oryzae compared to CAS or ABLC monotherapy.[26] Furthermore, based on preclinical studies, Reed et al. showed that patients with rhino-orbital-cerebral mucormycosis treated with CAS and ABLC therapy had superior success and survival time compared with patients who received ABLC monotherapy.[73] The same group of investigators[74] showed that the enhanced efficacy of LAmB with micafungin (MFG) or anidulafungin combination therapy
in treating DKA mice with disseminated mucormycosis is a class effect. Triple therapy for mucormycosis consisting of LAmB, MFG and the iron chelator deferasirox was superior to monotherapy or dual therapy treatments. Triple therapy improved survival of mice by 40% compared to 0–11% for AZD4547 price all other
treatments.[75] Given the resistant phenotype of Mucorales with conventional drugs, the potential for triple therapy in mucormycosis should be further investigated in preclinical and clinical studies. Although PSC shows good in vitro susceptibilities against Zygomycetes, the in vivo efficacy of PSC in immunosuppressed murine models of disseminated mucormycosis is substantially variable as well as species- and dose-dependent.[44-48] DZNeP in vitro In order to evaluate its role in combination therapy, Rodriguez et al.[76] investigated the efficacy of PSC in combination with AmB. Findings showed that low doses of AmB (0.3 mg/kg, once daily) combined with PSC (40 mg/kg, once daily) prolonged survival, but it was not superior to the high-dose of administered AmB (0.8 mg/kg, once daily), allowing reduction of the AmB dose and similar efficacy levels with AmB monotherapy. A most recent in vivo combination study, using a non-lethal murine model of cutaneous mucormycosis caused by R. oryzae, showed that TAC
combined with PSC reduced significantly cutaneous lesions and fungal burden compared to the animals administered VRC alone.[77] To date, there is no adequate clinical evidence on the use of VRC as a single agent or in combination therapy. For this reason, additional studies are required to explore further the role of VRC to improve the prognosis and outcome of the patients who develop invasive mucormycosis. Beta-glucan is an essential cell wall component of fungi that lies beneath a Galeterone dense layer of mannan coat. The inner beta-glucan layer is targeted by the dectin-1 receptor of immune cells, mediating the innate immune response, and by the echinocandin class of antifungal drugs. Lamaris et al. [78] showed that the beta-glucan unmasking effect of CAS enhanced the activity of PMN against A. fumigatus and R. oryzae as well as other non-Aspergillus hyphae. The effect of PMN against A. corymbifera, R. microsporus and R. oryzae under the influence of LAmB and ABLC was also investigated in another in vitro study. While LAMB exhibited synergistic activity with PMN in inducing hyphal damage only to R.