Mechanism of fluoroquinolone resistance is an important factor in determining the antimicrobial effect of gemifloxacin against Streptococcus pneumoniae in an in vitro pharmacokinetic model

Antibacterial effect and emergence of resistance to gemifloxacin and levofloxacin were studied in an in vitro pharmacokinetic model of infection. A panel of Streptococcus pneumoniae strains with known mechanisms of resistance were used; two strains had no known resistance mechanism, two had efflux pumps, three had gyrA plus parC mutations, and one had only a parC mutation. Gemifloxacin MICs were in the range of 0.016 to 0.25 mg/liter, and levofloxacin MICs ranged from 1 to 16 mg/liter. Antimicrobial effect was measured by area under the bacterial-kill curve up to 72 h, and emergence of resistance was determined by population analysis profile before and during drug exposure. The area under the curve (AUC)/MIC ratios for gemifloxacin and levofloxacin were 35 to 544 and 3 to 48, respectively. As expected on the basis of these AUC/MIC ratio differences, antibacterial effect was much greater for gemifloxacin than levofloxacin. In the gemifloxacin simulations, mechanism of resistance as well as MIC determined the antibacterial effect, as indicated by gemifloxacin's greater effect against efflux strains compared to those with gyrA or parC mutations despite similar MICs. This was not true of levofloxacin. Emergence of resistance was not easily demonstrated with either agent, and mechanism of resistance did not have any impact on it.

Gemifloxacin is efficacious against penicillin-resistant and quinolone-resistant pneumococci in experimental meningitis

In experimental rabbit meningitis, gemifloxacin penetrated inflamed meninges well (22 to 33%) and produced excellent bactericidal activity (change in log(10) [Deltalog(10)] CFU/ml/h, -0.68 +/- 0.30 [mean and standard deviation]), even superior to that of the standard regimen of ceftriaxone plus vancomycin (-0.49 +/- 0.09 deltalog(10) CFU/ml/h), in the treatment of meningitis due to a penicillin-resistant pneumococcal strain (MIC, 4 mg/liter). Even against a penicillin- and quinolone-resistant strain, gemifloxacin showed good bactericidal activity (-0.48 +/- 0.16 deltalog(10) CFU/ml/h). The excellent antibacterial activity of gemifloxacin was also confirmed by time-kill assays over 8 h in vitro.

Antibacterial properties of gemifloxacin and trovafloxacin in urine ex vivo: phase I study

Urine bactericidal titers (UBTs) against Escherichia coli ATCC 25922 and Staphylococcus saprophyticus ATCC 1970 were determined after the administration of single oral doses of gemifloxacin at 320 mg and trovafloxacin at 200 mg to healthy volunteers. Gemifloxacin presented significantly lower experimental versus mathematically predicted UBTs over 72 h, due to the effect of urine on the susceptibility of the E. coli strain. Experimental UBTs were significantly higher for gemifloxacin than trovafloxacin against both strains over 72 h.

Influence of diminished susceptibility of Streptococcus pneumoniae to ciprofloxacin on the serum bactericidal activity of gemifloxacin and trovafloxacin after a single dose in healthy volunteers

The serum bactericidal activity against 2 Streptococcus pneumoniae strains (ciprofloxacin MIC 1 and 4 mg/l) was measured in 12 volunteers who received oral single doses of gemifloxacin 320 mg and trovafloxacin 200 mg in a crossover fashion. The 4-fold increase in ciprofloxacin MIC from the susceptible to the resistant strain resulted in a 2-fold increase in MIC (from 0.015 to 0.03 mg/l), a 2-fold decrease in C(max)/MIC (104 vs 52) and in AUC(0-24 h)/MIC (532 vs 266), but a 5.6-fold decrease in area under the bactericidal curve (AUBC: 168 vs 30) for gemifloxacin. Trovafloxacin showed a 4-fold higher MIC (0.25 vs 0.06 mg/l), a 4-fold lower C(max)/MIC (8.6 vs 36), a 4-fold lower AUC(0-24 h)/MIC (85 vs 356) and a 11-fold lower AUBCs (2 vs 22) against the resistant isolate compared with the susceptible one. Trovafloxacin serum bactericidal titres against the ciprofloxacin-resistant strain were measurable generally only at 1 h after dosing (median titre=2). Gemifloxacin showed similar ex vivo bactericidal activity against the ciprofloxacin-resistant strain to that of trovafloxacin against the ciprofloxacin-susceptible strain.

