Micafungin: a therapeutic review

In recent decades, the incidence of aspergillosis, candidiasis and clinically important deep mycoses has been increasing, with advances in transplantation medicine and anticancer chemotherapy. Micafungin (FK463, Fujisawa Healthcare) has been developed as a novel type of antifungal agent, which inhibits 1,3-β-D-glucan synthase in the fungal cell wall. Micafungin, one of the echinocandins, exhibits extremely high antifungal activity against Aspergillus spp. and Candida spp. in vitro. It is also characterized by a linear pharmacokinetic profile and a much lower prevalence of adverse reactions than amphotericin B. Micafungin is quite useful in the treatment of deep mycoses. In clinical studies in Japan, micafungin was found to be highly effective against aspergillosis (57.1% overall efficacy rate) and candidiasis (78.6%). Micafungin is expected to increase the efficacy rate of treatment in patients with severe aspergillosis or candidiasis when used in combination with amphotericin B or mold azoles.     

Micafungin: the US perspective

Invasive fungal infections cause considerable morbidity and mortality in nosocomial settings and amongst immunocompromised hosts. Invasive candidiasis and aspergillosis remain the most common invasive fungal infections, with Candida spp. constituting the fourth most common bloodstream infection in the USA. Currently available antifungal therapies include the polyene, antimetabolite, allylamine, azole and echinocandin drug classes. Micafungin, approved in March 2005 by the Food and Drug Administration for use in the USA, has shown safety and efficacy for the treatment of candidiasis and aspergillosis in clinical trials in Japan, Europe and South Africa. Micafungin holds promise as a first-line treatment option for candidiasis, as well as prophylaxis against invasive fungal infections during periods of neutropenia in high-risk patients.     

Caspofungin: the first representative of a new antifungal class

Caspofungin (MK-0991; L-743,872) belongs to the echinocandin family, a new class of antifungal agents that act on the fungal cell wall by inhibiting glucan synthesis. Data in vitro, and experimental studies, have demonstrated that caspofungin has antifungal activity against yeasts of the genus Candida (including isolates resistant to azoles and amphotericin B), several species of filamentous fungi, including Aspergillus, and certain dimorphic fungi, such as Histoplasma, Blastomyces and Coccidioides. In vitro and in animals, caspofungin shows additive or synergic antifungal activity with amphotericin B and triazoles. It also possesses activity against Pneumocystis carinii. Clinical trials have shown caspofungin to be well tolerated and effective in invasive aspergillosis in patients refractory or intolerant to standard treatment (45% favourable responses), in oropharyngeal and oesophageal candidiasis (67-93% favourable responses with an efficacy similar to those of amphotericin B and fluconazole), and in invasive candidiasis with efficacy equivalent to that of amphotericin B, and better tolerability. The results of these first clinical trials were promising, and led to the approval of caspofungin for invasive aspergillosis after failure of, or intolerance to, standard therapy. Further studies are required to define the exact role of caspofungin in the antifungal armamentarium.     

In vivo activity of micafungin in a persistently neutropenic murine model of disseminated infection caused by Candida tropicalis

Micafungin is a new echinocandin with broad-spectrum in vitro and in vivo antifungal activity against both Aspergillus and Candida species. We compared the activity of micafungin with that of amphotericin B and fluconazole in a persistently immunocompromised murine model of disseminated candidiasis against a strain of Candida tropicalis that was resistant to amphotericin B and fluconazole in vitro. Mice were rendered persistently neutropenic with multiple doses of cyclophosphamide and infected intravenously with C. tropicalis. Mice were treated with either intraperitoneal amphotericin B (0.5-5 mg/kg per dose), oral fluconazole (50 mg/kg twice a day), intravenous micafungin (1-10 mg/kg per dose) or solvent control for 7 days. Mice were killed at 11 days post-infection and kidneys, lungs, brain and liver removed for quantitative culture. Overall mortality in the model was low, with rates varying between 10% and 25% in treatment groups. Micafungin at doses between 2 and 10 mg/kg were the only regimes able to reduce cfu below the level of detection of tissues infected with C. tropicalis. Micafungin was well tolerated by the mice and was much more effective than amphotericin B or fluconazole against an amphotericin B- and fluconazole-resistant C. tropicalis.     

