Effects of environmental factors on the in vitro potency of azithromycin

Abstract

The effects of media, pH, cations, serum, CO₂ or anaerobic atmosphere, inoculum size and time of incubation on the in vitro potency of azithromycin were determined. The potency of azithromycin against all genera was particularly sensitive to changes in pH. The MIC forStaphylococcus aureus strains ranged from 50 µg/ml at pH 6 to ≤ 0.025 µg/ml at pH 8; for erythromycin the MIC change was less (1.6 to 0.05 µg/ml). Incubation for 18 h in 5 % CO₂ or an anaerobic atmosphere (10 % CO₂, 10 % H₂, 80 % N₂) lowered the pH by approximately 0.8 units with gram-negative organisms and 0.4 units with gram-positive organisms. This resulted in an MIC eight times greater than the aerobic MIC. In addition, the MIC100 for azithromycin and erythromycin againstBacteroides strains growing in Wilkins-Chalgren broth fell from 3.1 µg/ml in the anaerobic atmosphere to 0.2 and 0.4 µg/ml, respectively, when using the Oxyrase enzyme system to remove oxygen. With the Oxyrase system, the pH of the medium at the MIC remained at 7.2, while it fell to 6.7 in the anaerobic gas mixture. An increase in potency for both agents was also observed with other anaerobic species when using the Oxyrase system. The addition of serum produced an increase in potency of azithromycin and erythromycin that correlated with an increase in pH during incubation, despite the use of buffered media. Adding cations to Mueller-Hinton broth resulted in increased MICs for gram-negative organisms; the highest increases observed were four-fold forEscherichia coli. The activity of control antibiotics was not affected to the same degree as that of azithromycin. Increasing the incubation period from 24 to 48 h did not change the MIC values of azithromycin forStaphylococcus aureus orEscherichia coli; however, the MBC values were lower at 48 h and equalled the MIC values. Inoculum size or manner of preparation had no significant effect on the potency of azithromycin.