悬浮和生物膜纳米运动的快速检测及抗生素抗性评估

Rapid Detection of Suspension and Biofilm Nanomotion and Antibiotic Resistance Estimation.

作者信息

Pleskova Svetlana N, Bezrukov Nikolay A, Nikolaeva Ekaterina D, Boryakov Alexey V, Kuzina Olga V

机构信息

Research Laboratory of Scanning Probe Microscopy, Lobachevsky State University of Nizhny Novgorod, 603022 Nizhny Novgorod, Russia.

Department "Nanotechnology and Biotechnology", Nizhny Novgorod State Technical University named after Alekseev R.E., 603155 Nizhny Novgorod, Russia.

出版信息

Biomedicines. 2024 Sep 6;12(9):2034. doi: 10.3390/biomedicines12092034.

DOI:10.3390/biomedicines12092034

PMID:39335547

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11429443/

Abstract

OBJECTIVES

To develop a system for the rapid detection of 173-p1 antibiotic resistance (to ensure reliable fixation of bacteria on a cantilever without losing their nanomotion, to show that nanomotion is due to bacterial metabolism, to compare the nanomotion of bacteria in suspension form and inside of the biofilms), to study the sensitivity/resistance of 173-p1 to antibiotics (lincomycin, ceftriaxone and doxycycline) using the oscillation method of atomic force microscopy and to evaluate the sensitivity and speed of the method in comparison with the classical disk diffusion method.

METHODS

The oscillation mode of atomic force microscopy, scanning electron microscopy and the classical disk diffusion method were used for a complex parallel study of 173-p1 antibiotic resistance, which included testing of fixing agents (poly-L-lysine, rosin and fibronectin), comparison of bacterial metabolism in a set of media (normal saline solution, meat-peptone broth and lysogeny broth) and assessment of antibiotic sensitivity/resistance per se.

RESULTS

A method for express testing of antibiotic resistance using AFM was developed; it is shown that bacterial nanomotion directly correlates with bacteria metabolic activity and that bacterial nanomotion is more easily detected in suspension form, rather than in biofilms.

CONCLUSION

The express testing method gave results that are completely comparable with the classical disk diffusion test and with the results of morphology studies by the SEM method, but it significantly exceeded them in speed, allowing a conclusion to be made on the sensitivity/resistance of bacteria less than an hour after the start of the diagnostics.

摘要

目的

开发一种用于快速检测173 - p1抗生素耐药性的系统（以确保细菌可靠地固定在悬臂上而不丧失其纳米运动，证明纳米运动是由于细菌代谢引起的，比较悬浮形式和生物膜内细菌的纳米运动），使用原子力显微镜的振荡方法研究173 - p1对抗生素（林可霉素、头孢曲松和强力霉素）的敏感性/耐药性，并与经典纸片扩散法相比评估该方法的敏感性和速度。

方法

使用原子力显微镜的振荡模式、扫描电子显微镜和经典纸片扩散法对173 - p1抗生素耐药性进行复杂的平行研究，其中包括测试固定剂（聚 - L - 赖氨酸、松香和纤连蛋白），比较一组培养基（生理盐水溶液、肉蛋白胨肉汤和溶原肉汤）中细菌的代谢情况以及评估抗生素本身的敏感性/耐药性。

结果

开发了一种使用原子力显微镜快速检测抗生素耐药性的方法；结果表明细菌的纳米运动与细菌代谢活性直接相关，并且细菌的纳米运动在悬浮形式下比在生物膜中更容易检测到。

结论

快速检测方法得到的结果与经典纸片扩散试验以及扫描电子显微镜法的形态学研究结果完全可比，但在速度上明显超过它们，能够在诊断开始后不到一小时就得出关于细菌敏感性/耐药性的结论。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0232/11429443/839d564a2386/biomedicines-12-02034-g001.jpg

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悬浮和生物膜纳米运动的快速检测及抗生素抗性评估

Rapid Detection of Suspension and Biofilm Nanomotion and Antibiotic Resistance Estimation.

作者信息

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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