Efficacy of oral E1210, a new broad-spectrum antifungal with a novel mechanism of action, in murine models of candidiasis, aspergillosis, and fusariosis

E1210 is a first-in-class, broad-spectrum antifungal with a novel mechanism of action-inhibition of fungal glycosylphosphatidylinositol biosynthesis. In this study, the efficacies of E1210 and reference antifungals were evaluated in murine models of oropharyngeal and disseminated candidiasis, pulmonary aspergillosis, and disseminated fusariosis. Oral E1210 demonstrated dose-dependent efficacy in infections caused by Candida species, Aspergillus spp., and Fusarium solani. In the treatment of oropharyngeal candidiasis, E1210 and fluconazole each caused a significantly greater reduction in the number of oral CFU than the control treatment (P < 0.05). In the disseminated candidiasis model, mice treated with E1210, fluconazole, caspofungin, or liposomal amphotericin B showed significantly higher survival rates than the control mice (P < 0.05). E1210 was also highly effective in treating disseminated candidiasis caused by azole-resistant Candida albicans or Candida tropicalis. A 24-h delay in treatment onset minimally affected the efficacy outcome of E1210 in the treatment of disseminated candidiasis. In the Aspergillus flavus pulmonary aspergillosis model, mice treated with E1210, voriconazole, or caspofungin showed significantly higher survival rates than the control mice (P < 0.05). E1210 was also effective in the treatment of Aspergillus fumigatus pulmonary aspergillosis. In contrast to many antifungals, E1210 was also effective against disseminated fusariosis caused by F. solani. In conclusion, E1210 demonstrated consistent efficacy in murine models of oropharyngeal and disseminated candidiasis, pulmonary aspergillosis, and disseminated fusariosis. These data suggest that further studies to determine E1210's potential for the treatment of disseminated fungal infections are indicated.     

In vitro and in vivo antifungal activities of T-2307, a novel arylamidine

The in vitro and in vivo antifungal activities of T-2307, a novel arylamidine, were evaluated and compared with those of fluconazole, voriconazole, micafungin, and amphotericin B. T-2307 exhibited broad-spectrum activity against clinically significant pathogens, including Candida species (MIC range, 0.00025 to 0.0078 microg/ml), Cryptococcus neoformans (MIC range, 0.0039 to 0.0625 microg/ml), and Aspergillus species (MIC range, 0.0156 to 4 microg/ml). Furthermore, T-2307 exhibited potent activity against fluconazole-resistant and fluconazole-susceptible-dose-dependent Candida albicans strains as well as against azole-susceptible strains. T-2307 exhibited fungicidal activity against some Candida and Aspergillus species and against Cryptococcus neoformans. In mouse models of disseminated candidiasis, cryptococcosis, and aspergillosis, the 50% effective doses of T-2307 were 0.00755, 0.117, and 0.391 mg.kg(-1).dose(-1), respectively. This agent was considerably more active than micafungin and amphotericin B against candidiasis and than amphotericin B against cryptococcosis, and its activity was comparable to the activities of micafungin and amphotericin B against aspergillosis. The results of preclinical in vitro and in vivo evaluations performed thus far indicate that T-2307 could represent a potent injectable agent for the treatment of candidiasis, cryptococcosis, and aspergillosis.     

