Elimination of amphotericin B in impaired renal function

Pharmacocinétique des antifongiques en fonction du terrain

Antifungal drugs for treating systemic mycoses are flucytosine, amphotéricin B, azoles and caspofungin. Their pharmacokinetics and pharmacodynamics are reviewed in order to determine the optimal modalities of their administration and the best dosing regimen for several populations: neonates, infants, patients with renal or liver disease, patients with hemodialysis or hemofiltration.

FHD: an index to evaluate drug elimination by hemodialysis

BACKGROUND

In hemodialyzed patients, physicians have to (1) adjust drug dosage for a creatinine clearance lower than 10-15 ml/min and (2) know whether or not the drug will be removed by the dialysis session to decide whether it may be administered before or after the session on dialysis days. However, of several indices being used to evaluate drug removal by dialysis none is appropriate and we suggest a novel index named F(HD), which reflects the role of hemodialysis clearance of a drug in its overall clearance during the session.

METHODS

Pharmacokinetic simulations were performed to test the influence of dialysis on the pharmacokinetics of some drugs, whether F(HD) was considered or not, to determine when to administer the drug. F(HD) was then calculated for several drugs and its value compared with other indices. Five hemodialysis patients from our department for whom the time of drug administration was determined according to F(HD) were included in a small study and their drugs' trough concentrations were monitored.

RESULTS

F(HD) emphasized that considering hemodialysis clearance alone may lead to false interpretations of the potential dialyzability of some drugs. In our patients, who received their treatment according to the 'F(HD) rule', monitoring of trough levels gave satisfactory results.

CONCLUSION

The use of the 'F(HD) rule' should be tested on a long-term administration basis to confirm our conclusion. F(HD )could be the index of choice to determine when to administer a drug, before or after the session, in hemodialysis patients.

Amphotericin B in children with malignant disease: a comparison of the toxicities and pharmacokinetics of amphotericin B administered in dextrose versus lipid emulsion

In a prospective, randomized clinical trial, the toxicity of 1 mg of amphotericin B (AmB) per kg of body weight per day infused in 5% dextrose was compared with that of AmB infused in lipid emulsion in children with malignant disease. In an analysis of 82 children who received a full course of 6 days or more of AmB (117 courses), it was shown that there were significant increases in plasma urea and creatinine concentrations and in potassium requirement after 6 days of therapy with both AmB infused in dextrose and AmB infused in lipid emulsion, with there being no difference between the two methods of AmB administration. An intent-to-treat comparison of the numbers of courses affected by acute toxicity (fever, rigors) and chronic toxicity (nephrotoxicity) also indicated that there was no significant difference between AmB infused in dextrose (78 courses) and AmB infused in lipid emulsion (84 courses). The pharmacokinetics of AmB were investigated in 20 children who received AmB in dextrose and 15 children who received AmB in lipid emulsion. Blood samples were collected up to 24 h after administration of the first dose, and the concentration of AmB in plasma was analyzed by a high-performance liquid chromatography assay. The clearance (CL) of AmB in dextrose (0.039 +/- 0.016 liter. h-1. kg-1) was significantly lower (P < 0.005) than the CL of AmB in lipid emulsion (0.062 +/- 0. 024 liter. h-1. kg-1). The steady-state volume of distribution for AmB in dextrose (0.83 +/- 0.33 liter. kg-1) was also significantly lower (P < 0.005) than that for AmB in lipid emulsion (1.47 +/- 0.77 liter. kg-1). Although AmB in lipid emulsion is apparently cleared faster and distributes more widely than AmB in dextrose, this study did not reveal any significant advantage with respect to safety and tolerance in the administration of AmB in lipid emulsion compared to its administration in dextrose in children with malignant disease.

Elucidation of human amphotericin B pharmacokinetics: identification of a new potential factor affecting interspecies pharmacokinetic scaling

PURPOSE

To elucidate the pharmacokinetics of amphotericin B in rats, mice and humans, and to perform interspecies scaling to humans using allometry.

METHODS

Plasma concentrations following intravenous bolus administration in rats, and mice were determined by HPLC. Human pharmacokinetic parameters elucidated from literature data were validated in a preliminary study involving a patient receiving daily infusion dose for 27 days. A critical literature review was conducted to identify appropriate pharmacokinetic parameter values in other species for interspecies scale-up. Interspecies allometric scale-up was performed across mice, rats, rabbits and dogs and the resulting predictions in humans were compared to observed values.

