ABSTRACT
The
comparative drug dispositions, urinary pharmacokinetics, and effects on
renal function of multilamellar liposomal nystatin (LNYS; Nyotran) and
amphotericin B deoxycholate (DAMB; Fungizone) were studied in rabbits.
Drug concentrations were determined by high-performance liquid
chromatography as total concentrations of LNYS and DAMB. In comparison
to a standard dose of 1 mg of DAMB/kg of body weight, therapeutic
dosages of LNYS, i.e., 2, 4, and 6 mg/kg, resulted in escalating
maximum concentrations (C
max) (17 to 56μ
g/ml for LNYS versus 3.36 μg/ml for DAMB; P< 0.001) and values for the area under the concentration-time
curve from 0 to 24 h (AUC0-24) (17 to 77μ
g · h/ml for LNYS versus 12μ
g · h/ml for DAMB; P <
0.001) in plasma but a significantly faster total clearance from plasma
(0.117 to 0.080 liter/h/kg for LNYS versus 0.055 liter/h/kg for DAMB;
P = 0.013) and a ≤8-fold-smaller volume of
distribution at steady state (P = 0.002). Urinary drug
concentration data revealed a ≥10-fold-higher
C
max (16 to 10 μg/ml for LNYS versus 0.96μ
g/ml for DAMB; P = 0.015) and a 4- to
7-fold-greater AUC0-24 (63 to 35μ
g · h/ml for LNYS versus 8.9μ
g · h/ml for DAMB; P =
0.015) following the administration of LNYS, with a dose-dependent
decrease in the dose-normalized AUC0-24 in urine (P=
0.001) and a trend toward a dose-dependent decrease in renal
clearance. Except for the kidneys, the mean concentrations of LNYS in
liver, spleen, and lung 24 h after dosing were severalfold
lower than those after administration of DAMB (P,<0.002 to <0.001). Less than 1% each of the
total dose of LNYS was recovered from the kidneys, liver, spleen, and
lungs; in contrast, a quarter of the total dose was recovered from the
livers of DAMB-treated animals. LNYS had dose-dependent effects on
glomerular filtration and distal, but not proximal, renal tubular
function which did not exceed those of DAMB at the highest investigated
dosage of 6 mg/kg. The results of this experimental study demonstrate
fundamental differences in the dispositions of LNYS and DAMB. Based on
its enhanced urinary exposure, LNYS may offer a therapeutic advantage
in systemic fungal infections involving the upper and lower urinary
tracts that require therapy with antifungal
polyenes.
Trends in Antifungal Drug Susceptibility of Cryptococcus neoformans Isolates Obtained through Population-Based Surveillance in South Africa in 2002-2003 and 2007-2008
