Preparation of a Novel Complex Antimicrobial Agent and its Antimicrobial Activity <i>In Vitro</i>

Abstract

Purpose To develop a novel complex antimicrobial agent and determine the optimal components of the composite antimicrobial agents and its antimicrobial activity in vitro. Methods According to antimicrobial mechanisms，antibacterial spectrums，physical and chemical properties and applicabilities of existing antimicrobial agents in clinical use, select out cefoperazone sodium, sulbactam sodium and cephradine as the basic components to make a novel complex antimicrobial agent. Utilize yeast, staphylococcus aureus and E. coli bacteria as test bacteria. Do the three factors four-level orthogonal experiments by the maximum amount, the middle amount, low amount and Minimum amount of the three-component agent to research the optimum ratio of the drug. Measure the titer of the compound antimicrobial agent by the way of tube-plate method (2 doses). With known contents of Penicillin Sodium for Injection as control, and determine its minimum inhibitory concentration against staphylococcus aureus, E. coli and yeast by using the agar doubling dilution method. The experimental results were analysized by statistical analysis software SPSS16.0. Results The results of the three factors four-level orthogonal experiments indicate the optimum ratios of Cefoperazone Sodium, Sulbactam Sodium and Cephradine against E. coli, yeast and staphylococcus aureus were 2:2:3, 1:2:2 and 2:6:5, their titers were 1353.9U/mg, 982.7U/mg and 1015.5U/mg. With the highest titer proportion 2:2:3 as the composition of the antimicrobial compound. This compound antimicrobial agent had a good antimicrobial activity against Gram-positive bacteria, Gram-negative bacteria and Fungi, its minimal inhibitory concentration (MIC) against staphylococcus aureus, E. coli and yeast were 2.000μg/ml, 0.500μg/ml and 16.000μg/ml. Conclusion This research acquires a composite of antibiotics. This antimicrobial compound has a broader spectrum and higher antimicrobial activity in vitro comparing with traditional common single antibiotics, and it especially has a good antimicrobial activity against fungi. The results set a scientific foundation for enriching clinical medicines.