RESULTS

A triexponential decline in rat, mouse and human plasma concentrations were observed. No gender differences in rat pharmacokinetics were observed. In contrast to allometry, mouse CL was smaller (82 vs 116 ml/h/kg) and T0.5 (33 vs 20 h) was longer compared to rat. In the preliminary human study, Cpeak and Cmin values remained relatively constant over the duration of therapy, and a CL, MRT, T0.5, Vss and Vdarea of 26 ml/h/kg, 10 and 23 days, 6.2 and 20 L/kg, respectively, were estimated. The relative contributions of the terminal phase area in rat, mouse and human were 75%, 92% and 31%, respectively. Interspecies allometric scale-up predictions of human CL (41 ml/h/kg), CLu (467 ml/h/kg) and Vss (3.3 L/kg) were similar to reported values, whereas poor predictions of human Vuss (33 L/kg), Vdarea (4.1 L/kg) and T0.5 (3 days) were obtained.

CONCLUSIONS

Insignificant accumulation in humans inspite of the long terminal T0.5 was rationalized to be due to the small terminal-phase area contribution. While human CL and Vss were successfully predicted in the interspecies scaling, poor predictions of human Vdarea and T0.5 were obtained, which was attributed to disposition pattern differences between humans and other species, a potential new critical factor affecting interspecies scale-up.

Timing of treatment for nonneutropenic patients colonized with Candida

There has been a continuing evolution of the clinical spectrum of Candida infection in nonneutropenic patients. With better understanding of the predisposing factors for fungemia in critically ill patients, interest now centers on indications for early therapy, prior to the progression of colonization to fungemia. Recent prospective trials have identified persistence of Candida species in repetitive cultures of various sites as an essential if not necessary precursor for fungemia. Treatment for patients requiring prolonged intensive-care-unit residence and demonstrating colonization with Candida is suggested, based on the frequency with which such patients progress to fungemia. The efficacy of such treatment is undocumented, and clinical trials of various regimens of polyene or azole antifungals is needed.

Is there a therapeutic or pharmacokinetic rationale for amphotericin B dosing in systemic Candida infections?

OBJECTIVE

To review the literature regarding the dosage of amphotericin B in Candida infections. The correlation or rationale of current dosing practices is assessed in light of the literature.

DATA SOURCES

A MEDLINE search encompassing the years 1968-1995 was used to identify pertinent literature. Additional references were obtained from the articles retrieved from MEDLINE.

STUDY SELECTION

Studies that directly assessed amphotericin B dosage and/or duration, pharmacokinetic literature dealing with plasma concentrations and amphotericin B disposition, and literature dealing with dose and/or concentration as well as clinical outcome were selected for inclusion. Additional relevant citations were used in the introductory material and discussion.

DATA EXTRACTION

Although there was a large number of articles related to amphotericin B, surprisingly few large studies were designed to address the issues in question. The description of the methods and results of these heterogeneous articles are the basis of this review. Although additional controlled studies with more subjects need to be performed, the results to date provide a foundation from which to make some inferences regarding optimal use of this therapeutic modality until more definitive data become available.

DATA SYNTHESIS

Despite numerous articles addressing the pharmacokinetics of amphotericin B, little is known about its tissue distribution, the rate of transfer of the drug from vascular to peripheral sites, or its terminal disposition. Less information is available regarding the relevance of pharmacokinetic parameters or serum concentrations to clinical outcome. Most of the articles mentioning dosing provide little or no justification for the doses employed. The variety of the dosages used and the heterogeneity of the populations studied make determination of dose-outcome relationships difficult.

CONCLUSIONS

From the available clinical data, it appears that early initiation of amphotericin B therapy is crucial to a favorable outcome. Daily dosing initially followed by every-other-day administration of twice the daily dose is better tolerated by the patient than daily dosing and produces a similar therapeutic outcome. The drug should be continued until therapeutic endpoints have been achieved, rather than until a specific total dosage has been administered. The nephrotoxicity that occurs with amphotericin B administration is apparently reversible and should not be used as an endpoint for therapy if total dosages do not exceed 4 g. Additional well-designed, controlled trials evaluating standardized dosing methods of amphotericin B with predetermined dosing regimens and/or definitive therapeutic endpoints are needed to determine the optimal dosing approach for this agent.