Micafungin

OBJECTIVE: To review the pharmacology, mycology, chemistry, in vitro susceptibility, pharmacokinetics, clinical efficacy, safety, tolerability, dosage, and administration of micafungin, an echinocandin antifungal agent. DATA SOURCES: A MEDLINE search, restricted to English language, was conducted from 1978 to November 2003. Supplementary sources included program abstracts from the Interscience Conference on Antimicrobial Agents and Chemotherapy and the Infectious Diseases Society of America from 1996 to 2003 and information available through the manufacturer's Web site. STUDY SELECTION AND DATA EXTRACTION: In vitro and preclinical studies, as well as Phase II and III clinical trials, were evaluated to summarize the clinical efficacy and safety of micafungin. All published and unpublished trials and abstracts citing micafungin were selected. DATA SYNTHESIS: Micafungin has shown in vitro activity against many yeasts and a variety of molds. Micafungin can be administered only parenterally. Efficacy has been illustrated in open noncomparative studies of esophageal candidiasis in HIV-infected patients and in comparative trials as antifungal prophylaxis in patients undergoing hematopoietic stem-cell transplantation. Adverse events appear mild and limited; the most commonly reported adverse events include hyperbilirubinemia, nausea, and diarrhea. CONCLUSIONS: Micafungin has activity against Aspergillus spp. and a variety of Candida spp., including azole-resistant strains. Micafungin demonstrates efficacy in the treatment of esophageal candidiasis in HIV-infected patients and appears superior to fluconazole as antifungal prophylaxis in patients undergoing hematopoietic stem-cell transplantation. Based on case reports and in vitro efficacy, micafungin may prove to be a clinically useful agent in the treatment of other fungal diseases; however, these indications await the results of clinical trials.     

Comparative antifungal activities and plasma pharmacokinetics of micafungin (FK463) against disseminated candidiasis and invasive pulmonary aspergillosis in persistently neutropenic rabbits

Micafungin (FK463) is an echinocandin that demonstrates potent in vitro antifungal activities against Candida and Aspergillus species. However, little is known about its comparative antifungal activities in persistently neutropenic hosts. We therefore investigated the plasma micafungin pharmacokinetics and antifungal activities of micafungin against experimental disseminated candidiasis and invasive pulmonary aspergillosis in persistently neutropenic rabbits. The groups with disseminated candidiasis studied consisted of untreated controls (UCs); rabbits treated with desoxycholate amphotericin B (DAMB) at 1 mg/kg of body weight/day; or rabbits treated with micafungin at 0.25, 0.5, 1, and 2 mg/kg/day intravenously. Compared with the UCs, rabbits treated with micafungin or DAMB showed significant dosage-dependent clearance of Candida albicans from the liver, spleen, kidney, brain, eye, lung, and vena cava. These in vivo findings correlated with the results of in vitro time-kill assays that demonstrated that micafungin has concentration-dependent fungicidal activity. The groups with invasive pulmonary aspergillosis studied consisted of UCs; rabbits treated with DAMB; rabbits treated with liposomal amphotericin B (LAMB) at 5 mg/kg/day; and rabbits treated with micafungin at 0.5, 1, and 2 mg/kg/day. In comparison to the significant micafungin dosage-dependent reduction of the residual burden (in log CFU per gram) of C. albicans in tissue, micafungin-treated rabbits with invasive pulmonary aspergillosis had no reduction in the concentration of Aspergillus fumigatus in tissue. DAMB and LAMB significantly reduced the burdens of C. albicans and A. fumigatus in tissues (P < 0.01). Persistent galactomannan antigenemia in micafungin-treated rabbits correlated with the presence of an elevated burden of A. fumigatus in pulmonary tissue. By comparison, DAMB- and LAMB-treated animals had significantly reduced circulating galactomannan antigen levels. Despite a lack of clearance of A. fumigatus from the lungs, there was a significant improvement in the rate of survival (P < 0.001) and a reduction in the level of pulmonary infarction (P < 0.05) in micafungin-treated rabbits. In summary, micafungin demonstrated concentration-dependent and dosage-dependent clearance of C. albicans from persistently neutropenic rabbits with disseminated candidiasis but not of A. fumigatus from persistently neutropenic rabbits with invasive pulmonary aspergillosis.     