Comparative anti-staphylococcal effects of gemifloxacin and trovafloxacin in an in vitro dynamic model in terms of AUC/MIC and dose relationships

To compare the antimicrobial effects of gemifloxacin and trovafloxacin on Staphylococcus aureus, their pharmacodynamics were studied in an in vitro dynamic model. A series of pharmacokinetic profiles of gemifloxacin and trovafloxacin with half-lives of 7.4 and 9.2 h, respectively, were simulated in vitro over an eightfold range of area under the curve (AUC)-to-MIC ratio, from 58 to 466 h. The relationships observed between the intensity of antimicrobial effect (I(E)) and log AUC/MIC were linear, species- and strain-independent and were distinct (not superimposed) for both gemifloxacin and trovafloxacin (r(2) = 0.99 in both cases). At AUC/MICs > 100 h, trovafloxacin had greater effects than gemifloxacin. For example, at an AUC/MIC of 250 h, the antimicrobial effect of trovafloxacin was 17% higher than gemifloxacin. However, due to its higher intrinsic activity, gemifloxacin may be as efficient as trovafloxacin at their clinical doses (320 and 200 mg, respectively): the I(E)s on a hypothetical strain of S. aureus with gemifloxacin's and trovafloxacin's MICs corresponding to the MIC(50)s were similar-290 and 310 (log CFU/mL)x h, respectively. This analysis suggests that both AUC/MIC and dose relationships of the antimicrobial effect are needed for comprehensive comparisons of fluoroquinolone pharmacodynamics.

In vitro activity of gemifloxacin (SB-265805, LB20304a) against Legionella pneumophila and its pharmacokinetics in guinea pigs with L. pneumophila pneumonia

The activity of gemifloxacin against intracellular Legionella pneumophila and for the treatment of guinea pigs with L. pneumophila pneumonia was studied. Gemifloxacin, azithromycin, and levofloxacin (1 microg/ml) reduced bacterial counts of two L. pneumophila strains grown in guinea pig alveolar macrophages by 2 to 3 log(10) units. Gemifloxacin and levofloxacin had roughly equivalent intracellular activities. In contrast, erythromycin had static activity only. Therapy studies of gemifloxacin, azithromycin, and levofloxacin were performed in guinea pigs with L. pneumophila pneumonia. When gemifloxacin (10 mg/kg) was given by the intraperitoneal (i.p.) route to infected guinea pigs, mean peak levels in plasma were 1.3 microg/ml at 0.5 h and 1.2 microg/ml at 1 h postinjection. The terminal half-life phase of elimination from plasma was 1.3 h, and the area under the concentration-time curve from 0 to 24 h (AUC(0--24)) was 2.1 microg. h/ml. For the same drug dose, mean levels in lungs were 3.4 microg/g at both 0.5 and 1 h, with a half-life of 1.5 h and an AUC(0--24) of 6.0 microg. h/ml. All 15 L. pneumophila-infected guinea pigs treated with gemifloxacin (10 mg/kg/dose given i.p. once daily) for 2 days survived for 9 days after antimicrobial therapy, as did 13 of 14 guinea pigs treated with the same dose of gemifloxacin given for 5 days. All 12 azithromycin-treated animals (15 mg/kg/dose given i.p. once daily for 2 days) survived, as did 11 of 12 animals treated with levofloxacin (10 mg/kg/dose given i.p. once daily for 5 days). None of 12 animals treated with saline survived. Gemifloxacin is effective against L. pneumophila in infected macrophages and in a guinea pig model of Legionnaires' disease, even with an abbreviated course of therapy. These data support studies of the clinical effectiveness of gemifloxacin for the treatment of Legionnaires' disease.

1,3-Biarylureas as selective non-peptide antagonists of the orexin-1 receptor

This communication reports SARs for the first orexin-1 receptor antagonist series of 1-aryl-3-quinolin-4-yl and 1-aryl-3-naphthyridin-4-yl ureas. One of these compounds, 31 (SB-334867), has excellent selectivity for the orexin-1 receptor, blood-brain barrier permeability and shows in vivo activity following ip dosing.

