Application of a nanotechnology antimicrobial spray to prevent lower urinary tract infection: a multicenter urology trial

Wei He,Yan Tao,Weiping Su,Xuejing Wang,Zhangqun Ye,Ling Qiu,Xiaofeng Shi,Peng Wan,Dongmin Wang,Siyi Li,Li Lan,Hua Zhang,Yi Zuo,Zhenni Ye,Jin Chen,Xia Li,Zhicong Li,Ling Liu,Yueping Zhang,Ping Li,Caixia Gao,Qing Yang,Zhiping Wang,Qingli Chen,Zhengzheng Ren,Nianzhen Chen,Xiaojiong Jia ,Adrian Y S Yip ,Louis W C Chow ,Bin Wen ,Enoch Ng ,Xiaoling Ma ,Wei Qian ,Likun Ma ,Mary Cheung ,J P Chen ,Wings T.y Loo

doi:10.1186/1479-5876-10-s1-s14

Abstract

BackgroundCatheter-associated urinary tract infection (CAUTI) is a common nosocomial device-associated infection. It is now recognized that the high infection rates were caused by the formation of biofilm on the surface of the catheters that decreases the susceptibility to antibiotics and results in anti-microbial resistance.In this study, we performed an in vitro test to explore the mechanism of biofilm formation and subsequently conducted a multi-center clinical trial to investigate the efficacy of CAUTI prevention with the application of JUC, a nanotechnology antimicrobial spray.MethodsSiliconized latex urinary catheters were cut into fragments and sterilized by autoclaving. The sterilized sample fragments were randomly divided into the therapy and control group, whereby they were sprayed with JUC and distilled water respectively and dried before use.The experimental standard strains of Escherichia coli (E. coli) were isolated from the urine samples of patients. At 16 hours and 7 days of incubation, the samples were extracted for confocal laser scanning microscopy.A total of 1,150 patients were accrued in the clinical study. Patients were randomized according to the order of surgical treatment. The odd array of patients was assigned as the therapy group (JUC), and the even array of patients was assigned as the control group (normal saline).ResultsAfter 16 hours of culture, bacterial biofilm formed on the surface of sample fragments from the control group. In the therapy group, no bacterial biofilm formation was observed on the sample fragments. No significant increase in bacterial colony count was observed in the therapy group after 7 days of incubation.On the 7th day of catheterization, urine samples were collected for bacterial culture before extubation. Significant difference was observed in the incidence of bacteriuria between the therapy group and control group (4.52% vs. 13.04%, p < 0.001).ConclusionsIn this study, the effectiveness of JUC in preventing CAUTI in a hospital setting was demonstrated in both in vitro and clinical studies.

Highlights

Catheter-associated urinary tract infection (CAUTI) is a common nosocomial device-associated infection
In vitro test results After 16 hours of culture, bacterial biofilm formed on the surface of sample fragment in the control group
No bacterial biofilm formation was observed on the sample fragments

Summary

Introduction

We performed an in vitro test to explore the mechanism of biofilm formation and subsequently conducted a multi-center clinical trial to investigate the efficacy of CAUTI prevention with the application of JUC, a nanotechnology antimicrobial spray. Catheter-associated urinary tract infection (CAUTI) is a common nosocomial device-associated infection. Urinary tract infection (UTI) accounts for up to 40% of nosocomial infections and is one of the main types of healthcare-associated infections (HAI). About 80% of UTIs are catheter-associated [1,2]. In the United States, approximately 95% of UTIs were associated with the indwelling catheters [3], and interestingly, 15-25% of patients in short-term hospital care need to be inserted with indwelling urinary catheters [4]. The findings of a European study indicated that 5.4% of patients aged 65 or above required the use of an indwelling urinary catheter [7]

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Discussion

Conclusion