Ye Tian1,2, Xiang Cai1, Romel Wazir3, Kunjie Wang4, Hong Li1. 1. Department of Urology, West China Hospital, Sichuan University, Chengdu, Sichuan, People's Republic of China. 2. Department of Urology, Guizhou Provincial People's Hospital, Guiyang, Guizhou, People's Republic of China. 3. Field Hospital, Mari Petroleum Company Limited, District Ghotki, Daharki, Sindh, Pakistan. 4. Department of Urology, West China Hospital, Sichuan University, Chengdu, Sichuan, People's Republic of China. wangkj@scu.edu.cn.
Abstract
OBJECTIVES: To address to a better understanding of whether increased water consumption is associated with beneficial effects of urinary tract infections prophylaxis and treatment, and if so, the mechanism involved in this process. METHODS: Models of the catheterized bladder were infected with Escherichia coli. Artificial urine was supplied at various flow rates and various concentrations to separately assess the "flushing effect" and "dilution effect" of increased water consumption on catheter blockage time, encrustation formation, and bacterial growth. RESULTS: There were no statistical significances regarding catheter blockage time (P = 0.92), encrustation formation, and bacterial growth among bladder models supplied with various flow rates. When the flow rate was set as 1 ml/min, however, there showed significant decrease trend of the time to blockage (P = 0.0005), encrustation formation, and bacterial growth as the concentration of the artificial urine increased except the twofold-concentration urine group. CONCLUSIONS: Increased water consumption is associated with beneficial effects of urinary tract infection prophylaxis and treatment, and dilution effect of bacteria nutrition in the urine is at least partly involved in this process if not all, rather than the "flushing effect". Considering the flaws and the in vitro design of the current study, however, an in vivo study is warranted.
OBJECTIVES: To address to a better understanding of whether increased water consumption is associated with beneficial effects of urinary tract infections prophylaxis and treatment, and if so, the mechanism involved in this process. METHODS: Models of the catheterized bladder were infected with Escherichia coli. Artificial urine was supplied at various flow rates and various concentrations to separately assess the "flushing effect" and "dilution effect" of increased water consumption on catheter blockage time, encrustation formation, and bacterial growth. RESULTS: There were no statistical significances regarding catheter blockage time (P = 0.92), encrustation formation, and bacterial growth among bladder models supplied with various flow rates. When the flow rate was set as 1 ml/min, however, there showed significant decrease trend of the time to blockage (P = 0.0005), encrustation formation, and bacterial growth as the concentration of the artificial urine increased except the twofold-concentration urine group. CONCLUSIONS: Increased water consumption is associated with beneficial effects of urinary tract infection prophylaxis and treatment, and dilution effect of bacteria nutrition in the urine is at least partly involved in this process if not all, rather than the "flushing effect". Considering the flaws and the in vitro design of the current study, however, an in vivo study is warranted.
Authors: Jacob E Simmering; Linnea A Polgreen; Joseph E Cavanaugh; Bradley A Erickson; Manish Suneja; Philip M Polgreen Journal: J Urol Date: 2020-09-18 Impact factor: 7.450