In vivo efficacy of trovafloxacin against Bacteroides fragilis in mixed infection with either Escherichia coli or a vancomycin-resistant strain of Enterococcus faecium in an established-abscess murine model

The pharmacodynamic and pharmacokinetic properties of trovafloxacin were studied in a standardized murine model of established subcutaneous abscesses. Daily dosing regimens of 37.5 to 300 mg/kg every 8 h (q8h) or every 24 h (q24h) were started 3 days after inoculation with mixtures containing either Bacteroides fragilis-Escherichia coli-autoclaved cecal contents (ACC) or B. fragilis-vancomycin-resistant Enterococcus faecium (VREF)-ACC. Treatment was continued for 3 or 5 days. The efficacy of treatment was determined by the decrease in abscess bacterial counts and abscess weights, as well as by the reduction in inflammation (biodistribution of (99m)Tc-HYNIC immunoglobulin G) compared to saline-treated controls. Trovafloxacin showed a significant dose-response effect on the bacterial counts, weight, and inflammation of B. fragilis-E. coli abscesses after 3 and/or 5 days of treatment. A maximum 3.4 and 3.1 log(10) reduction in CFU/abscess in the respective B. fragilis and E. coli bacterial counts was attained after 5 days of treatment with daily doses of 300 mg/kg. The peak serum concentration was more predictive for effect than the area under the concentration-time curve. The C(max) was the pharmacodynamic index most predictive for success, and the efficacy of the q24h regimens was significantly better than the q8h regimens. The antibiotic was ineffective against the VREF in mixed infection with B. fragilis, while the killing of the anaerobe in the same combination was significantly less than in the E. coli combination (P < 0.05). We conclude that this is a useful model for studying the activity of antimicrobials for the treatment of small (<1-cm), undrainable, mixed-infection abscesses. In addition, we have shown for the first time that a decrease in bacterial numbers also leads to a reduction in both abscess weight and inflammation.

The disposition of gemifloxacin, a new fluoroquinolone antibiotic, in rats and dogs

Gemifloxacin is a fluoroquinolone antibacterial compound with enhanced affinity for bacterial topoisomerase IV and is being developed for the treatment of respiratory and urinary tract infections. The disposition and metabolic fate of this antibiotic was studied in the rat and the dog, the animal species used in its toxicological evaluation. The investigations were carried out following oral and intravenous administration of gemifloxacin mesylate. Gemifloxacin is a racemic compound; therefore, the pharmacokinetics of its individual (+) and (-) enantiomers were characterized using a chiral high-performance liquid chromatography/tandem mass spectrometry assay. In both rat and dog, the pharmacokinetic profiles of the (+) and (-) enantiomers were essentially identical. The enantiomers were rapidly absorbed following oral administration of racemic gemifloxacin mesylate. They distributed rapidly beyond total body water, and their blood clearance values were approximately equal to one quarter of the hepatic blood flow in each species. Terminal phase elimination half-lives were ca. 2 h in the rat and 5 h in the dog. Gemifloxacin was metabolized to a limited extent following oral and intravenous administration of [14C]gemifloxacin mesylate, and all metabolites formed were relatively minor. The principal metabolites formed were the E-isomer (4-6% of dose) and the acyl glucuronide of gemifloxacin (2-6% of dose) in both species and N-acetyl gemifloxacin (2-5% of dose) in the rat. Data obtained following intravenous administration indicated that gemifloxacin-related material is eliminated from the body via urinary excretion, biliary secretion, and gastrointestinal secretion. Material was eliminated approximately equally by the three routes in the dog, whereas a slightly higher proportion of the dose was eliminated in the urine (46%) and a lower proportion in the bile (12%) of rats.

Pharmacokinetics and tissue penetration of gemifloxacin following a single oral dose

The pharmacokinetics and tissue penetration of gemifloxacin were determined during a 24 h period following oral administration of a single 320 mg dose to each of 10 healthy male volunteers. Concentrations of the drug in plasma, inflammatory blister fluid and urine were determined using a microbial assay. A peak plasma concentration (mean +/- S.D.) of 2.33 +/- 0.5 mg/L was reached at 1.20 +/- 0.4 h. Mean penetration into inflammatory fluid was 61.19 +/- 10.4%. A peak concentration of 0.74 +/- 0.3 mg/L was reached in the inflammatory fluid at a mean time of 3.40 +/- 1.7 h. The mean elimination half-life from serum and inflammatory fluid was 5.94 +/- 0.4 and 6.27 +/- 2.4 h, respectively. Urinary excretion of the drug at 24 h post-dose was 36.11% of the total given. These results demonstrate that gemifloxacin penetrates into the site of inflammation and reaches sufficient concentrations to inhibit many pathogens.