In Vitro and In Vivo Activities of CS-758 (R-120758), a New Triazole Antifungal Agent

The activity of CS-758 (R-120758), a new triazole antifungal agent, was evaluated and compared with those of fluconazole, itraconazole, and amphotericin B in vitro and with those of fluconazole and itraconazole in vivo. CS-758 exhibited potent in vitro activity against clinically important fungi. The activity of CS-758 against Candida spp. was superior to that of fluconazole and comparable or superior to those of itraconazole and amphotericin B. CS-758 retained potent activity against Candida albicans strains with low levels of susceptibility to fluconazole (fluconazole MIC, 4 to 32 microg/ml). Against Aspergillus spp. and Cryptococcus neoformans, the activity of CS-758 was at least fourfold superior to those of the other drugs tested. CS-758 also exhibited potent in vivo activity against murine systemic infections caused by C. albicans, C. neoformans, Aspergillus fumigatus, and Aspergillus flavus. The 50% effective doses against these infections were 0.41 to 5.0 mg/kg of body weight. These results suggest that CS-758 may be useful in the treatment of candidiasis, cryptococcosis, and aspergillosis.     

Evaluation of Bay R 3783 in rodent models of superficial and systemic candidiasis, meningeal cryptococcosis, and pulmonary aspergillosis.

The triazole Bay R 3783 was compared with fluconazole, itraconazole, ketoconazole, and amphotericin B in rodent models of superficial and systemic candidiasis, meningocerebral cryptococcosis, and pulmonary aspergillosis. Overall, Bay R 3783 was comparable or slightly superior to fluconazole and markedly superior to itraconazole and ketoconazole in both survival and short-term organ load experiments in models of candidiasis and cryptococcosis but was less effective than amphotericin B. Of the antifungal agents tested, only Bay R 3783 and itraconazole showed any efficacy in the model of pulmonary aspergillosis.     

Bench-to-bedside review: <Emphasis Type="Italic">Candida</Emphasis> infections in the intensive care unit

Invasive mycoses are life-threatening opportunistic infections and have emerged as a major cause of morbidity and mortality in critically ill patients. This review focuses on recent advances in our understanding of the epidemiology, diagnosis and management of invasive candidiasis, which is the predominant fungal infection in the intensive care unit setting. Candida spp. are the fourth most common cause of bloodstream infections in the USA, but they are a much less common cause of bloodstream infections in Europe. About one-third of episodes of candidaemia occur in the intensive care unit. Until recently, Candida albicans was by far the predominant species, causing up to two-thirds of all cases of invasive candidiasis. However, a shift toward non-albicans Candida spp., such as C. glabrata and C. krusei, with reduced susceptibility to commonly used antifungal agents, was recently observed. Unfortunately, risk factors and clinical manifestations of candidiasis are not specific, and conventional culture methods such as blood culture systems lack sensitivity. Recent studies have shown that detection of circulating β-glucan, mannan and antimannan antibodies may contribute to diagnosis of invasive candidiasis. Early initiation of appropriate antifungal therapy is essential for reducing the morbidity and mortality of invasive fungal infections. For decades, amphotericin B deoxycholate has been the standard therapy, but it is often poorly tolerated and associated with infusion-related acute reactions and nephrotoxicity. Azoles such as fluconazole and itraconazole provided the first treatment alternatives to amphotericin B for candidiasis. In recent years, several new antifungal agents have become available, offering additional therapeutic options for the management of Candida infections. These include lipid formulations of amphotericin B, new azoles (voriconazole and posaconazole) and echinocandins (caspofungin, micafungin and anidulafungin).     

Effect of Amphotericin B and Rifampin Against Coccidioides immitis In Vitro and In Vivo

Amphotericin B, the principal drug used for treating systemic mycoses, possesses undesirable toxic properties. The ability of this antibiotic to potentiate antifungal activity of other compounds suggests that lower doses of amphotericin B could be used in combination with a second drug without loss of therapeutic efficacy. In vitro tests demonstrated that amphotericin B potentiated rifampin against the mycelial growth phase of Coccidioides immitis but not against the spherule-endospore phase. Therapy for murine coccidioidomycosis with a combined amphotericin B-rifampin regimen was not better than treatment with amphotericin B alone; in fact, combined drugs may have been even less effective. This would have clinical significance for therapy of concurrent infections.     

