1The University of Illinois at Chicago, College of Pharmacy, Department of Pharmacy Practice (M/C 886), Microbiology Research Laboratory, 833 South Wood Street, Chicago, IL 60612; 2The University of Houston College of Pharmacy, Department of Clinical Sciences and Administration, Houston, TX, USA
Sir,
ABT-773, a novel ketolide, has demonstrated in vitro activity against a variety of anaerobic bacteria.13 While several studies have investigated the susceptibility profile of ABT-773, additional data on the activity of this new ketolide against anaerobes would be useful. The purpose of this study was to compare the in vitro bactericidal activity and post-antibiotic effect (PAE) of ABT-773 and co-amoxiclav against common anaerobes.
ABT-773 (Abbott Laboratories, Abbott Park, IL, USA) and co-amoxiclav (United States Pharmacopeia, Rockville, MD, USA) powders were prepared according to NCCLS guidelines or manufacturers recommendations.4 The antimicrobial concentrations studied were 2 x and 8 x MIC. Two clinical strains each of Peptostreptococcus anaerobius and Bacteroides fragilis were tested. Each bacterial suspension at log-phase growth was diluted in prereduced WilkinsChalgren broth (Acumedia, Baltimore, MD, USA) to obtain a final inoculum of c. 5 x 105 cfu/mL for MIC and timekill studies and 5 x 106 cfu/mL for PAE determinations. All procedures were performed in duplicate in a Bactron anaerobic chamber (Sheldon Manufacturing, Cornelius, OR, USA), containing an atmosphere of 5% carbon dioxide, 10% hydrogen and 85% nitrogen.
The MICs of ABT-773 and co-amoxiclav were determined by the microbroth dilution method.4 The control organism, B. fragilis ATCC 25285, was used for validation of MIC results. Timekill assays were performed according to NCCLS guidelines.5 The inoculum was confirmed at time zero; subsequent viable counts were performed at 2, 6 and 24 h. Antibiotic carryover was prevented by saline dilutions. The rate and extent of killing were determined by plotting viable count (log10 cfu/mL) against time (h). The lower limit of detection was 1.3 log10 cfu/mL. Bactericidal activity was defined as a 3 log10 decrease in cfu/mL, whereas bacteriostatic activity was defined as a <3 log10 decrease in cfu/mL.
The PAEs of the agents were determined using a method of repeated washing.6 Following a 1 h exposure period, the antibiotics were removed by washing three times. Viable counts were performed at this time and every hour thereafter until the broth became cloudy. The PAE was defined as T C, with T as the time required for the count in the test culture to increase 1 log10 above the count observed immediately after drug removal, and C as the time for the count in the untreated control to increase 1 log10 above the count observed immediately after the wash procedure.6
The ABT-773 MIC (mg/L) ranges were 0.0040.008 and 1.0 for P. anaerobius and B. fragilis, respectively. The true MICs are probably lower, as CO2 is known to raise the MICs of macrolides and ketolides. The co-amoxiclav MIC (mg/L) ranged from 0.125/0.06 to 1.0/0.5 for the four anaerobes. The ABT-773 PAE (h) against P. anaerobius ranged from 1.502.66 at 8 x MIC to 1.032.15 at 2 x MIC. Against B. fragilis, the PAE (h) of ABT-773 ranged from 2.013.27 at 8 x MIC to 1.522.14 at 2 x MIC. These data indicate a trend towards concentration-dependent PAEs with ABT-773. In comparison, the PAEs of co-amoxiclav were <1 h for all isolates, with ranges (h) of 0.310.53 against P. anaerobius and 0.040.4 against B. fragilis.
The results of the timekill experiments are shown in Figure 1. The killing rate of ABT-773 8 x MIC was higher against both strains of P. anaerobius. Regrowth was observed in both P. anaerobius strains with ABT-773 2 x MIC at 24 h. Bactericidal activity was observed with co-amoxiclav against three of the anaerobes. A high MBC (16/5.3 mg/L) was responsible for the lack of activity against one of the P. anaerobius (PA 3871) strains.
|
Credito et al.8 conducted timekill studies with telithromycin against 11 Gram-negative and Gram-positive anaerobic bacteria, including one strain of B. fragilis and two strains of Peptostreptococcus sp. At 24 h, telithromycin at 8 x and 2 x MIC demonstrated bactericidal activity for five and three strains, respectively. Individual data were only available for one strain of Peptostreptococcus magnus. Timekill curves for this strain exhibited bactericidal activity with telithromycin concentrations of 4 x and 8 x MIC at 24 h. Similarly, bactericidal activity was achieved with ABT-773 8 x MIC against both P. anaerobius strains in our study.
In conclusion, ABT-773 8 x MIC demonstrated bactericidal activity and moderate PAEs against clinical isolates of P. anaerobius and B. fragilis. Further studies are needed to determine the potential role of ABT-773 in anaerobic infections.
Acknowledgements
The authors would like to thank Dr David Hecht (Chicago, IL, USA) for providing the anaerobic isolates. This work was presented in part at the poster session of the 41st Interscience Conference on Antimicrobial Agents and Chemotherapy, Chicago, IL, USA, December 2001. This work was supported by a grant from Abbott Laboratories.
Footnotes
* Corresponding author. Tel: +1-312-996-8639; Fax: +1-312-413-1797; E-mail: pendland{at}uic.edu
References
1
.
Citron, D. M. & Appleman, M. D. (2001). Comparative in vitro activities of ABT-773 against 362 isolates of anaerobic bacteria. Antimicrobial Agents and Chemotherapy 45, 3458.
2 . Sillerström, E., Wahlund, E. & Nord, C. E. (2000). In vitro activity of ABT-773 against anaerobic bacteria. European Journal of Clinical Microbiology and Infectious Diseases 19, 6357.[ISI][Medline]
3
.
Goldstein, E. J. C., Citron, D. M., Merriam, C. V., Warren, Y. & Tyrrell, K. (2000). Comparative in vitro activities of ABT-773 against aerobic and anaerobic pathogens isolated from skin and soft-tissue animal and human bite wound infections. Antimicrobial Agents and Chemotherapy 44, 25259.
4 . National Committee for Clinical Laboratory Standards. (2001). Methods for Antimicrobial Susceptibility Testing of Anaerobic BacteriaFifth Edition: Approved Standard M11-A4. NCCLS, Wayne, PA.
5 . National Committee for Clinical Laboratory Standards. (1999). Methods for Determining Bactericidal Activity of Antimicrobial Agents: Approved Guideline M26-A. NCCLS, Wayne, PA.
6 . Craig, W. A. & Gudmundsson, S. (1996). Postantibiotic effect. In Antibiotics in Laboratory Medicine, 4th edn (Lorian, V., Ed.), pp. 296329. Williams & Wilkins Co., Baltimore, MD.
7 . Boswell, F. J., Andrews, J. M. & Wise, R. (1998). Pharmacodynamic properties of HMR 3647, a novel ketolide, on respiratory pathogens, enterococci and Bacteroides fragilis demonstrated by studies of timekill kinetics and postantibiotic effect. Journal of Antimicrobial Chemotherapy 41, 14953.[Abstract]
8
.
Credito, K. L., Ednie, L. M., Jacobs, M. R. & Appelbaum, P. C. (1999). Activity of telithromycin (HMR 3647) against anaerobic bacteria compared to those of eight other agents by timekill methodology. Antimicrobial Agents and Chemotherapy 43, 202731.