Increased level/dose ratio of amphotericin-B in premature infants with renal failure

We introduced continuous intravenous infusion of amphotericin-B (AMPH-B) to extremely low birthweight (ELBW) infants (< 1000 g) with or without renal failure as a single agent for treating definite or probable systemic candidiasis. The species of Candida isolated from blood or tracheal aspirate or urine were C. albicans in seven infants, C glabrata in two, C. tropicalis in one and C. parapsilosis in one. The minimal inhibitory concentrations (MIC) of AMPH-B required against these isolates were less than 0.2 micrograms/mL except for that against one strain of C. albicans (0.78 microgram/mL). Serum AMPH-B levels were 0.31-0.78 (0.51 +/- 0.14) micrograms/mL when doses of 0.2-0.55 (0.32 +/- 0.11) mg/kg per day were being administered. The serum level was higher than the MIC of each isolate in all but one infant who died of disseminated intravascular coagulation and Candida pneumonia. Another infant died of congenital heart disease. The other nine infants survived. The serum level showed no correlation with the daily dose. The ratio of the serum level to the daily dose (L/D ratio) showed a significant correlation to serum creatinine (r = 0.787) and the linear regression curve followed the equation: L/D ratio = 0.223 x serum creatinine + 1.11 (P < 0.01). Few adverse effects due to AMPH-B were noted. Our data may give a simple reference to serum AMPH-B levels during continuous intravenous infusion from the dose and the serum creatinine level.

Amphotericin B and its delivery by liposomal and lipid formulations

In recent years, new formulations of the original amphotericin B preparation (Fungizone) have been devised in order to overcome toxicity problems that frequently occur. These preparations represent an improved method of drug delivery, with an increased therapeutic index and a decrease in toxicity to mammalian cell membranes. The new formulations have different physico-chemical characteristics and differ in pharmacokinetic parameters. Their effects must be compared with conventional amphotericin B to ascertain potential roles in future antifungal therapy.

Drug dosage in patients during continuous renal replacement therapy. Pharmacokinetic and therapeutic considerations

The advantages of continuous haemofiltration and haemodialysis over intermittent haemodialysis for the treatment of acute renal failure are well recognised. In intensive care patients, 4 different continuous procedures, arteriovenous and venovenous haemofiltration (CAVH and CVVH) or haemodialysis (CAVHD and CVVHD), are employed. These effective detoxification treatments require knowledge of their influence on drug disposition. Data on kinetics of drugs during continuous treatment are scarce and limited almost exclusively to the oldest and least effective procedure (CAVH). Selected dialysis membranes may adsorb drugs, as in the case of aminoglycosides. In addition, elimination of substances with large molecular weights may vary depending on the pore size of the membrane, as in the case of vancomycin. Thus, even if drug dosages can be based on pharmacokinetic studies, selection of a dialysis membrane not studied may cause unpredictable drug concentrations. With these limitations in mind and considering the available literature on pharmacokinetics in patients with renal failure, general guidelines for drug dosage during continuous renal replacement therapy can be given. In haemofiltration, drug protein binding is the major factor determining sieving, i.e. the appearance of the drug in the ultrafiltrate. In haemodialysis, diffusion is added to ultrafiltration, and therefore the saturation of the combined dialysate and ultrafiltrate will decrease further with increasing dialysate flow rate. In continuous haemofiltration or haemodialysis the extracorporeal clearance can be calculated by multiplying the saturation value (estimated or, better, measured) with the ultrafiltrate and dialysate flow rate. Dividing the extracorporeal clearance by the total clearance (including the nonrenal clearance) gives the fraction of the dose removed due to extracorporeal elimination. Whether dosage recommendations available for anuric patients have to be modified or not can be decided on the basis of this value. In case of high nonrenal clearance, the degree of saturation is without clinical significance. Based on these considerations guidelines have been constructed for the effect of extracorporeal elimination on more than 120 different drugs commonly used in intensive care patients.

Acute and chronic effects of flucytosine on amphotericin B nephrotoxicity in rats

The combination of intravenous flucytosine (FC) in 0.9% saline (NaCl) and amphotericin B (AmB) provides synergistic antifungal activity and is associated with a lower incidence of nephrotoxicity than with AmB treatment alone. This study was conducted to examine whether flucytosine can influence renal function and whether it can modify the acute and chronic renal responses to AmB in the rat. In the in situ perfused rat kidney, FC at a concentration of 10 mg/kg/min for 15 min had a vasodilator effect, increasing renal blood flow by 2.5 +/- 0.7 ml/min, an effect not observed with vehicle. After the infusion of FC was stopped for 15 min, AmB induced a decrease in renal blood flow similar to that with both FC and vehicle. In a second series of studies, AmB (5 mg/kg/day intraperitoneally) was administered to four groups of rats for 7 days. In addition, the following groups received the intravenous daily interventions indicated: group 1, 5% dextrose in water (15 ml/kg/12 h); group 2, FC (150 mg/kg/12 h) in 0.9% saline (15 ml/kg/12 h); group 3, 0.9% saline (15 ml/kg/12 h); and group 4, FC (150 mg/kg/12 h) in 5% dextrose in water. Group 1 sustained a 77% decrease in creatinine clearance over the 7 days and a threefold increase in serum creatinine concentration (P of < 0.05). Groups 2, 3, and 4 sustained significantly less nephrotoxicity, with no change in serum creatinine concentration and only 38, 41, and 53% decreases in creatinine clearance, respectively (P of < 0.05), compared with that for group 1. AmB levels in renal tissue varied inversely to creatinine clearance (r of 0.57, P of < or = 0.005). However, no significant differences were found in levels in tissue between groups (P of 0.06). The results of this study suggest that FC has a small but significant effect in reducing chronic AmB-induced nephrotoxicity. This amelioration of renal injury is independent of saline administration. There was evidence that the extent of renal uptake of AmB related to the efficiency of renal function at the end of the experiment.

