No abstract availble.
Adenoma/diagnosis/epidemiology/*etiology ; Anticipation, Genetic ; Colonic Neoplasms/diagnosis/epidemiology/*etiology ; Humans ; *Insulin Resistance ; Obesity/*complications/epidemiology ; Risk Factors

BACKGROUND/AIMS: Although a few published studies have reported on the relationship between diverticulosis and neoplasia in the west, it is not yet examined in Korea. The aim of this study was to determine whether there is an association between diverticulosis and colonic neoplasia. METHODS: We retrospectely analysed the medical records of 3,007 patients (M:F=1.3:1) who underwent colonoscopic examinations from year 2002 to year 2004. Patients who had a history of previous polypectomy, colon resection, or inflammatory bowel diseases were excluded. The size, extent (none, few, or many), and location of diverticuli and polyps were analyzed. RESULTS: Of 2,377 patients, included 57% were male and the mean age was 50.8 year-old. Nine percent of the patient had diverticulosis, 29% had more than one neoplasm, and 6% had advanced neoplasia. Patients with diverticular diseases had higher risks of any neoplasia than those without diverticulum (p=0.03, 37.7% vs. 28.2%). There was no correlation between diverticular diseases and advanced neoplasia. Patients with proximal diverticular diseases had higher risk of any proximal neoplasia than other patients (p<0.01 24.6% vs. 14.3%). Moreover, they had higher risk of proximal advanced neoplasia than others (p=0.01, 4.5% vs. 2%). In addition, comparison of multiple diverticular disease with few or no diverticuli revealed no difference in the risk of any neoplasia. CONCLUSIONS: These data show that the patients with diverticular diseases have more neoplasms than controls without diverticula.
Adult ; Aged ; Colonic Neoplasms/*complications/diagnosis/epidemiology ; Diverticulosis, Colonic/*complications/diagnosis/epidemiology ; Diverticulum, Colon/epidemiology/etiology ; Female ; Humans ; Korea ; Male ; Middle Aged ; Prevalence ; Retrospective Studies

BACKGROUND/AIMS: The polyp detection rate (PDR) has been suggested as a surrogate for adenoma detection rate (ADR). The purpose of this study was to determine the level of agreement between PDR and ADR in the proximal and distal colon. METHODS: A total of 1,937 consecutive, asymptomatic individuals aged 40 years and older who underwent colonoscopies at six academic teaching hospitals in Korea were included in this study. PDR and ADR were calculated for each colonic segment. PDR was compared with ADR in the proximal and distal colon. RESULTS: During 1,937 colonoscopies, 1,862 polyps were removed; 1,421 (76%) were adenomas. The PDR and ADR in the proximal colon was 25.8% and 22.8%, respectively (kappa value=0.917, p=0.26), and that in the distal colon was 28.9% and 22.2%, respectively (p<0.001). There was a strong correlation between PDR and ADR in the proximal colon, but diverged in sigmoid colon and rectum. CONCLUSIONS: PDR and ADR correlate well in the proximal colon, but not in the distal colon, especially sigmoid and rectum. PDR should be measured for each colonic segment when using PDR as a surrogate for ADR. PDR is a valid proxy for ADR in the proximal colon.
Adenoma/*diagnosis/epidemiology ; Adult ; Aged ; Aged, 80 and over ; Colon/pathology ; Colonic Neoplasms/*diagnosis/epidemiology ; Colonic Polyps/*pathology ; Colonoscopy ; Female ; Hospitals, University ; Humans ; Incidence ; Male ; Middle Aged ; Retrospective Studies

BACKGROUNDColorectal serrated polyp is considered as histologically heterogeneous lesions with malignant potential in western countries. However, few Asian studies have investigated the comprehensive clinical features of serrated polyps in symptomatic populations. The aim of the study was to evaluate the features of colorectal serrated polyps in a Chinese symptomatic population.

METHODSData from all consecutive symptomatic patients were documented from a large colonoscopy database and were analyzed. Chi-square test or Fisher's exact test and logistic regression analysis were used for the data processing.

RESULTSA total of 9191 (31.7%) patients were detected with at least one colorectal polyp. The prevalence of serrated polyps was 0.53% (153/28,981). The proportions of hyperplastic polyp (HP), sessile serrated adenoma/polyp (SSA/P), and traditional serrated adenoma (TSA) of all serrated polyps were 41.2%, 7.2%, and 51.6%, respectively, which showed a lower proportion of HP and SSA/P and a higher proportion of TSA. Serrated polyps appeared more in males and elder patients while there was no significant difference in the subtype distribution in gender and age. The proportions of large and proximal serrated polyps were 13.7% (21/153) and 46.4% (71/153), respectively. In total, 98.9% (89/90) serrated adenomas were found with dysplasia. Moreover, 14 patients with serrated polyps were found with synchronous advanced colorectal neoplasia, and large serrated polyps (LSPs) (odds ratio: 3.446, 95% confidence interval: 1.010-11.750, P < 0.05), especially large HPs, might have an association with synchronous advanced neoplasia (AN).

