Twenty healthy male volunteers received single oral doses of famciclovir (125-750 mg), in a randomized, single-blind, crossover study. Plasma and urine concentrations of penciclovir and its 6-deoxy precursor, BRL 42359, were determined and penciclovir plasma concentration-time data submitted to model-independent pharmacokinetic analysis. Peak plasma concentrations of penciclovir were obtained at median times of 0.5-0.75 h after dosing. The areas under the concentration versus time curves (AUC) and the peak penciclovir concentration (Cmax) increased linearly with dose of famciclovir. Time to Cmax, elimination half-life, urinary recovery and renal clearance of penciclovir did not change with increasing dose. Famciclovir was excreted via the kidneys as penciclovir (60%) and BRL 42359 (5%), respectively. Famciclovir was well tolerated by all subjects with a low incidence of adverse effects. In conclusion, penciclovir thus displays linear pharmacokinetics in the anticipated therapeutic dose range of famciclovir.
In a randomized crossover study, 16 volunteers (8 men, 8 women) received single oral doses of 320 mg of gemifloxacin and 400 mg of ofloxacin on two separate occasions in the fasting state to assess the urinary excretion and urinary bactericidal titers (UBTs) at intervals for up to 144 h. Ofloxacin showed higher concentrations in urine compared with those of gemifloxacin. The median (range) cumulative excretion of gemifloxacin was 29.7% (8.4 to 48.7%) of the parent drug administered, and median (range) cumulative excretion of ofloxacin was 84.3% (46.5 to 95.2%) of the parent drug administered. The UBTs, i.e., the highest twofold dilutions (with antibiotic-free urine as the diluent) of urine that were still bactericidal, were determined for a reference strain and nine uropathogens for which the MICs of gemifloxacin and ofloxacin were as follows: Escherichia coli ATCC 25922, 0.016 and 0.06 g/ml, respectively; Klebsiella pneumoniae, 0.03 and 0.06 g/ml, respectively; Proteus mirabilis, 0.125 and 0.125 g/ml, respectively; Escherichia coli, 0.06 and 0.5 g/ml, respectively; Pseudomonas aeruginosa, 1 and 4 g/ml, respectively; Staphylococcus aureus, 0.008 and 0.25 g/ml, respectively; Enterococcus faecalis, 0.06 and 2 g/ml, respectively; Staphylococcus aureus, 0.25 and 4 g/ml, respectively; Enterococcus faecalis, 0.5 and 32 g/ml, respectively; and Staphylococcus aureus, 2 and 32 g/ml, respectively. Generally, the UBTs for gram-positive uropathogens were higher for gemifloxacin than for ofloxacin and the UBTs for gram-negative uropathogens were higher for ofloxacin than for gemifloxacin. According to the UBTs, ofloxacin-resistant uropathogens (MICs, >4 mg/liter) should also be considered gemifloxacin resistant. Although clinical trials have shown that gemifloxacin is effective for the treatment of uncomplicated urinary tract infections, whether an oral dosage of 320 mg of gemifloxacin once daily is also adequate for the treatment of complicated urinary tract infections has yet to be confirmed.The rationale for the use of an antimicrobial agent in the management of infectious diseases is its antibacterial activity at the site of the inflammatory process. In the case of urinary tract infection (UTI), the antibacterial spectrum of the antimicrobial agent should include not only Escherichia coli and other species of the family Enterobacteriaceae but also enterococci, staphylococci, and nonfermenting bacteria such as Pseudomonas and Acinetobacter spp. The fluoroquinolones, such as ciprofloxacin and ofloxacin or levofloxacin, which have broadspectrum antibacterial activities against most gram-negative uropathogens, and the more recent members of this class, which are active against gram-positive uropathogens, are recommended as first-line agents for the treatment of complicated and nosocomial UTIs.Gemifloxacin, a new fluoroquinolone, has a broad spectrum of activity in vitro against gram-negative bacteria such as E. coli, Proteus mirabilis, some strains of Pseudomonas aeruginosa, and Klebsiella pneumoniae, and against gram-positi...
Consideration should be given to modification of the dosing schedule of famciclovir from the usual 8-hour interval to a 12-hour interval for patients with moderate renal impairment (CLCR 30 to 59 ml/min/1.73 m2) or a 24-hour interval for patients with severe renal impairment (CLCR < 30 ml/min/1.73 m2).
The pharmacokinetic profile of penciclovir was determined after a single 500‐mg dose of its oral precursor, famciclovir, in 9 healthy volunteers and in 14 patients with chronic hepatic disease. Plasma and urine samples were analyzed for concentrations of penciclovir and 6‐deoxy‐penciclovir using a reverse‐phase high‐performance liquid chromatography (HPLC) method. Famciclovir was not quantifiable in patients with hepatic disease, and 6‐deoxy‐penciclovir was quantifiable in only a limited number of specimens. The extent of systemic availability of penciclovir, as measured by AUC0‐∞, was similar in patients with hepatic disease and in healthy subjects. In contrast, Cmax was significantly lower (average decrease of 43%) in subjects with hepatic disease relative to healthy normal subjects. Median Tmax for subjects with hepatic disease was significantly increased (by 0.75 hours) compared with subjects with normal liver function. These data suggest a decrease in the rate, but not the extent, of systemic availability of penciclovir in patients with hepatic disease. It should be unnecessary to modify the dose of famciclovir for subjects with compensated hepatic disease and normal renal function.
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