Liposomal and lipid formulations of amphotericin B. Clinical pharmacokinetics

Amphotericin B remains a very important drug for the treatment of fungal infections despite its toxicity. Encapsulation of amphotericin B into liposomes appears to reduce the toxic effects and to improve the clinical efficacy, allowing higher dosages to be given. The exact mechanism behind the reduced toxicity is not yet known. Amphotericin B is widely distributed after intravenous administration as the deoxycholate solubilisate. The highest concentrations are found in the liver, spleen and kidney. Protein binding and binding to the tissues is very high. The fate of the drug in the body is not known in detail. Renal and biliary excretion are both low and no metabolites have been identified. The drug is still detectable in the liver, spleen and kidney for as long as 1 year after stopping therapy. The pharmacokinetics of the different liposomal amphotericin B or lipid complexes of amphotericin B, which were recently developed, are quite diverse. A number of these preparations, such as amphotericin B lipid complex (ABLC), 'AmBisome' and amphotericin B colloidal dispersion (ABCD) are in clinical development. Their pharmacokinetics depend to a large extent on the composition and particle size of the liposomes or lipid complexes. Relatively large structures such as ABLC are rapidly taken up by the mononuclear phagocyte system, whereas smaller liposomes remain in the circulation for prolonged periods. In all studies only the total amphotericin B (both free and liposome- or lipid-associated) concentrations were determined. There is a need for studies correlating clinical efficacy and tolerability of liposomal amphotericin B with the pharmacokinetic properties of these formulations.

Effect of salt supplementation on amphotericin B nephrotoxicity

It has been suggested that salt loading protects against amphotericin B-induced nephrotoxicity. The influence of saline loading on the nephrotoxic response to amphotericin B (50 mg/dose given i.v. over 4 hr 3 X/week for 10 weeks) was assessed in two groups of ten patients each who were diagnosed with mucocutaneous leishmaniasis. Patients were randomized to receive either 1 liter of 0.9% saline or 1 liter of 5% dextrose in water, administered i.v. over one hour in a double-blinded manner, directly prior to amphotericin B administration. Renal function was monitored on a weekly basis two days after the last dose of amphotericin B. Baseline characteristics were similar in both groups except for a slightly higher serum creatinine concentration (Cr) in the saline group (0.8 +/- 0.05 vs. 0.6 +/- 0.04 mg/dl). Baseline sodium (Na) excretion was relatively high (262 +/- 23 mmol/day in the dextrose group and 224 +/- 17 mmol/day in the saline group). None of the patients sustained an increase in Cr to values greater than 1.7 mg/dl. Although mean Cr remained within normal, there was a significant difference between the two groups over the ten week period, with the dextrose group sustaining a significant increase in Cr and the saline group remaining unchanged. Serum potassium (K) levels fell in both groups necessitating oral K supplementation. The saline group required significantly greater amounts of K supplementation to maintain a normal serum K. Amphotericin B caused a rapid reduction in the acidification ability of the kidney in response to an ammonium chloride load. Under these conditions, the saline group had a poorer ability to acidify the urine.(ABSTRACT TRUNCATED AT 250 WORDS)

Pharmacokinetics, outcome of treatment, and toxic effects of amphotericin B and 5-fluorocytosine in neonates