CONCLUSIONSThe overall detection rate of colorectal serrated polyps in Chinese symptomatic patient population was low, and distribution pattern of three subtypes is different from previous reports. Moreover, LSPs, especially large HPs, might be associated with an increased risk of synchronous AN.

Adult ; Age Distribution ; Aged ; Chi-Square Distribution ; Colonic Neoplasms ; diagnosis ; epidemiology ; Colonoscopy ; Colorectal Neoplasms ; diagnosis ; epidemiology ; Female ; Humans ; Logistic Models ; Male ; Middle Aged ; Prevalence

BACKGROUD/AIMS: Obesity is a rising problem in industrialized countries. Numerous epidemiologic studies have shown a positive association between obesity and colorectal polyps. There are few studies investigating the association between colorectal adenomatous polyps and body fat composition in Korea. We tried to examine the relationship between body fatness and colorectal adenomatous polyps in health check-up subjects in Korea. METHODS: Six thousand seven hundred and six routine health check-up subjects, who visited our hospital between March 2002 and April 2005 and underwent distal colon examimation with sigmoidoscopy, were enrolled in this study. Among them, colonoscopy was done in 860 patients to evaluate the entire colon. We tried to reveal the relationship between body mass index (BMI) and size, location, number and histopathological type of polyps. BMI was used as an indicator of obesity. RESULTS: The mean value of BMI in total polyp-free group (23.8+/-2.9) was not different from that of the polyp group (24.5+/-2.8, p=0.09). The frequency of rectosigmoid polyps in obese patients (20.4%) was higher than that in non-obese patients (16.0%, p<0.05). The frequency of adenomatous polyp was not different between obese and non-obese group. Number of polyps (> or =4) correlated well with obesity. Moreover, age and triglyceride level in patients with colonic adenoma were significantly higher than in patients without colonic adenom. CONCLUSIONS: This study shows that obesity is not associated with colonic adenomatous polyp in Korean population. However, we observed that obesity may be associated with rectosigmoid colon polyps. Furthermore, age and triglyceride level might be the risk factors of colonic adenomatous polyps in Korean population.
Adenomatous Polyps/*complications/epidemiology/pathology ; Adult ; Aged ; Aged, 80 and over ; Body Mass Index ; Colonic Neoplasms/*complications/epidemiology/pathology ; Colonic Polyps/complications/epidemiology/pathology ; Comorbidity ; Female ; Humans ; Korea ; Male ; Middle Aged ; Obesity/*complications/diagnosis/epidemiology ; Retrospective Studies ; Sigmoidoscopy

Haining City and Jiashan County in Zhejiang Province are the first areas to carry out colorectal cancer screening in China, which started in the early 1970s and has been going on for more than 40 years. Meanwhile, Haining and Jiashan have also become the first batch of National Demonstration Bases for Early Diagnosis and Treatment of Colorectal Cancer. In the past 40 years, owing to Professor Zheng Shu who is brave and innovative, with an indomitable spirit, as well as the unremitting efforts and active exploration of all the team members, colorectal cancer screening which was unknown by the public and implemented with difficulties, has gradually been widely accepted and benefited the population. Today, remarkable achievements have been fulfilled in the colorectal cancer screening of Haining and Jiashan which has become the pioneer power in promoting the progress of colorectal cancer prevention and control in China and has certain influence both on China and the world. Meanwhile, a set of colorectal cancer screening strategies suitable for China has been explored and further promoted to be used nationwide, which is of great significance to the prevention and control of colorectal cancer in China. Looking forward to the future, the prevention and control of colorectal cancer in China is still difficult. We will continue to give full play to our existing advantages, not forget our original intention, move forward, explore innovation, and create greater glories!
China/epidemiology* ; Colonic Neoplasms/diagnosis* ; Colorectal Neoplasms/diagnosis* ; Early Detection of Cancer/statistics & numerical data* ; History, 20th Century ; Humans ; Mass Screening/methods* ; Rural Population/statistics & numerical data*

