金纳米星作为光剂在808 nm红外激光辐射下的抗菌作用

A. V. Simonenko, Grigoriy K. Savelyev, El-Khih Ayya Nidal, V. Khanadeev, E. Tuchina
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摘要

在浓度为5,36×1010 pcs/ml、最大吸收为840 nm的条件下,合成了平均芯径为122,2 nm、峰长为114,6 nm的金纳米晶体。用硫代聚乙二醇包覆金纳米星,每粒约8×104分子,胶体中约4,4×1015分子/ml。PEG-SH包覆的纳米金的zeta电位为- 2.3 mV。研究了金纳米星与低强度红外(808 nm)激光对金黄色葡萄球菌209p和大肠杆菌113-13的联合作用。在没有光照的情况下,在纳米颗粒存在的情况下对微生物悬浮液进行孵育,并没有导致细菌数量的显著减少。将含有纳米颗粒的细菌悬浮液照射30分钟可导致39%的金黄色葡萄球菌和80%的大肠杆菌死亡。在研究悬浮液的测温过程中,发现温度升高是剂量依赖性的。在整个实验过程中,不含光热剂的对照样品的温度升高都不超过1°C。对于在辐照期间与金纳米星孵育的细菌悬浮液(金黄色葡萄球菌和大肠杆菌),温度指标平均增加4°C。金纳米星与红外(808 nm)激光辐射结合对大肠杆菌的抗菌活性更明显,也可以用革兰氏阴性微生物对光热暴露的更大敏感性来解释。
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Gold nanostars as a photoagent under the antimicrobial action of infrared (808 nm) laser radiation
Gold nanostars with an average core diameter of 122,2 nm and a spike length of 114,6 nm were synthesized and characterized at a concentration of 5,36×1010 pcs/ml with an absorption maximum of 840 nm. Gold nanostars were coated with thiolated polyethylene glycol, its amount was about 8×104 molecules per 1 particle and about 4,4×1015 molecules/ml in the colloid. The zeta potential of gold nanostars coated with PEG-SH was −2.3 mV. The combined effect of gold nanostars and low-intensity infrared (808 nm) laser radiation on the bacteria Staphylococcus aureus 209 P and Escherichia coli 113-13 has been studied. Incubation of suspensions of microorganisms in the presence of nanoparticles without access to light did not lead to a significant reduction in the number of bacteria. Irradiation for 30 min of bacterial suspensions containing nanoparticles caused the death of 39% of the S. aureus population and 80% of the E. coli population. During the thermometry of the studied suspensions, it was found that the temperature increase is dose-dependent. The increase in temperature of the control samples that did not contain photothermal agents did not exceed 1 °C in both cases throughout the entire time of the experiment. For suspensions of bacteria (equally S. aureus and E. coli) incubated with gold nanostars during irradiation, an increase in temperature indicators, on average, by 4 °C was revealed. The more pronounced antibacterial activity of the combination of gold nanostars and infrared (808 nm) laser radiation against E. coli can also be explained by the greater sensitivity of gram-negative microorganisms to photothermal exposure.
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