坏”细菌如何堵塞心脏支架?
来自阿尔伯塔大学的科研人员近日通过研究揭示了诸如心脏支架和导尿管等医疗设备被细菌堵塞的原因,研究者AlokeKumar表示,这是一项非常重要的健康问题,而本文研究给出了明确的解释,相关研究结果刊登于ScientificReports杂志上。
通过进行一系列实验,研究者首次观察到了名为絮凝体的细菌堆积物如何吸附到医疗器械表面随后导致设备堵塞的。文章中研究者将被荧光假单胞菌絮状物污染的液体注入到微流体设备中,细菌产生的絮凝体可以吸附到微流体设备的微型圆柱结构中,随后根据微流体围绕圆柱结构流动的力量来使絮凝体被拉伸成为原始长度的7倍。
研究者指出,细菌产生的絮凝物可以吸附到表面并且成为长条状结构,而目前很少有研究对这种絮凝物的长条状结构进行研究,此前研究中研究者几乎不可能将长条状结构从周围的液体环境中区分开来,因为细菌产生的絮凝物长条状结构是半透明的,而本文中研究者利用纳米荧光标记物对细菌进行标记就改善了此前的研究。
研究者在文章中首次观察到了细菌絮凝物的长条状结构形成的机制,当微流体流经医疗设备时细菌絮凝物的堵塞就会发生,如果没有压力促进液体流动,那么絮凝物的产生就会花费数周时间,但一旦液体流动,絮凝物的长条状结构形成就会加速,最终形成类似于蜘蛛网一样的长条状结构网,堵塞医疗器械。
最后研究者表示,如今我们清楚知道细菌堵塞物形成的分子机制,后期我们将开展更多的研究来开发新型的手段来减少细菌堵塞物的形成,从而确保医疗设备使用的安全性。
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Bacterial floc mediated rapid streamer formation in creeping flows
Mahtab Hassanpourfard, Zahra Nikakhtari, Ranajay Ghosh, Siddhartha Das, Thomas Thundat, Yang Liu & Aloke Kumar
One of the central puzzles concerning the interaction of low Reynolds number fluid transport with bacterial biomass is the formation of filamentous structures called streamers. In this manuscript, we report our discovery of a new kind of low Re bacterial streamers, which appear from pre-formed bacterial flocs. In sharp contrast to the biofilm-mediated streamers, these streamers form over extremely small timescales (less than a second). Our experiments, carried out in a microchannel with micropillars rely on fluorescence microscopy techniques to illustrate that floc-mediated streamers form when a freely-moving floc adheres to the micropillar wall and gets rapidly sheared by the background flow. We also show that at their inception the deformation of the flocs is dominated by recoverable large strains indicating significant elasticity. These strains subsequently increase tremendously to produce filamentous streamers. Interestingly, we find that these fully formed streamers are not static structures and show viscous response at time scales larger than their formation time scales. Finally, we show that such novel streamer formation can lead to rapid clogging of microfluidic devices.