BACKGROUND: As the incidence of coloanal diseases has been steadily increasing during the past few decades in Korea, we illustrate the necessity of a specialized colorectal clinic for the efficient management of such diseases. METHOD: Outpatients at our colorectal clinic were studied epidemiologically and clinically by retrospective studies between November 1986 to December 1996. RESULTS: During this period, the total number of outpatients were 30,590 of which 24% were new patients. The patient pool consisted of anal diseases (62%), colon diseases (28%) and other diseases (10%). In this study, we found that condyloma, perianal abscesses, anal fistulas were predominant in males compared to females while rectovaginal fistulas, functional bowel diseases, and perianal fissures were predominant in females. There was no sexual bias for rectal cancer. Colorectal diseases occurred in all age groups; however, the peak age was in the fourth or fifth decade where social activity was maximum. There was a variation in age incidence among different disease entities. The range of age for benign conditions such as hemorroids, perianal abscessess and functional bowel diseases were from the third to the fifth decades; however, malignant lesions such as colon cancer were frequently seen in older patients (> 40 years). Condyloma was frequently seen in younger patients (< 20 years). There were no monthly variations in the incidences of colorectal diseases. Yearly variations were not found for colorectal disease, but were found for cancer. Of the cancers, the incidence of rectal cancer was higher than s-colon cancer or colon cancer in year variations. The diagnostic time has been reduced significantly over the past decade. The mean time required for a diagnosis work up in the period from 1984 to 1986 was 9.4 days; the diagnostic time in the period from 1993 to 1996 was 4.7 days. CONCLUSIONS: The incidences of coloanal disease have increased recently in Korea; thus, the demand for an efficient outpatient colorectal clinic has inevitably increased. We concluding that a specialized clinic, such as our colorectal clinic, has become essential for properly managing the exploding number of coloanal patients in Korea.
Abscess ; Bias (Epidemiology) ; Colon ; Colonic Neoplasms ; Diagnosis ; Female ; Humans ; Incidence ; Korea ; Male ; Outpatients* ; Rectal Fistula ; Rectal Neoplasms ; Rectovaginal Fistula ; Retrospective Studies

BACKGROUND/AIMS: Abdominal obesity and hyperinsulinemia or insulin resistance are of interest in connection with colon carcinogenesis. We conducted a prospective case controlled study for the evaluation of relationship between abdominal obesity, insulin resistance, and colorectal adenoma. METHODS: Fifty patients with colorectal adenoma and fifty healthy subjects were included in this study. Total colonoscopic examinations were performed in all the subjects. Fasting blood sugar (FBS), insulin, homeostasis model assessment (HOMA-IR), triglyceride (TG), cholesterol (CROL), BMI (body mass index), WHR (waist hip ratio), percent body fat (PBF) and obesity degree (OD) were measured. HOMA-IR was considered to represent insulin resistance. Diabetic patients were excluded from this study. RESULTS: There were no differences in sex, serum insulin, FBS, HOMA-IR, TG, CROL between adenoma and control group. Subjects with high BMI, WHR, percent body fat, and obesity were more likely to have colonic adenoma. Multiple logistic regression analysis after adjusting confounding factors, had revealed that WHR was the most important independent risk factor for colon adenoma. CONCLUSIONS: Abdominal obesity was most closely related to colonic adenoma. However, insulin resistance was not related to colonic adenoma. A larger case controlled study is needed.
*Abdominal Fat ; Adenoma/diagnosis/epidemiology/*etiology ; Aged ; Body Fat Distribution ; Body Mass Index ; Colonic Neoplasms/diagnosis/epidemiology/*etiology ; Colonoscopy ; Female ; Humans ; *Insulin Resistance ; Male ; Middle Aged ; Obesity/*complications/epidemiology/pathology ; Risk Factors ; Waist-Hip Ratio

OBJECTIVETo determine the detection rate and distribution characteristics of colorectal adenomas in Ningbo area of China, and to identify the risk factors for colorectal adenoma, in order to provide reference for colorectal cancer screening.

METHODSA cross-sectional study was performed among 8660 subjects undergoing colonoscopy in the Ningbo No.2 Hospital between January and December 2016, using a questionnaire, including demographic data (age, gender, height and weight), history of diseases (diabetes, hypertension, hyperlipidemia, and family history of malignant neoplasm), lifestyle (smoking, alcohol, dietary bias on red meat, dietary bias on fruit and vegetables, dietary frequency of pickled food and physical activities), and intestinal early warning symptoms. All colonoscopically detected polyps were removed for histological examination. Polyps were histologically divided into non-adenomatous (hyperplastic polyps and inflammatory polyps) and adenomatous polyps (tubular, villous, tubulovillous and serrated adenomas). Pathologic features were analyzed according to anatomical site. Multivariate logistic regression analysis was used to identify the risk factors for colorectal adenoma.

