Novel oral amphotericin B formulation (iCo-010) remains highly effective against murine systemic candidiasis following exposure to tropical temperature

Review of Novel Oral Amphotericin B Formulations for the Treatment of Parasitic Infections

Amphotericin B (AmpB) is a polyene macrolide antibiotic used in the treatment of blood-borne parasitic and fungal infections. However, its use, particularly in the developing world, has been limited by dose-dependent kidney toxicity, other systemic-related toxicity issues following injection, the inconvenience of parenteral administration, and accessibility. Oral formulation approaches have focused on the dual problem of solubility and permeability of AmpB, which is poorly water soluble, amphoteric and has extremely low oral bioavailability. Therefore, to enhance oral absorption, researchers have employed micellar formulations, polymeric nanoparticles, cochleates, pro-drugs, and self-emulsifying drug delivery systems (SEDDS). This paper will highlight current uses of AmpB against parasitic infections such as leishmaniasis, preclinical and clinical formulation strategies, applications in veterinary medicine and the importance of developing a cost-effective and safe oral AmpB formulation.

Development of an Oral Amphotericin B Formulation as an Alternative Approach to Parenteral Amphotericin B Administration in the Treatment of Blood-Borne Fungal Infections

In the Fall of 1999, we presented at medical "Grand Rounds" to a number of Infectious Diseases physicians at Vancouver General Hospital about the co-administration of several antifungal compounds in the treatment of blood-borne fungal infections to patients who were immunocompromised (i.e. cancer patients, patients waiting organ transplantation, HIV/AIDs patients, etc.). During the presentation, a physician from the back of the room called out "can you develop an oral formulation of amphotericin B which could be effective and not have the side-effects associated with the parenteral formulations of the drug". The physician stated that an oral formulation would be a big step forward, improving patient compliance, helping in pre-treatment without admitting patients to the hospital prior to organ transplantation and it would be cost-effective. Initially, I responded to the physician, that it would not be possible to develop an oral amphotericin B formulation that could be absorbed from the gastrointestinal (GI) tract in a high enough concentration to be effective in treating blood-borne fungal infections and yet remains non-toxic due to the physical chemical properties of the drug. However, as I travelled back to my lab from the meeting, it struck me that our understanding of how lipids had been processed and orally absorbed from the GI had advanced to the point the maybe incorporating amphotericin B into such lipids might work. Within several years, our laboratory was able to develop a novel oral amphotericin B formulation that was indeed effective in treating systemic fungal infections without the side-effects associated with the drug in a variety of fungal animal models.

Lipid Systems for the Delivery of Amphotericin B in Antifungal Therapy

Amphotericin B (AmB), a broad-spectrum polyene antibiotic in the clinic for more than fifty years, remains the gold standard in the treatment of life-threatening invasive fungal infections and visceral leishmaniasis. Due to its poor water solubility and membrane permeability, AmB is conventionally formulated with deoxycholate as a micellar suspension for intravenous administration, but severe infusion-related side effects and nephrotoxicity hamper its therapeutic potential. Lipid-based formulations, such as liposomal AmB, have been developed which significantly reduce the toxic side effects of the drug. However, their high cost and the need for parenteral administration limit their widespread use. Therefore, delivery systems that can retain or even enhance antimicrobial efficacy while simultaneously reducing AmB adverse events are an active area of research. Among those, lipid systems have been extensively investigated due to the high affinity of AmB for binding lipids. The development of a safe and cost-effective oral formulation able to improve drug accessibility would be a major breakthrough, and several lipid systems for the oral delivery of AmB are currently under development. This review summarizes recent advances in lipid-based systems for targeted delivery of AmB focusing on non-parenteral nanoparticulate formulations mainly investigated over the last five years and highlighting those that are currently in clinical trials.