用于脑积水分流器的抗菌生物材料的作用方式。

Mode of action of an antimicrobial biomaterial for use in hydrocephalus shunts.

作者信息

Bayston Roger, Ashraf Waheed, Bhundia Catherine

机构信息

Biomaterials-Related Infection Group, Division of Orthopaedic and Accident Surgery, C Floor West Block, University Hospital, Nottingham NG7 2UH, UK.

出版信息

J Antimicrob Chemother. 2004 May;53(5):778-82. doi: 10.1093/jac/dkh183. Epub 2004 Mar 31.

DOI:10.1093/jac/dkh183

PMID:15056650

Abstract

OBJECTIVES

Infection remains a major complication of shunting for hydrocephalus. The causative bacteria, mainly staphylococci, gain access to the shunt at operation and colonize the shunt tubing. This leads to biofilm development requiring shunt removal. As there is no clear evidence to support antibiotic prophylaxis, we have developed an impregnated antimicrobial shunt material. This study aimed to elucidate its mode of action in terms of bacterial adherence and killing kinetics.

METHODS

Plain and impregnated material, with and without plasma protein conditioning film, were exposed to Staphylococcus epidermidis. Bacterial adherence was determined by scanning electron microscopy, chemiluminescence and culture. Time taken to kill 100% of bacteria (tK(100)) was determined by serial chemiluminescence, culture and the use of differential viability microscopy.

RESULTS

The antimicrobial material did not reduce bacterial adherence. However, 100% of attached bacteria were killed in 48-52 h, even in the presence of a conditioning film.

CONCLUSIONS

Impregnated antimicrobial material is likely to reduce shunt infection rates significantly without the risks and side effects of systemic antibiotics.

摘要

目的

感染仍然是脑积水分流术的主要并发症。致病菌主要为葡萄球菌，在手术过程中进入分流装置并在分流管上定植。这会导致生物膜形成，进而需要移除分流装置。由于没有明确证据支持抗生素预防，我们研发了一种浸渍抗菌分流材料。本研究旨在阐明其在细菌黏附和杀灭动力学方面的作用方式。

方法

将有无血浆蛋白调理膜的普通材料和浸渍材料暴露于表皮葡萄球菌。通过扫描电子显微镜、化学发光和培养来测定细菌黏附情况。通过连续化学发光、培养以及使用差异活力显微镜来确定杀灭100%细菌所需的时间（tK(100)）。

结果

抗菌材料并未降低细菌黏附。然而，即使存在调理膜，100%附着的细菌在48 - 52小时内被杀死。

结论

浸渍抗菌材料可能会显著降低分流感染率，且无全身使用抗生素的风险和副作用。

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用于脑积水分流器的抗菌生物材料的作用方式。

Mode of action of an antimicrobial biomaterial for use in hydrocephalus shunts.

作者信息

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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