Improved assay method for the determination of pyronaridine in plasma and whole blood by high-performance liquid chromatography for application to clinical pharmacokinetic studies

An improved high-performance liquid chromatography method using a diisopropyl-C14 reversed-phase column (Zorbax Bonus-RP column) and a liquid-liquid extraction technique with UV detection is presented for the analysis of pyronaridine in human whole blood and plasma. Tribasic phosphate buffer (50 mM, pH 10.3) and diethyl ether were used for liquid-liquid extraction. The mobile phase consists of acetonitrile-0.08 M potassium dihydrogen phosphate buffer (13:87, v/v) with the pH 2.8 adjusted by orthophosphoric acid. Amodiaquine was found to be a suitable internal standard for the method. The quantification limit with UV detection at 275 nm was 3 ng on-column for both plasma and blood samples. The method was applied to plasma and blood specimens from a rabbit after a single intramuscular dose of pyronaridine tetraphosphate (20 mg/kg as base). From this in vivo study, evidence was found that pyronaridine is concentrated in blood cells, with a blood:plasma ratio ranging from 4.9 to 17.8. We conclude that blood is the preferred matrix for clinical pharmacokinetic studies.

Discovery of gemifloxacin (Factive, LB20304a): a quinolone of new a generation

Novel quinolone antibacterials, which bear an alkyloxime substituent in the 4-position and an aminomethyl substituent in the 3-position of the pyrrolidine ring, have been designed and synthesized. These fluoroquinolones were found to possess extremely potent antimicrobial activity against gram-positive organisms including resistant strains such as methicillin-resistant Staphylococcus aureus (MRSA). Among these compounds our development candidate, Gemifloxacin (Factive, LB20304a), showed the best in vivo efficacy and pharmacokinetic profile in animals, as well as good safety pharmacological properties. Gemifloxacin was found to be especially effective against respiratory tract infections that account for over 70% of all infections. With once-a-day dosage, potency against respiratory tract infections such as chronic bronchitis and pneumonia was ensured without any significant side effect. In December 1999, Gemifloxacin filed a NDA for marketing approval to the US Food and Drug Administration.

Relationships of the area under the curve/MIC ratio to different integral endpoints of the antimicrobial effect: gemifloxacin pharmacodynamics in an in vitro dynamic model

Most integral endpoints of the antimicrobial effect are determined over an arbitrarily chosen time period, such as the dosing interval (tau), regardless of the actual effect duration. Unlike the tau-related endpoints, the intensity of the antimicrobial effect (I(E)) does consider its duration-from time zero to the time when bacterial counts on the regrowth curve achieve the same maximal numbers as in the absence of the antimicrobial. To examine the possible impact of this fundamental difference on the relationships of the antimicrobial effect to the ratio of the area under the concentration-time curve (AUC) to the MIC, a clinical isolate of Staphylococcus aureus was exposed to simulated gemifloxacin pharmacokinetics over a 40-fold range of AUC/MIC ratios, from 11 to 466 h. In each run, I(E) and four tau-related endpoints, including the area under the time-kill curve (AUBC), the area above the curve (AAC), the area between the control growth and time-kill curves (ABBC), and the ABBC related to the area under the control growth curve (AUGC), were calculated for tau = 24 h. Unlike the I(E), which displayed pseudolinear relationships with the AUC/MIC ratio; each tau-related endpoint showed a distinct saturation at potentially therapeutic AUC/MIC ratios (116 to 466 h) when the antimicrobial effect persisted longer than tau. This saturation results from the underestimation of the true effect and may be eliminated if ABBC, AAC, and AUBC (but not AUGC) are modified and determined in the same manner as the I(E) to consider the actual effect duration. These data suggest a marginal value of the tau-related endpoints as indices of the total antimicrobial effect. Since all of them respond to AUC/MIC ratio changes less than the I(E), the latter is preferable in comparative pharmacodynamic studies.

