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Micro-patterned surfaces reduce bacterial colonization and biofilm formation in vitro: Potential for enhancing endotracheal tube designs

机译：具有微图案的表面可在体外减少细菌定植和生物膜形成：增强气管导管设计的潜力

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BackgroundVentilator-associated pneumonia (VAP) is a leading hospital acquired infection in intensive care units despite improved patient care practices and advancements in endotracheal tube (ETT) designs. The ETT provides a conduit for bacterial access to the lower respiratory tract and a substratum for biofilm formation, both of which lead to VAP. A novel microscopic ordered surface topography, the Sharklet micro-pattern, has been shown to decrease surface attachment of numerous microorganisms, and may provide an alternative strategy for VAP prevention if included on the surface of an ETT. To evaluate the feasibility of this micro-pattern for this application, the microbial range of performance was investigated in addition to biofilm studies with and without a mucin-rich medium to simulate the tracheal environment in vitro.

机译：背景技术尽管改善了患者护理实践，并且气管插管（ETT）的设计有所进步，但呼吸机相关性肺炎（VAP）是医院在重症监护病房中获得的领先感染。 ETT为细菌进入下呼吸道提供了导管，并为生物膜形成提供了基质，两者均导致VAP。一种新颖的微观有序表面形貌，Sharklet微图案，已显示出可以减少许多微生物的表面附着，并且如果包含在ETT的表面上，则可以提供另一种预防VAP的策略。为了评估该微模式在该应用中的可行性，除了使用和不使用富含粘蛋白的培养基来模拟气管环境的生物膜研究以外，还研究了微生物的性能范围。

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期刊名称 Clinical and Translational Medicine
作者
Rhea M May; Matthew G Hoffman; Melinda J Sogo; Albert E Parker; George A O’Toole; Anthony B Brennan; Shravanthi T Reddy;
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作者单位

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年(卷),期 2014(3),-1
年度 2014
页码 8
总页数 9
原文格式 PDF
正文语种
中图分类
关键词
Micro-pattern Sharklet VAP Endotracheal tube Biofilm inhibition;

机译：微模式;鲨鱼;VAP;气管导管;生物膜抑制;

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专利

1. Micro-patterned surfaces reduce bacterial colonization and biofilm formation in vitro: Potential for enhancing endotracheal tube designs [J] . Rhea M May, Matthew G Hoffman, Melinda J Sogo, Clinical and Translational Medicine . 2014,第1期

机译：微图案化的表面可在体外减少细菌定植和生物膜形成：增强气管导管设计的潜力
2. Does Implant Coating With Antibacterial-Loaded Hydrogel Reduce Bacterial Colonization and Biofilm Formation in Vitro? [J] . Drago Lorenzo, Boot Willemijn, Dimas Kostantinos, Clinical Orthopaedics and Related Research . 2014,第11期

机译：植入抗菌涂层的水凝胶是否能减少细菌定植和生物膜形成？
3. Does Implant Coating With Antibacterial-Loaded Hydrogel Reduce Bacterial Colonization and Biofilm Formation in Vitro? [J] . Drago Lorenzo, Boot Willemijn, Dimas Kostantinos, Clinical Orthopaedics and Related Research . 2014,第11期

机译：植入抗菌涂层的水凝胶是否能减少细菌定植和生物膜形成？
4. Nanomodified Endotracheal Tubes: Spatial Analysis of Reduced Bacterial Colonization in a Bench Top Airway Model [C] . Mary C. Machado, Keiko M Tarquinio, Thomas J. Webster MRS meeting . 2012

机译：纳米型气管管：长凳顶部气道模型中减少细菌定植的空间分析
5. Streptococcal colonization of host mucosal surfaces: A study of biofilm formation and dispersal. [D] . Roberts, Amity Leann. 2010

机译：宿主黏膜表面的链球菌定植：生物膜形成和扩散的研究。
6. Does Implant Coating With Antibacterial-Loaded Hydrogel Reduce Bacterial Colonization and Biofilm Formation in Vitro? [O] . Lorenzo Drago, Willemijn Boot, Kostantinos Dimas, 2014

机译：植入抗菌涂层的水凝胶是否能减少细菌定植和生物膜形成？
7. Micro-patterned surfaces reduce bacterial colonization and biofilm formation in vitro: Potential for enhancing endotracheal tube designs [O] . May, Rhea M., Hoffman, Matthew G., Sogo, Melinda J., 2014

机译：具有微图案的表面可在体外减少细菌定植和生物膜形成：增强气管导管设计的潜力
8. Human Plasma Enhances the Expression of Staphylococcal Microbial Surface Components Recognizing Adhesive Matrix Molecules Promoting Biofilm Formation and Increases Antimicrobial Tolerance In Vitro. [R] . Cardile, A. P., Sanchez, J., Samberg, M. E., 2014

机译：人血浆增强葡萄球菌微生物表面组分的表达识别粘附基质分子促进生物膜形成和增加体外抗菌耐受性。

Micro-patterned surfaces reduce bacterial colonization and biofilm formation in vitro: Potential for enhancing endotracheal tube designs

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