RESULTSA total of 7077 subjects who received colonoscopic examination and completed the questionnaire survey were enrolled in this study. There were 3633 males and 3444 females with a median age of 53 (ranged 17 to 83) years. Adenoma detection rate was 15.6% (1103/7077) in all cases, 21.0%(762/3633) for males, and 9.9%(341/3444) for females(P=0.000). Detection rate of 6.2%(29/469) was recorded in individuals aged less than 30 years, 8.0%(87/1086) in those from 30 to 39 years, 12.1%(148/1222) in those from 40 to 49 years, 16.8%(272/1623) in those from 50 to 59 years, 20.4%(326/1601) in those from 60 to 69 years, and 22.4%(241/1076) in those ≥70 years. The detection rate increased according to age(P=0.000). A total of 1521 adenomas were detected in 1103 cases, including 1455 tubular adenomas, 33 tubulovillous adenomas, 9 villous adenomas and 24 serrated adenomas. Among 1521 adenomas, 44.1%(n=671) located in the right hemicolon, 39.0%(n=593) in the left hemicolon, and 16.9%(n=257) in the rectum. Significantly larger number of serrated adenomas and advanced adenomas (advanced adenoma was defined as any adenoma with high-grade intraepithelial neoplasia, diameter ≥10 mm or with villous component) was observed in the right hemicolon compared to left hemicolon and rectum [serrated adenomas: 2.5%(17/671) vs. 0.8% (5/593) and 0.8% (2/257), P=0.029; advanced adenoma: 9.2% (62/671) vs. 5.2% (31/953) and 6.6% (17/257), P=0.021]. Multivariate analysis showed that malely (P=0.003), elderly (P=0.000), obesity (P=0.014), smoking (P=0.001), alcohol (P=0.032), and family history of malignancy (P=0.000) were independent risk factors of colorectal adenoma.

CONCLUSIONSIn view of a higher detection rate of colorectal adenoma in population aged 40 to 49 years especially in male individuals, the starting age of colonoscopy screening may be advanced to 40 years old. People with family history of malignancy, obesity, and habit of smoking or drinking should be regarded as important subjects for colonoscopy screening. During colonoscopy screening, special emphasis should be given to right hemicolon.

Adenoma ; diagnosis ; epidemiology ; Adolescent ; Adult ; Aged ; Aged, 80 and over ; China ; epidemiology ; Colonic Polyps ; Colonoscopy ; Colorectal Neoplasms ; diagnosis ; epidemiology ; Cross-Sectional Studies ; Female ; Humans ; Male ; Middle Aged ; Risk Factors ; Young Adult

OBJECTIVETo compare the age-specific detection rates of colorectal neoplasms by colonoscopic screening among high-risk population in rural area and to provide evidence for determining the initial age in the colorectal cancer screening.

METHODSThe age-specific detection rates of colorectal cancers and adenomas, and the proportion of detected cases in each age group after screening by the optimized sequential colorectal cancer screening program in Jiashan County, Zhejiang Province, were analyzed.

RESULTSMass screening with the optimized sequential colorectal cancer screening program in Jiashan was conducted and 8867 colonoscopic examinations were performed. A total of 1811 individuals with at least one colorectal neoplastic lesion were found. Among them, there were 92 (1.04%) colorectal cancer patients, 1164 (13.13%) patients with at least one adenoma and 377 (4.25%) patients with at least one advanced adenoma. The detection rate of colorectal neoplastic lesions for the age group 40 - 44 was considerably lower than that in the age group 45 - 49. Hypothetically, to increase the initial age to 45-years for the optimized sequential colorectal cancer screening program would yield a 7.84% increase in the detection rate of total colorectal neoplastic lesions, 13.46% increase in the detection rate of colorectal cancer, 8.76% increase in the detection rate of adenoma, 12.24% increase in the detection rate of advanced adenoma and 19.64% lower in the cost of initial screening, 13.30% lower in the cost of colonoscopic screening.

CONCLUSIONSAmong the high-risk population aged 40 to 74, the detection rates of colorectal cancer and adenoma are increasing with the increase of age, the detection rates of colorectal cancer and adenoma as well as proportion of detected cases in the 40 - 44 age group are considerably lower. To increase the initial age to 45 for colorectal cancer screening in rural area of China is reasonable.

Adenoma ; diagnosis ; epidemiology ; pathology ; Adult ; Age Distribution ; Aged ; Carcinoma ; diagnosis ; epidemiology ; pathology ; China ; epidemiology ; Colitis, Ulcerative ; diagnosis ; epidemiology ; pathology ; Colonic Polyps ; diagnosis ; epidemiology ; pathology ; Colonoscopy ; Colorectal Neoplasms ; diagnosis ; epidemiology ; pathology ; Female ; Humans ; Incidence ; Male ; Mass Screening ; methods ; Middle Aged ; Risk ; Rural Population ; Surveys and Questionnaires