Differential selection of multidrug efflux mutants by trovafloxacin and ciprofloxacin in an experimental model of Pseudomonas aeruginosa acute pneumonia in rats

The ability of trovafloxacin and ciprofloxacin to select efflux mutants in vivo was studied in a model of acute Pseudomonas aeruginosa pneumonia in rats. Twelve hours after intratracheal inoculation of 10(6) CFU of P. aeruginosa strain PAO1 enmeshed in agar beads, two groups of 12 rats were treated by three intraperitoneal injections of each antibiotic given every 5 h. Dosing regimens were chosen to obtain a comparable area under the concentration-time curve from 0 to infinity/MIC ratio of 27.9 min for trovafloxacin (75 mg/kg of body weight) and of 32.6 min for ciprofloxacin (12.5 mg/kg). Twelve rats were left untreated and served as controls. Rats were sacrificed 12 h after the last injection (34 h after infection) for lung bacteriological studies. Selection of resistant bacteria was determined by plating lung homogenates on Trypticase soy agar plates containing antibiotic. In untreated animals, the frequency of resistant colonies was 10-fold higher than in agar beads. Compared to controls, both treatment regimens resulted in a 2-log reduction of lung bacterial load. The frequency of resistant colonies was 10-fold less with trovafloxacin than with ciprofloxacin at twice the MIC (7.4 x 10(-5) versus 8.4 x 10(-4), respectively) (P < 0.05) and at four times the MIC (6.2 x 10(-4) versus 5.0 x 10(-5), respectively) (P < 0.05). A multidrug resistance phenotype typical of efflux mutants was observed in all 41 randomly tested colonies obtained from treated and untreated rats. In agreement with in vitro results, trovafloxacin and ciprofloxacin preferentially selected MexCD-OprJ and MexEF-OprN overproducers, respectively. These results demonstrate the differential ability of trovafloxacin and ciprofloxacin to select efflux mutants in vivo and highlight the rapid emergence of those mutants, even without treatment.

Multiple-dose pharmacokinetics and tolerability of gemifloxacin administered orally to healthy volunteers

Gemifloxacin mesylate (SB-265805-S, LB-20304a) is a potent, novel fluoroquinolone agent with a broad spectrum of antibacterial activity. The pharmacokinetics and tolerability of oral gemifloxacin were characterized in two parallel group studies in healthy male volunteers after doses of 160, 320, 480, and 640 mg once daily for 7 days. Multiple serum or plasma and urine samples were collected on days 1 and 7 and were analyzed for gemifloxacin by high-performance liquid chromatography (HPLC)-fluorescence (study 1) or HPLC-mass spectrometry (study 2). Safety assessments included vital signs, 12-lead electrocardiogram (ECG) readings, hematology, clinical chemistry, urinalysis, and adverse experience monitoring. Gemifloxacin was rapidly absorbed, with a time to maximum concentration of approximately 1 h after dosing followed by a biexponential decline in concentration. Generally, maximum concentration and area under the concentration-time curve (AUC) increased linearly with dose after either single or repeat doses. Mean +/- standard deviation values of AUC(0-tau) on day 7 were 4.92 +/- 1.08, 9.06 +/- 2.20, 12.2 +/- 3.69, and 20.1 +/- 3.67 microg x h/ml following 160-, 320-, 480-, and 640-mg doses, respectively. The terminal-phase half-life was approximately 7 to 8 h, independent of dose, and was similar following single and repeated administrations. There was minimal accumulation of gemifloxacin after multiple dosing. Approximately 20 to 30% of the administered dose was excreted unchanged in the urine. The renal clearance was 160 ml/min on average after single and multiple doses, which was slightly greater than the accepted glomerular filtration rate (approximately 120 ml/min). These data show that the pharmacokinetics of gemifloxacin are linear and independent of dose. Gemifloxacin was generally well tolerated, although one subject was withdrawn from the study after 6 days at 640 mg for mild, transient elevations of alanine aminotransferase and aspartate aminotransferase not associated with any clinical signs or symptoms. There were no other significant changes in clinical chemistry, hematology or urinalysis parameters, vital signs, or ECG readings. In conclusion, the results of these studies, combined with the antibacterial spectrum and potency, support the further investigation of once-daily administration of gemifloxacin for indications such as respiratory tract and urinary tract infections.

