Volume 9, Issue 1, February 2020, Page: 43-46
Application of Continuous Quality Improvement in Manual Cleaning of Fine Hollow Device
Zeng Xiuyue, Central Sterile Supply Department, The First Affiliated Hospital of Jinan University, Guangzhou, China
Zhang Lian, Central Sterile Supply Department, The First Affiliated Hospital of Jinan University, Guangzhou, China
Chen Chunyan, Central Sterile Supply Department, The First Affiliated Hospital of Jinan University, Guangzhou, China
Yu Haohui, Department of Hospital Infection Control, The First Affiliated Hospital of Jinan University, Guangzhou, China
Received: Jan. 14, 2020;       Accepted: Jan. 31, 2020;       Published: Feb. 11, 2020
DOI: 10.11648/j.ajns.20200901.17      View  357      Downloads  100
Abstract
Objectives: The study aims to explore the effect of continuous quality improvement on manual cleaning quality of fine hollow device in hospital central sterile supply department. In terms of methods, it mainly optimize the manual cleaning process of fine hollow device as follow: Seperated cleaning basket is employed with 3% hydrogen proxide solition to clean the blood stains and organic matters in fine hollow device. And then, 90°C pure water is used to soak the fine hollow device to dissolve and clean the solidly attached bone wax in the inner side of absorption tube. And the study primarily compares the difference between the data about optimizing the manual cleaning process of fine hollow device through continuous quality improvement, the blood (stain), tissue residue, foreign body residue, bone wax from August to September in 2019, and those from October to November in 2019. Results: The quality of fine hollow device manual cleaning in reference group are improved significantly, with outstanding differences in control group (X2=59.36, P=0.000), indicating the effectiveness of the continuous improvement measures. Conclusion: The continuous quality improvement was applied to the manual cleaning of fine hollow device, and the cleaning effect was satisfactory. The removal rate of blood (stain), tissue, foreign body and bone wax of fine hollow device was improved.
Keywords
Continuous Quality Improvement, Fine Hollow Device, Manual Cleaning, Central Sterile Supply Department, Cleaning Effect
To cite this article
Zeng Xiuyue, Zhang Lian, Chen Chunyan, Yu Haohui, Application of Continuous Quality Improvement in Manual Cleaning of Fine Hollow Device, American Journal of Nursing Science. Vol. 9, No. 1, 2020, pp. 43-46. doi: 10.11648/j.ajns.20200901.17
Copyright
Copyright © 2020 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Reference
[1]
Zhang Junying, Wang Ke, Zhou Pu. Effect of different pre-cleaning methods on lumen instruments [J]. Chinese Journal of Nosocomial Infection, 2016, 26 (19): 4551-4553.
[2]
Zhou Xue, Wei Jingrong, Ren Xiaomei. Improvement and effect observation of cleaning quality control method of surgical instruments in lumen [J]. Journal of Surgery, 2014, 23 (4): 357-359.
[3]
Liu Yanling, Wu Shuhong, Wang Zhengxu. Study on Cleaning and Disinfecting Methods of Tube and Cavity Multiplexing Instruments [J]. Chinese Journal of Nosocomial Infection, 2014, 24 (15) 3876-3878.
[4]
National Health and Family Planning Commission. Health Industry Standards of the People's Republic of China [S]. Hospital Disinfection Supply Center-Part 2: Technical Specification for Cleaning, Disinfection and Sterilization, 2016: 12.
[5]
Zhao Huijie, Wang Lihong, Zhang Jingli. Measures to improve the cleaning effect of lumen instruments [J]. Chinese Journal of Disinfection, 2018, 35 (1): 50-54.
[6]
National Health and Family Planning Commission. Health Industry Standards of the People's Republic of China [S]. Hospital Disinfection Supply Center-Part 3: Monitoring Standards for Cleaning and Disinfection and Sterilization Effects, 2016: 12.
[7]
Zhou Xiaoyu. Application effect of quality control circle activity in the improvement of cleaning quality process of lumen instruments [J]. General Nursing, 2018, 16 (23): 2923-2925.
[8]
Li Liang. Analysis of Different Cleaning Methods of Disinfection Supply Center in Brain Drawer's Cleaning Effect [J]. Medical Theory and Practice, 2019, 10 (32): 1605-1606.
[9]
Pang Lin. Improvement in prescription of bone wax [J]. Modern Chinese Applied Pharmacy, 2000, 17 (S 1): 102.
[10]
Wanfu Silver, Guo Wanshou, Zhang Qidong, Cheng Liming. Efficacy and safety evaluation of osteowax in hemostasis after total knee arthroplasty [J]. Chinese Journal of Orthopaedic Surgery, 2015, 23 (17): 1576-1580.
[11]
Jiang Weilian, Xie Lixia. Application of bone wax in titanium plate fixation in craniocerebral surgery [J]. Journal of Nursing Studies, 2011, 26 (06): 500.
[12]
Liu Tiancong, Yu Xiaofeng, Gu Zhaowei, Bai Weiliang, Wang Zhenhai, Cao Zhiwei. Causes and management of frontal sinusitis after transfrontal craniotomy [J]. Journal of Clinical Otolaryngology and Head and Neck Surgery, 2018, 32 (03): 187-189.
[13]
Yin Rongzhong, Dao Hongying. Preparation and Discussion of Bone Wax in Banna Area [J]. Chinese Journal of Ethnic Medicine, 2010, 16 (11): 33-34.
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