Non-clinical safety assessment and toxicokinetics of voriconazole and anidulafungin in the juvenile rat: a combination study design in support of a Paediatric Investigation Plan.

Anidulafungin and voriconazole are potent antifungal agents that may provide a powerful therapeutic option over current therapies when coadministered. A non-clinical combination toxicity study was required as part of the voriconazole Paediatric Investigation Plan. Rats received anidulafungin or voriconazole alone or in combination once daily from postnatal day (PND) 21-56 with a recovery period to PND 84. Doses used were based upon the approximate adult rat no observed adverse-effect level (NOAEL). Transient and reversible reductions in bodyweight, haematology, serum chemistry, liver weight and minimal liver changes were associated with anidulafungin. Voriconazole caused an increase in gamma-glutamyltransferase in female rats only. No increased toxicity was observed with the combination. Toxicokinetics were determined using a validated dual-analyte bioanalytical method. Systemic exposure at juvenile rat NOAELs was comparable to that found with adult rats in previous studies. There were no drug-drug interactions affecting exposure of either drug. Juvenile rats were not more sensitive to each drug dosed alone compared with adult rat data on the single drugs. No novel, additive or synergistic toxicities were noted with the combination in juvenile rats. This study will support future studies of the combination of voriconazole and anidulafungin in children with invasive fungal infection.

Therapeutic and toxicologic studies in a murine model of invasive pulmonary aspergillosis.

Invasive pulmonary aspergillosis remains problematic in immunocompromised patient populations. We studied potential therapeutic options in a murine model of pulmonary aspergillosis in triamcinolone-suppressed DBA/2 mice infected intranasally with conidia from Aspergillus fumigatus. Mice were treated with liposomal-amphotericin B (AmBi; AmBisome), lipid-complexed amphotericin B (ABLC; Abelcet), voriconazole (VCZ), micafungin (MICA), caspofungin (CAS) or deoxycholate amphotericin B (AMBd) given alone or in combination. Monotherapy with AmBi, ABLC, AMBd, CAS or MICA had activity in prolonging survival; however, only AMBd or CAS reduced fungal burden in the lungs and kidneys. Combinations of AmBi plus CAS or MICA prolonged survival, but were not better than monotherapy. VCZ was ineffective and AMBd plus CAS showed a possible antagonism. AmBi or ABLC at higher dosages, or loading-doses of AmBi resulted in reduced survival. Histopathology showed increased incidence of serious renal and mild hepatic toxicity in triamcinolone-treated mice given an amphotericin B regimen compared to no or only triamcinolone (minimal renal changes occurred with CAS or VCZ with or without triamcinolone); suggestive of combined toxicity of triamcinolone and the amphotericin B in AmBi or ABLC. Infected treated mice showed progressive pulmonary disease including abscesses, angioinvasion and abundant intralesional fungi. High loading-doses of AmBi were associated with nephrosis and damage to other tissues. No monotherapy or combination regimen showed superiority for the treatment of pulmonary aspergillosis in corticosteroid suppressed mice and the potential for combined drug toxicity was enhanced in these mice. High dosages of lipid-formulated amphotericin B also proved unsatisfactory. Additional studies are needed to evaluate improved treatment.

[Liver toxicity of micafungin. Is this drug safe?]. / Toxicidad hepática de micafungina. ¿Es micafungina un fármaco seguro?

Micafungin was commercialized in Japan in 2002 and has been used in more than 750,000 patients. As a member of the candin family, the drug's clinical and analytical tolerability is very good, both in adults and in children, including neonates. In this latter population, micafungin is the most frequently used candin. The most common adverse effects are nausea and elevated transaminase levels. Preclinical studies showed the development of benign liver tumors in rats treated with extremely high doses of the drug for prolonged periods. These data were not reproduced in other species and no cases have been reported in humans.

Evaluating retinal toxicity of intravitreal caspofungin in the mouse eye.

PURPOSE: Caspofungin is a synthetic echinocandin antifungal agent that inhibits the synthesis of ß(1,3)-D-glucan, an essential component of the cell wall of susceptible Aspergillus and Candida species. In this study, retinal toxicity was determined after intravitreal injection of caspofungin in a mouse model to assess its safety profile for the treatment of fungal endophthalmitis. METHODS: Caspofungin acetate was injected intravitreally in the left eyes of male C57BL/6 mice, with final vitreal concentrations corresponding to 0.41, 1.2, 2.5, 4.1, and 41 µM (five mice per cohort). A total of 25 age-matched male C57BL/6 mice injected with balanced salt solution were used as control subjects (five for each of the five different caspofungin acetate concentrations). Electroretinograms (ERGs) were recorded 7 weeks after the injections, and the injected eyes were examined histologically. RESULTS: Mice injected with caspofungin at vitreal concentrations from 0.41 to 4.1 µM did not have significant alterations in their ERG waveforms, and their retinas had no detectable morphologic changes or loss of cells. At the vitreal concentration of 41 µM, caspofungin reduced the amplitudes of the a-waves, b-waves, and scotopic threshold responses of the ERG and also produced a decrease in the number of cells in the ganglion cell layer. CONCLUSIONS: Caspofungin is a safe antifungal agent at vitreal concentrations of 0.41 to 4.1 µM in mice and consequently shows promise for the treatment of fungal endophthalmitis in humans. Much higher doses produce toxicity and should not be used.