Gemifloxacin and ciprofloxacin pharmacodynamics in an in-vitro dynamic model: prediction of the equivalent AUC/MIC breakpoints and doses

To compare the antimicrobial effects (AMEs) of gemifloxacin (GEM) and ciprofloxacin (CIP) on Staphylococcus aureus, Escherichia coli and Pseudomonas aeruginosa, a series of pharmacokinetic profiles of GEM (a single dose with the half-life (T(1/2)) of 7.4 h and CIP (two 12 h doses with T(1/2) of 4 h) were simulated in vitro over eight-fold ranges of the AUC/MIC ratio. Species- and strain-independent linear relationships observed between the intensity of AME (I(E)) and log AUC/MIC were not superimposed for GEM and CIP (r(2)=0.99 and 0.98, respectively). The predicted ratio for GEM that might be equivalent to a clinically established breakpoint value of AUC/MIC=125 (mg h/l)/(mg/l) for CIP was estimated at 110 (mg h/l)/(mg/l). It was calculated, that a daily dose of CIP that might provide the same AME as a clinical dose of GEM (320 mg) on a hypothetical strain of S. aureus with MICs=MIC(50)s would be as high as 2 x 3200 mg.

Comparison of the bactericidal activity of trovafloxacin and ciprofloxacin, alone and in combination with cefepime, against Pseudomonas aeruginosa

BACKGROUND

Although ciprofloxacin exhibits more intense microbiological activity against Pseudomonas aeruginosa than does trovafloxacin, the clinical relevance of this observation remains questionable, particularly when the agents are combined with another antipseudomonal agent.

METHODS

To evaluate this further, we conducted a four-way crossover trial to compare the bactericidal activities of ciprofloxacin and trovafloxacin, alone and in combination with cefepime, against three clinical isolates of P. aeruginosa. Healthy subjects received the following regimens, dosed to steady state: trovafloxacin 300 mg/24 h; ciprofloxacin 400 mg/12 h; trovafloxacin 300 mg/24 h plus cefepime 2 g/12 h, and ciprofloxacin 400 mg/12 h plus cefepime 2 g/12 h. Serum bactericidal titers were performed with each regimen.

RESULTS

As monotherapy, the area under the bactericidal curve for ciprofloxacin exceeded that of trovafloxacin for all isolates. No significant difference in the overall degree of bactericidal activity was noted for two of three P. aeruginosa isolates for the combination regimens. Additionally, both combination regimens provided bactericidal activity for 100% of the dosing interval for all isolates.

CONCLUSION

These results indicate that, while in vitro differences exist among these quinolones for P. aeruginosa, when a fluoroquinolone is combined with a beta-lactam, this is likely to be of little clinical significance.

Pharmacokinetics of a new proton pump inhibitor, YJA-20379-8, after intravenous and oral administration to spontaneously hypertensive rats and DOCA-salt-induced hypertensive rats

The purpose of this study was to investigate the causes for the differences observed in the pharmacokinetics of YJA-20379-8 in 16-week-old spontaneously hypertensive rats (SHRs). To see if the hereditary characteristics of SHRs was the cause, 20 mg/kg of the drug was intravenously infused over 15 min and 50 mg/kg of the drug was orally administered to 6-week-old SHRs and 16-week-old SHRs and their age-matched control Kyoto-Wistar (KW) rats. Also to see if the hypertensive status itself was the cause, the same doses were administered to 16-week-old deoxycorticosterone acetate (DOCA) salt-induced hypertensive rats (DOCA-salt rats) and their age-matched control Sprague-Dawley rats. The areas under the plasma concentration-time curve from time zero to time infinity (for intravenous study) and to the last sampling time in plasma (for oral study) were significantly smaller after both intravenous and oral administration, and the total body clearances of the drug were significantly faster after intravenous administration to 6-week-old SHRs, 16-week-old SHRs, and 16-week-old DOCA-salt rats than those in their respective age-matched control rats. The above pharmacokinetic parameter changes in 16-week-old SHRs were due to both hereditary characteristic of SHRs and the hypertensive status itself.

