm), small (6 to 10 mm), or large (>/=11 mm). Advanced proximal adenoma was 10 mm in diameter or larger, or with a villous component, severe dysplasia, or infiltrating adenocarcinoma. RESULTS: Proximal adenoma was found in 212 of 2483 patients (8.5%, 95% CI [7.5, 9.7]) without distal neoplastic polyps, 49 of 214 (22.9%, 95% CI [17.6, 29.2]) with diminutive, 44 of 174 (25.3%, 95% CI [19.1, 32.5] with small, and 70 of 181 (38.7%, 95% CI [31.6, 46.2]) with large distal adenoma. Advanced proximal adenoma was found in 49 (2.0%, 95% CI [1.5, 2.6]), 8 (3.7%, 95% CI [1.7, 7.5]), 17 (9.8%, 95% CI [6.0, 15.4]), and 29 patients (16.0%, 95% [11.2, 22.4]), respectively. In patients with distal adenoma risk for proximal lesions increased with increasing age, size, and number of distal adenomas (p = 0.01). Size of distal adenoma was the strongest predictor of the presence of proximal advanced adenoma (multivariate analyses). CONCLUSIONS: In a clinical setting, the decision to perform colonoscopy should take into account proximal lesions of clinical interest, life expectancy, costs, and risks associated with the procedure. When detection of advanced proximal adenoma is the goal, presence of distal diminutive adenoma alone might not be an indication for total colonoscopy.
BACKGROUND: The need for colonoscopy in the care of patients with rectosigmoid adenoma 5 mm or less in diameter is still debatable. METHODS: We estimated the prevalence of proximal adenomas among 3052 consecutive subjects undergoing total colonoscopy. Rectosigmoid adenoma was classified as diminutive (5 mm), small (6 to 10 mm), or large (>/=11 mm). Advanced proximal adenoma was 10 mm in diameter or larger, or with a villous component, severe dysplasia, or infiltrating adenocarcinoma. RESULTS: Proximal adenoma was found in 212 of 2483 patients (8.5%, 95% CI [7.5, 9.7]) without distal neoplastic polyps, 49 of 214 (22.9%, 95% CI [17.6, 29.2]) with diminutive, 44 of 174 (25.3%, 95% CI [19.1, 32.5] with small, and 70 of 181 (38.7%, 95% CI [31.6, 46.2]) with large distal adenoma. Advanced proximal adenoma was found in 49 (2.0%, 95% CI [1.5, 2.6]), 8 (3.7%, 95% CI [1.7, 7.5]), 17 (9.8%, 95% CI [6.0, 15.4]), and 29 patients (16.0%, 95% [11.2, 22.4]), respectively. In patients with distal adenoma risk for proximal lesions increased with increasing age, size, and number of distal adenomas (p = 0.01). Size of distal adenoma was the strongest predictor of the presence of proximal advanced adenoma (multivariate analyses). CONCLUSIONS: In a clinical setting, the decision to perform colonoscopy should take into account proximal lesions of clinical interest, life expectancy, costs, and risks associated with the procedure. When detection of advanced proximal adenoma is the goal, presence of distal diminutive adenoma alone might not be an indication for total colonoscopy.
Authors: S Gryspeerdt; P Lefere; M Herman; R Deman; L Rutgeerts; G Ghillebert; F Baert; M Baekelandt; B Van Holsbeeck Journal: Eur Radiol Date: 2005-02-09 Impact factor: 5.315
Authors: Mun Su Kang; Dong Il Park; Yoon Tae Jeen; Bora Keum; Jai Hyun Choi; Sung-Ae Jung; Hyun Soo Kim; Young-Ho Kim; Won Ho Kim; Tae Il Kim; Hyo Jung Kim; Suk Kyun Yang; Seung Jae Myung; Jeong Sik Byeon; Moon Sung Lee; Il Kwon Jung; Moon Kwan Chung; Hwang Choi; Dong Soo Han; Jae Suk Song Journal: Int J Colorectal Dis Date: 2007-10-16 Impact factor: 2.571