超声冲洗提高了微生物输尿管支架定植的检出率。

Improved detection of microbial ureteral stent colonisation by sonication.

机构信息

Department of Urology, University Hospital Basel, Spitalstrasse 21, 4031, Basel, Switzerland.

出版信息

World J Urol. 2011 Feb;29(1):133-8. doi: 10.1007/s00345-010-0535-5. Epub 2010 Mar 21.

DOI:10.1007/s00345-010-0535-5

PMID:20306317

Abstract

PURPOSE

The diagnosis of microbial ureteral stent colonisation (MUSC) is difficult, since routine diagnostic techniques do not accurately detect microorganisms embedded in biofilms. New methods may improve diagnostic yield and understanding the pathophysiology of MUSC. The aim of the present study was to evaluate the potential of sonication in the detection of MUSC and to identify risk factors for device colonisation.

METHODS

Four hundred and eight polyurethane ureteral stents of 300 consecutive patients were prospectively evaluated. Conventional urine culture (CUC) was obtained prior to stent placement and device removal. Sonication was performed to dislodge adherent microorganisms. Data of patient sex and age, indwelling time and indication for stent placement were recorded.

RESULTS

Sonicate-fluid culture detected MUSC in 36%. Ureteral stents inserted during urinary tract infection (UTI) were more frequently colonised (59%) compared to those placed in sterile urine (26%; P<0.001). Female sex (P<0.001) and continuous stenting (P<0.005) were significant risk factors for MUSC; a similar trend was observed in patients older than 50 years (P=0.16). MUSC and indwelling time were positively correlated (P<0.005). MUSC was accompanied by positive CUC in 36%. Most commonly isolated microorganisms were Coagulase-negative staphylococci (18.3%), Enterococci (17.9%) and Enterobacteriaceae (16.9%).

CONCLUSIONS

Sonication is a promising approach in the diagnosis of MUSC. Significant risk factors for MUSC are UTI at the time of stent insertion, female sex, continuous stenting and indwelling time. CUC is a poor predictor of MUSC. The clinical relevance of MUSC needs further evaluation to classify isolated microorganism properly as contaminants or pathogens.

摘要

目的

微生物输尿管支架定植（MUSC）的诊断较为困难，因为常规诊断技术无法准确检测到生物膜中嵌入的微生物。新方法可能会提高诊断率并加深对 MUSC 病理生理学的理解。本研究旨在评估超声处理在 MUSC 检测中的潜在作用，并确定器械定植的危险因素。

方法

前瞻性评估了 300 例连续患者的 408 个聚氨酯输尿管支架。在放置支架前和取出支架时，分别进行常规尿液培养（CUC）。采用超声处理技术使附着的微生物脱落。记录患者的性别和年龄、留置时间以及放置支架的适应证等数据。

结果

超声处理液培养检测到 MUSC 的比例为 36%。与放置在无菌尿液中的支架（26%）相比，因尿路感染（UTI）而插入的输尿管支架更易定植（59%；P<0.001）。女性（P<0.001）和持续留置（P<0.005）是 MUSC 的显著危险因素；年龄>50 岁的患者也存在类似的趋势（P=0.16）。MUSC 与留置时间呈正相关（P<0.005）。MUSC 与 CUC 阳性结果相关（36%）。最常见的分离微生物是凝固酶阴性葡萄球菌（18.3%）、肠球菌（17.9%）和肠杆菌科（16.9%）。

结论

超声处理是诊断 MUSC 的一种很有前途的方法。MUSC 的主要危险因素包括支架置入时的 UTI、女性、持续留置和留置时间。CUC 对 MUSC 的预测价值较差。需要进一步评估 MUSC 的临床相关性，以正确分类分离的微生物是污染物还是病原体。

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超声冲洗提高了微生物输尿管支架定植的检出率。

Improved detection of microbial ureteral stent colonisation by sonication.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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