基于重水拉曼技术评价次氯酸钠对粪肠球菌抑菌效能的研究

ObjectiveTo systematically evaluate the feasibility of D₂O-labeled single-cell Raman micro-spectroscopy in drug resistance research and test the susceptibility ofEnterococcus faecalis(E. faecalis)to sodium hypochlorite.

Methods1) The growth ofE. faecalisin different doses of D₂O and the regularity of D₂O intake were evaluated through absorbance measurement and D₂O-labeled single-cell Raman micro-spectroscopy to examine the universality of D₂O-labeled single-cell Raman micro-spectroscopy in bacterial resistance research. 2) Broth dilution method and absorbance measurement were performed to determine the minimum inhibitory concentration (MIC) of NaClO againstE. faecalisand the MIC based on metabolic activity (MIC-MA)in vitrovia D₂O-labeled single-cell raman micro-spectroscopy.

Results1) The growth ofE. faecaliswas not significantly inhibited by ≤40% D₂O in the medium.E. faecaliscould actively metabolize D₂O and exhibit a C-D ratio in specific areas of Raman micro-spectroscopy results. The C-D ratio ofE. faecalisat the stationary phase was positively correlated with D₂O concentration. 2) The MIC and MIC-MA of NaClO againstE. faecaliswere 0.45 and 0.9 g·L^-1, respectively. The concentration of MIC-MA was twice that of MIC.

ConclusionD₂O-labeled single-cell Raman micro-spectroscopy is important in screening antimicrobial agents and evaluating the efficacy of antimicrobial agents. It is suitable for evaluating the effect of drugs on bacterial metabolic activities. NaClO showed an effective antimicrobial activity againstE. faecalis.E. faecalisceased propagation yet remained highly metabolically active when it was exposed to NaClO at the MIC level. The metabolic activity of most cells was inhibited only when they were exposed to NaClO at the MIC-MA level.