In vitro antifungal combination effects of micafungin with fluconazole, voriconazole, amphotericin B, and flucytosine against clinical isolates of Candida species

Micafungin (MCFG) is an echinocandin antifungal agent that exhibits potent activity against most species of Candida and Aspergillus. We investigated the in vitro antifungal combination effects of MCFG with four other antifungal agents — fluconazole (FLCZ), voriconazole (VRCZ), amphotericin B, and flucytosine — against clinical isolates of 54 Candida spp. by checkerboard analysis. The synergistic antifungal effects of MCFG-FLCZ and MCFG-VRCZ were 11% and 15%, respectively, and the latter displayed a synergistic activity of 63% against Candida glabrata. Antagonism was not observed in any of the combinations tested.     

Analysis of deep mycoses in autopsy cases

The deep mycosis in compromised patients is increasing. We examined 40 cases (3%) of the deep mycoses out of 1170 autopsy cases experienced in Saint Luke's International Hospital from 1987 to 1996. The deep mycosis was highly associated with hematologic malignancies(23%) but not with solid tumors(2%). The common mycoses were aspergillosis and candidiasis, which were observed in 27(68%) and 14 (35%) cases, respectively. Most of the patients received broad-spectrum antibiotics, anticancer agents and corticosteroids, and showed granulocytopenia. The symptoms of deep mycoses were non-specific, for example, pyrexia and/or respiratory symptoms. The clinical diagnosis was established in 8 cases and the appropriate antifungal agents were used in 12 cases(30%). Thus, empiric amphotericin-B therapy should be started early in-patients with granulocytopenia, respiratory symptoms, and pyrexia.     

Echinocandins in invasive candidiasis]

Invasive fungal infections on the intensive care unit are predominantly caused by Candida spp., most frequently manifesting as candidemia. In spite of increasing treatment options during the last 2 decades, mortality of invasive candidiasis remains high with 20-50%. With the echinocandins, a new class of antifungal drugs with activity against clinically relevant Aspergillus and Candida spp. has become available since the beginning of the new millennium. The echinocandins have shown convincing efficacy in numerous multicenter, mostly double-blinded phase III clinical trials. These trials compared current standard treatment regimens with the echinocandins anidulafungin, caspofungin, and micafungin. All trials observed noninferiority of the new drugs against the standard treatment; in the case of anidulafungin, superiority against fluconazole was demonstrated. Especially in trials utilizing amphotericin B as comparator, significantly less treatment-related adverse events were observed when using an echinocandin. Echinocandins have a low drug-drug interaction profile and are only marginally affected by liver function. Especially in ICU (intensive care unit) patients frequently showing single- or multiorgan failure and receiving a multitude of drugs with complex interactions, echinocandins have become the treatment of first choice for invasive candidiasis.     

Treatment failure in invasive aspergillosis: susceptibility of deep tissue isolates following treatment with amphotericin B

OBJECTIVES: To determine whether treatment failure in invasive aspergillosis (IA) is the result of resistance of Aspergillus spp. isolates to amphotericin B. METHODS: Six Aspergillus fumigatus and six Aspergillus flavus isolates cultured from deep tissue biopsies in 11 patients with haematological malignancies during 1991-1998 were tested. A method based on the NCCLS M38-A broth microdilution method, with colorimetric determination of MICs, was used to determine the MICs of amphotericin B and itraconazole. RESULTS: All A. fumigatus isolates were susceptible to amphotericin B (MIC 0.25-0.5 mg/L), as were three A. flavus isolates (MIC 1 mg/L), but three were less susceptible (MIC 2 mg/L). All isolates were susceptible to itraconazole (MIC 0.125-0.25 mg/L). All patients had been treated with amphotericin B, having received a median of 12 days of treatment when the tissue was obtained. CONCLUSION: The difficulty in treating IA may not be because of the susceptibility of the isolates, but because of poor penetration of antifungal agents into infected tissue. Aspergillus spp. invade blood vessels causing thrombosis and tissue infarction, and therefore it may be difficult for antifungal drugs to exceed MICs in infected tissues. This highlights the need for different treatment strategies, such as surgery and the administration of cytokines.     