To determine the pharmacokinetics of amphotericin B and 5-fluorocytosine in neonates, we measured serum concentrations at first dose and after 5 days of therapy by high-performance liquid chromatography in 13 neonates (mean birth weight 1.2 +/- 0.8 kg). The dose of amphotericin B was serially increased from 0.1 to 0.5 mg/kg/day in 10 infants but was decreased from 0.8 to 1.0 to 0.5 mg/kg/day in three infants. Amphotericin B concentrations were not detectable in infants receiving 0.1 mg/kg/day. Amphotericin B cerebrospinal fluid concentrations were 40% to 90% of serum values obtained simultaneously. Serum concentrations after oral administration of 5-fluorocytosine (dose 25 to 100 mg/kg/day) were detectable in all infants. We found extreme interindividual variability for the half-life, volume of distribution, and clearance for both drugs. Four infants had minimal elimination for both drugs between doses, a finding that correlates with rises in serum creatinine (greater than 0.4 mg/dl, 40 mumol/L) and blood urea nitrogen (greater than 10 mg/dl, 3.6 mmol/L). We recommend that the dose of amphotericin B given on the first day of treatment be greater than the usual testing dose of 0.1 mg/kg/day. We also recommend an initial 24-hour dosing interval for amphotericin B and 5-fluorocytosine. Serum drug concentrations may need to be monitored in high-risk, low birth weight infants.

Sodium status influences chronic amphotericin B nephrotoxicity in rats

The nephrotoxic potential of amphotericin B (5 mg/kg per day intraperitoneally for 3 weeks) has been investigated in salt-depleted, normal-salt, and salt-loaded rats. In salt-depleted rats, amphotericin B decreased creatinine clearance linearly with time, with an 85% reduction by week 3. In contrast, in normal-salt rats creatinine clearance was decreased but to a lesser extent at week 2 and 3, and in salt-loaded rats creatinine clearance did not change for 2 weeks and was decreased by 43% at week 3. All rats in the sodium-depleted group had histopathological evidence of patchy tubular cytoplasmic degeneration in tubules that was not observed in any normal-salt or salt-loaded rat. Concentrations of amphotericin B in plasma were not significantly different among the three groups at any time during the study. However, at the end of 3 weeks, amphotericin B levels in the kidneys and liver were significantly higher in salt-depleted and normal-salt rats than those in salt-loaded rats, with plasma/kidney ratios of 21, 14, and 8 in salt-depleted, normal-salt, and salt-loaded rats, respectively. In conclusion, reductions in creatinine clearance and renal amphotericin B accumulation after chronic amphotericin B administration were enhanced by salt depletion and attenuated by sodium loading in rats.

Pharmacokinetics and toxicity of continuous infusion amphotericin B in cancer patients

To evaluate the role of amphotericin B (AmB) in the biochemical modulation of antineoplastic agents, AmB was administered as a continuous infusion over a period of 52 to 120 h to 14 patients (26 courses) with advanced carcinomas. Continuous infusion amphotericin B (CI-AmB) was delivered at a rate of 0.5 to 0.8 mg/kg/d (19-31 mg/m2/d). The AmB plateau levels assayed by HPLC ranged from 0.7 to 1.9 micrograms/mL and were directly related to the infusion rate. The AmB plasma disposition was biphasic, with mean half-lives of 17 h for the first phase and 11 d for the terminal phase, and a mean residence time of 12 d. Biochemical modulation of antineoplastic agents (lomustine, doxorubicin, cyclophosphamide) by CI-AmB was not demonstrated clinically. Acute toxicities of fever and chills were noted in only 3 of the 26 courses. Reversible renal toxicity was observed in 23 courses. Therapeutic antifungal plasma levels were rapidly reached and maintained for the duration of infusion, with a reduction of acute toxicities associated with shorter infusions. These observations provide impetus for further clinical investigation of CI-AmB.

Amphotericin--how safe and effective?

Over a period of 35 days beginning July 23, 1984, the Infection Control Section of the Nassau Hospital, a 535-bed community teaching institution received reports of an unusually high number of PPD tuberculin skin test conversions among employees from Employee Health Service personnel.

The first case involved a registered nurse who, upon receiving a routine annual Mantoux skin test on July 23, converted from the previous year's negative reaction to a significant reaction (20 mm induration) with a greater than normal area of erythema. When she reported this to her private medical doctor prior to beginning INH prophylaxis, she was retested by the physician. This test was read as nonreactive.

Absorption of orally administered amphotericin B lozenges

The systemic absorption of amphotericin B, administered as a 10 mg lozenge, was investigated in 14 patients with malignancies, who received three or four doses daily during chronic administration. The mean plasma amphotericin B concentration, measured 3 h after the morning dose on from 1-20 occasions over a 1-80 day period, ranged among subjects from 46 +/- 13 ng/ml (s.d., n = 20) to 136 +/- 25 ng/ml (n = 19). Using the previously reported intravenous clearance of the drug, the fraction of the dose absorbed was estimated at 8.3-9.9%. This is considerably greater than that estimated from earlier reports (0.2-0.9%), which used much higher oral doses (2-10 g/day).