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medizin.uni-ulm.de
BACKGROUND: Due to its unique pharmacokinetic properties, azithromycin may be an attractive combination partner for H. pylori eradication regimens. However, up to 15% of clinical isolates are primarily resistant to azithromycin as well as to other macrolide antibiotics. Combination therapy with lansoprazole, a proton pump inhibitor known to have intrinsic antibacterial activity against H. pylori, may be useful to counteract such resistance. We therefore evaluated the combined effects of azithromycin and lansoprazole in vitro. MATERIALS AND METHODS: Minimal inhibitory concentrations (MICs) of azithromycin and lansoprazole alone and in combination were determined for 106 clinical H. pylori isolates by means of an agar dilution technique. Killing kinetics of seven isolates were also studied in fluid medium. RESULTS: MIC values for 50 and 90% of the isolates (MIC50, MIC90) were 0.19 and 0.5 mg/l for azithromycin, and 44.5 and 104 mg/l for lansoprazole. Nine strains (8.5%) had an MIC of azithromycin > or = 16 mg/l and were regarded as resistant. An additive interaction between the two drugs was found in 72 (68%), and indifferent effects in 24 strains (23%). Three of 9 azithromycin-resistant strains regained sensitivity in the presence of lansoprazole. In fluid culture, synergism between the two drugs occurred in 6 out of 7 strains tested. CONCLUSION: In the majority of strains, lansoprazole and azithromycin interacted in an additive or synergistic manner depending on the test method employed. Addition of lansoprazole restored in vitro sensitivity to azithromycin in 3 out of 9 azithromycin-resistant strains. Such effects may enhance the elimination of H. pylori during clinical eradication therapy.
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Antimicrob Agents Chemother. 2002 Oct;46(10):3185-92.
Bactericidal effect and pharmacodynamics of cethromycin (ABT-773) in a murine pneumococcal pneumonia model.
Kim MK, Zhou W, Tessier PR, Xuan D, Ye M, Nightingale CH, Nicolau DP.
Department of Pharmacy Research, Division of Infectious Diseases, Office for Research, Hartford Hospital, Connecticut 06102, USA.
Cethromycin (ABT-773), a new ketolide, possesses potent in vitro activity against Streptococcus pneumoniae. The objective of this study was to investigate the in vivo bactericidal activity of cethromycin against macrolide-susceptible and -resistant S. pneumoniae in a murine pneumonia model and to describe the pharmacodynamic (PD) profile of cethromycin. Eight (two macrolide susceptible, six macrolide resistant) clinical isolates of S. pneumoniae were investigated. Cyclophosphamide administration rendered ICR mice transiently neutropenic prior to intratracheal inoculation with 0.05 ml of an S. pneumoniae suspension containing 10(7) to 10(8) CFU/ml. Oral cethromycin was initiated 12 to 14 h postinoculation over a dosage range of 0.1 to 800 mg/kg of body weight/day. Lungs from seven to eight mice per treatment and control groups were collected at 0 and 24 h posttherapy to assess bacterial density. The cumulative mortality (n = 12 to 13) was assessed at 120 h (end of therapy) and at 192 h (3 days posttherapy). Recovery of pneumococci from the lungs of infected animals prior to the initiation of therapy ranged from 4.6 to 7.2 log(10) CFU. Growth in untreated control animals over a 24-h study period increased 0.3 to 2.7 log(10) CFU. Cethromycin demonstrated a substantial bactericidal effect, regardless of macrolide susceptibility. Correlation between changes in bacterial density (24 h) and survival over both 120 and 192 h were statistically significant. All three PD parameters demonstrated a significant correlation with changes in log(10) CFU/lung (Spearman's correlation coefficient, P < 0.001); however, the goodness of fit as assessed with the maximum effect (E(max)) model revealed that the maximum concentration of free drug in serum (C(max free))/MIC and the area under the free drug concentration-time curve (AUC(free))/MIC best explained the relationship between drug exposure and reductions in viable bacterial counts. These data reveal that an approximate cethromycin AUC(free)/MIC of 50 or C(max free)/MIC of 1 results in bacteriostatic effects, while higher values (twofold) maximize survival.
online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12234843&dopt=Abstract
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uni-muenster.de
Macrolide antibiotics are known to have a different proarrhythmic potential in the presence of comparable QT prolongation in the surface ECG. Because the extent of QT prolongation has been used as a surrogate marker for cardiotoxicity, we aimed to study the different electrophysiological effects of the macrolide antibiotics erythromycin, clarithromycin, and azithromycin in a previously developed experimental model of proarrhythmia. In 37 Langendorff-perfused rabbit hearts, erythromycin (150-300 microM, n = 13) clarithromycin (150-300 microM, n = 13), and azithromycin (150-300 microM, n = 11) led to similar increases in QT interval and monophasic action potential (MAP) duration. In bradycardic (atrioventricular-blocked) hearts, eight simultaneously recorded epi- and endocardial MAPs demonstrated increased dispersion of repolarization in the presence of all three antibiotics. Erythromycin and clarithromycin led to early afterdepolarizations (EADs) and torsade de pointes (TdP) after lowering of potassium concentration. In the presence of azithromycin, no EAD or TdP occurred. Erythromycin and clarithromycin changed the MAP configuration to a triangular pattern, whereas azithromycin caused a rectangular pattern of MAP prolongation. In 13 additional hearts, 150 microM azithromycin was administered after previous treatment with 300 microM erythromycin and suppressed TdP provoked by erythromycin. In conclusion, macrolide antibiotics lead to similar prolongation of repolarization but show a different proarrhythmic potential (erythromycin > clarithromycin > azithromycin). In the presence of azithromycin, neither EAD nor TdP occur. This effect may be related to a rectangular pattern of action potential prolongation, whereas erythromycin and clarithromycin cause triangular action potential prolongation and induce TdP.
online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12235254&dopt=Abstract
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