Effect of sequential combination of amphotericin B and azole antifungal agents against Aspergillus fumigatus

Patients with aspergillosis have a poor prognosis because there are no effective antifungal agents except for amphotericin B. However, administration of amphotericin B is limited in immunocompromised patients due to its toxicity, which includes impairment of renal function. We attempted to evaluate the efficacy of a sequential combination of antifungal agents against Aspergillus fumigatus strain. The in vitro effects of sequential combinations of antifungal agents against five strains of Aspergillus fumigatus were determined by assessing changes in the wet weight of mycelial cells. The effect of a sequential combination was examined by pretreating mycelial cells with an antifungal agent, followed by the addition of a second antifungal agent. Pretreatment with amphotericin B (AMPH) followed by miconazole (MCZ) or fluconazole (FLCZ) resulted in better in vitro effects compared with the effect of simultaneous use of the agents. In contrast, pretreatment of mycelial cells with azole antifungal agents, other than MCZ, followed by AMPH, resulted in an increase in the wet weight compared with that recorded after simultaneous incubation with AMPH and azole antifungal agents. Our results showed that combined treatment, of AMPH followed by MCZ or FLCZ, inhibited the growth of A. fumigatus, suggesting that such a regimen may be effective against aspergillosis. Received: December 4, 1998 / Accepted: March 31, 1999     

Efficacy of fluconazole (UK-49,858) against experimental aspergillosis and cryptococcosis in mice

The efficacy of fluconazole, a new bis-triazole antifungal agent, was compared with that of orally administered ketoconazole and parenterally administered amphotericin B against aspergillus and cryptococcus infections in mice. Fluconazole was 5-20-fold more active than ketoconazole against systemic aspergillosis and against systemic, intracranial and pulmonary cryptococcosis but was less active than amphotericin B.     

Activity of MS-8209, a nonester amphotericin B derivative, in treatment of experimental systemic mycoses.

The in vitro and in vivo toxicities and activities of MS-8209, a new hydrosoluble amphotericin B (deoxycholate-amphotericin B [D-AmB]; Fungizone) derivative, were studied. In vitro, MS-8209 was less toxic than AmB against renal tubular cells in primary culture and less active against Candida albicans and Cryptococcus neoformans. However, at 10-fold the AmB concentration, MS-8209 in vitro antifungal activity paralleled that of AmB. Fifty-percent lethal doses of MS-8209 and D-AmB in OF1 noninfected mice were 26 and 2.3 mg/kg, respectively. Therapeutic efficacy of MS-8209 was assessed in murine candidiasis, cryptococcosis, and aspergillosis. In each model of infection, we determined the maximum tolerated dosages of MS-8209 and D-AmB, i.e., the dosage inducing less than 15% mortality due to toxicity; the efficacies of MS-8209 and D-AmB at their respective maximum tolerated dosages were compared. In candidiasis, MS-8209 (15 mg/kg) significantly increased the survival time compared with D-AmB (0.5 mg/kg). Both compounds were equally effective at reducing CFU counts in the kidney. MS-8209 was the most effective agent for increasing the survival time in cryptococcal meningoencephalitis and for reducing CFU counts in spleen, brain, and lung during both cryptococcal pneumonia and meningoencephalitis. In aspergillosis, MS-8209 and D-AmB similarly prolonged the survival of treated mice compared with controls. These results show that when MS-8209 and D-AmB were used at the maximum tolerated dosage, MS-8209 was as effective as or more effective than D-AmB for the treatment of systemic mycoses. These findings warrant further experiments to study the pharmacokinetic properties and toxicity of MS-8209 under conditions of chronic administration.     

Efficacy of posaconazole in a murine model of central nervous system aspergillosis

Human central nervous system (CNS) aspergillosis has >90% mortality. We compared posaconazole with other antifungals for efficacy against murine CNS aspergillosis. All tested regimens of posaconazole were equivalent to those of amphotericin B and superior in prolonging survival and reducing CFU to those of itraconazole and caspofungin and to vehicle controls. No antifungal regimen effected cure. No toxicity was noted. Overall, posaconazole shows potential for treating CNS aspergillosis.