|
|
|
| Investigation on the current situation of colonoscopy |
| HUANG Qing1* ZHOU Jin2* WANG Ruigang1 WEI Zhengjie1 WANG Xu2 JIANG Xuan1 |
1.School of Clinical Medicine, Beijing Tsinghua Changgung Hospital Tsinghua University, Beijing 102218, China;
2.Basic Industrial Training Center, Tsinghua University, Beijing 100084, China |
|
|
|
Abstract Objective To study the current situation of colonoscopy. Methods From October 2019 to February 2020, the questionnaire was filled out through the Internet. This study screened five representative provinces and municipalities (Beijing, Shaanxi Province, Shanxi Province, Guangdong Province, and Liaoning Province) with different regions and economic levels in the country. In these five regions, 41 hospitals with different levels and regular endoscopy rooms were selected for questionnaire survey. The content includes the experience of colonoscopy operation, the evaluation of the operation performance of colonoscopy equipment and the related physical fatigue. A total of 328 valid questionnaires were collected for investigation. Results Study subjects were more prone to injuries and increased overall fatigue in the hands, waist, and legs. The parts with obvious fatigue or damage were the most frequent in the base of the thumb of the left hand (71 people, 21.6%), the first joint of the thumb (61 people, 18.6%), and the tip of the thumb (53 people, 16.2%), waist (51 people, 15.6%), and left shoulder (42 people, 12.8%). 42.1%-61.6% of colonoscopy operators were dissatisfied with the design of the colonoscope handle, gas and water buttons, and locking switches. A total of 238 people (72.6%) believed that the colonoscope handle needed to be improved, and 186 people (56.7%) supported the development of the colonoscope handle intelligent assist system. Conclusion Colonoscopy operation will cause obvious physical fatigue and discomfort of limbs and joints. It is necessary to improve the colonoscopy handle through the intelligent system.
|
|
|
|
|
|
[1] Zauber AG,Winawer SJ,O’Brien MJ,et al. Colonoscopic Polypectomy and Long-Term Prevention of Colorectal-Cancer Deaths [J]. N Engl J Med,2012,366(8):687-696.
[2] Miller KD,Nogueira L,Mariotto AB,et al. Cancer treatment and survivorship statistics,2019 [J]. CA-Cancer J Clin,2019,62(4):220-241.
[3] McCarthy M. US colorectal cancer screening rates are “far too low” says CDC [J]. BMJ,2013,347(4):f6729.
[4] 中华医学会消化内镜学分会.中国早期结直肠癌筛查流程专家共识意见(2019,上海)[J].中华内科杂志,2019, 58(10):736-744.
[5] 邓凌,徐萍,郭瑜,等.消化内镜操作者职业伤害情况调查[J].现代消化及介入诊疗,2012(3):30-33.
[6] Pedrosa MC,Farraye FA,Shergill AK,et al. Minimizing occupational hazards in endoscopy:personal protective equipment,radiation safety,and ergonomics [J]. Gastrointest Endosc,2010,72(2):227-235.
[7] Chen W,Zheng R,Baade PD,et al. Cancer statistics in China,2015 [J]. Ca Cancer J Clin,2015,66(2):115-132.
[8] Rex DK,Boland CR,Dominitz JA,et al. Colorectal Cancer Screening:Recommendations for Physicians and Patients From the U.S. Multi-Society Task Force on Colorectal Cancer [J]. Gastro,2017,153(1):307-323.
[9] Seeff LC,Manninen DL,Dong FB,et al. Is there endoscopic capacity to provide colorectal cancer screening to the unscreened population in the United States? [J]. Gastro,2004,127(6):1661-1669.
[10] 张修礼,孔金艳,唐平,等.我国消化内镜传统诊治项目开展现状与分析:169家医院调查报告[J].中华消化杂志,2012,32(6):365-368.
[11] 林寒,王洛伟,李兆申.结肠镜操作技能培训及评价体系的探讨[J].中华消化内镜杂志,2014,31(3):166-167.
[12] 李姗姗,张慧超,徐丹,等.传统结肠镜检查法的应用现状[J].现代生物医学进展,2017,17(6):1180-1182.
[13] 陈宏达,卢明,刘成成,等.结肠镜、免疫法粪便隐血试验和新型风险评估筛查方案在人群结直肠癌筛查中的参与率比较及其影响因素分析[J].中华流行病学杂志,2020,41(10):1655-1661.
[14] 王毅,黎顺松,张宝东,等.FOBT阳性人群结肠镜二次筛查结直肠癌的效果研究[J].中国实用医药,2019,14(36):41-43.
[15] 张晓瑞,赵丽中,周利慧,等.大肠癌初筛阳性居民的健康信念对肠镜复筛行为的影响分析[J].中国健康教育,2021,37(2):141-144,174.
[16] 邓凌,黄颖,鱼敏,等.肠镜操作者职业伤害情况的质性研究[J].现代消化及介入诊疗,2008,13(4):265-268.
[17] 闫飞虎,卞承玲,贺佳,等.结肠镜规范化培训模式的实践与探索[J].中国医学教育技术,2021,35(1):113-116.
[18] 胡俊杰,高虹,夏幼辰.结肠镜规范化教学体会及思考[J].中国继续医学教育,2021,13(20):102-106.
[19] 郭佳念,谢婷婷,贾琳,等.人工智能内镜在胃肠镜教学中的应用[J].科技视界,2021(8):123-124.
[20] 王洛伟,辛磊,林寒,等.中国消化内镜技术发展现状[J].中华消化内镜杂志,2015,32(8):501-515.
[21] 胡海燕,李伟达,李娟,等.结肠镜机器人结构设计与通过性研究[J].哈尔滨工程大学学报,2013,34(2):233-239.
[22] Gindele T,Brechtel S,Dillmann R. Learning Driver Behavior Models from Traffic Observations for Decision Making and Planning [J]. IEEE Intel Transp Sy,2015,7(1):69-79.
[23] Wang P,Liu P,Brown J,et al. Lower adenoma miss rate of computer-aided detection-assisted colonoscopy vs routine white-light colonoscopy in a prospective tandem study [J]. Gastro,2020,159(4):1252-1261.
[24] Chen G,Pham MT,Redarce T. Sensor-based guidance control of a continuum robot for a semi-autonomous colono-scopy [J]. Robot Auton Syst,2009,57(6):712-722.
[25] Rosch T,Adler A,Pohl H,et al. A motor-driven single-use colonoscope controlled with a hand-held device:a feasibility study in volunteers [J]. Gastrointest Endosc,2008,67(7):1139-1146. |
|
|
|