The effect of food on the bioavailability of oral gemifloxacin in healthy volunteers

The effect of food on the bioavailability of gemifloxacin was investigated at two doses (320 and 640 mg) in healthy male and female volunteers. A total of 21 subjects entered the open label, four-period crossover study. Each subject received single oral doses of 320 and 640 mg in the fasted state and after a high fat meal, on separate dosing occasions in a randomised fashion. There was on average, a 3% (95% CI (0.88, 1.07)) and 12% (95% CI (0.79, 0.97)) reduction in AUC and a 12% (95% CI (0.76, 1.02) and 14% (0.75, 1.00) reduction in Cmax after the 320- and 640-mg doses, respectively. The results indicate a minor effect of food on bioavailability of gemifloxacin (320 and 640 mg). Such a reduction in systemic exposure would be considered to be not clinically relevant. Tmax data were inconclusive but indicated a possible slight delay in Tmax of, on average, 0.75 and 0.21 h after the 320- and 640-mg doses, respectively. Delays of this magnitude in reaching maximum concentrations are unlikely to be of clinical importance for an antibiotic drug. Both 320 and 640 mg gemifloxacin were well tolerated in fed and fasted states by healthy volunteers. It can be concluded therefore, that gemifloxacin can be taken with and without food.

The effect of ferrous sulphate and sucralfate on the bioavailability of oral gemifloxacin in healthy volunteers

Sucralfate is a cytoprotectant with antacid properties and ferrous sulphate is commonly prescribed for iron-deficiency anaemia. This open, randomized, single-dose, five-way crossover study investigated the effect of sucralfate and ferrous sulphate on the bioavailability of gemifloxacin, a novel fluoroquinolone antimicrobial. Twenty-seven healthy male volunteers received gemifloxacin, 320 mg p.o., alone, 3 h after sucralfate (2 g) or ferrous sulphate (325 mg), or 2 h before sucralfate or ferrous sulphate. Each subject received all five dosing regimens in random order with at least 6 days between regimens. Plasma samples collected up to 48 h after dosing with gemifloxacin, were assayed for gemifloxacin to determine pharmacokinetic parameters. Administration of gemifloxacin 3 h after sucralfate produced a marked decrease of 53% in the area under the plasma concentration-time curve from time zero extrapolated to infinity (AUC0-infinity), and a decrease of 69% in the maximal plasma concentration (Cmax). Administration of gemifloxacin 3 h after ferrous sulphate resulted in only a modest reduction of 11% in AUC0-infinity and of 20% in Cmax, which was not considered to be clinically significant. In contrast, at the doses used neither sucralfate nor ferrous sulphate altered gemifloxacin bioavailability when it was administered 2 h before either of these agents. Gemifloxacin was well tolerated in all the regimens. The results of this study support the dosing recommendation that gemifloxacin can be safely administered at least 2 h before sucralfate or ferrous sulphate, or at least 3 h after ferrous sulphate.

Pharmacodynamics to combat resistance

The ability to identify agents with the optimal combination of potency, pharmacokinetics and pharmacodynamics should help to maximize bacteriological cure and thus minimize the potential for selection and spread of resistance. Gemifloxacin demonstrated excellent correlation between efficacy and the AUC0-24h/MIC ratio whereas there was little correlation with time above MIC. Thus, gemifloxacin is similar to other quinolones in that it is the amount of drug present, not the frequency of administration, that determines antibacterial effect. In a neutropenic murine thigh model of infection, caused by Gram-negative bacilli, a AUC0-24h/MIC ratio of approximately 100 was necessary to protect >90% of the animals, which is similar to data reported previously for other quinolones. However, in order to achieve the same protection in an immunocompetent murine infection caused by Streptococcus pneumoniae, the AUC-24h/MIC ratio was approximately 25. The magnitude of this AUC0-24h/MIC ratio did not alter for strains exhibiting penicillin or macrolide resistance. Importantly, when gemifloxacin was examined against strains of S. pneumoniae with well-characterized ciprofloxacin resistance (including mutations in gyrase, parC and parE as well as efflux strains) there was little impact on the in vivo efficacy. Overall, the data showed a trend towards a decrease in the AUC0-24h/MIC ratio for these more resistant strains. The lower AUC0-24h/MIC ratio was especially noticeable for the efflux mutants suggesting that the quinolone efflux mechanism may be down-regulated in vivo and may be of minimal relevance to the clinical activity of gemifloxacin against S. pneumoniae. The efficacy of gemifloxacin, in comparison with other oral agents used to treat respiratory infections, has also been evaluated in a rat model using doses, and therefore AUC0-24h/MIC ratios, that approximate those in man. These data confirm the excellent activity of gemifloxacin against strains of Haemophilus influenzae and S. pneumoniae, including those demonstrating penicillin, macrolide and quinolone resistance.