Study to Evaluate Fexinidazole Dosing Regimens for the Treatment of Adult Patients With Chagas Disease

Chagas Disease (CD) ranks among the world's most neglected diseases. In Latin America, 21 countries are endemic for CD with an estimated 100 million people at risk of contracting the disease. Estimates from the 1980s indicated that some 16 million to 18 million individuals were infected. In the 1990s, after a series of multinational control initiatives, estimates of the number of infected people were revised to 9.8 million in 2001. The estimated burden of disease in terms of disability-adjusted life years (DALYs) declined from 2.7 million in 1990 to 586,000 in 2001. Recent estimates from PAHO (2006) indicate 7.54 million infected people and 55,185 new cases per year. New safe and effective treatments for Chagas Disease are urgently needed. Current chemotherapy options for CD have significant limitations, including long treatment durations, and safety and tolerability concerns. For many years, inhibitors of the sterol biosynthesis pathway, such as posaconazole and ravuconazole, were considered as the most promising new drugs candidates for Chagas Disease. Following the recent results of CHAGAZASOL, an investigator-initiated trial conducted in Barcelona, where a high recrudescence rate was observed in the posaconazole treatment arms (80-90%, versus 5% in the benznidazole arm), there is increased concern on the future of the class. Nitroimidazoles are a well-known class of pharmacologically active compounds, among which several have shown good activity against trypanosomes. While concerns over mutagenicity and safety have mitigated their potential as drug candidates, several members of this family are widely used as antibiotics, indicating that it is possible to select compounds with acceptable activity/toxicity profile in this class. Fexinidazole had been in preclinical development as a broad-spectrum antiprotozoal drug by Hoechst in the 1970s-1980s, but its clinical development was not pursued at the time. The molecule was ''rediscovered'' and selected for development by the Drugs for Neglected Diseases initiative (DNDi) as a new drug candidate for sleeping sickness, following a systematic review and profiling of more than 700 nitroheterocyclic compounds (mostly nitroimidazoles) from diverse sources, which included assessments of antiparasitic activity and mutagenic potential. Fexinidazole underwent extensive regulatory toxicology studies, including safety pharmacology (respiratory, cardiovascular, and general behaviour) and 4 weeks of repeated dose toxicokinetics studies in rat and dogs. 90-day toxicology studies were performed by Hoechst, allowing validation of the 3 months dosing in rat to a dose of 800 mg/kg/day and dog up to 125 mg/kg/day. Overall, Fexinidazole was found to be well tolerated, with no specific toxicity or other concerns.

During 2010-2011, DNDi carried out several Phase I clinical trials assessing the safety and pharmacokinetics of Fexinidazole in human volunteers given in single and multiple doses. A pivotal phase II/III clinical safety and efficacy study in sleeping sickness patients was started in 2012 and to-date shows encouraging safety and tolerability profile and exposure in patients.

Fexinidazole has previously been described as effective and superior to benznidazole or nifurtimox in one acute murine infection model with the T. cruzi Brazil 32 strain, but the methodologies used to establish cure are no longer considered the most accurate. More recently, in vitro studies performed at Institute Pasteur Korea (IPK) showed that Fexinidazole parent and metabolites (M1 and M2) are more or less equipotent versus T. cruzi in vitro (Tulahuen strain). Fexinidazole Sulfone (M2) is potent against a panel of T. cruzi strains (not including Colombiana or VL-10) albeit at higher concentrations than Benznidazole (2 to 4-fold). Fexinidazole Sulfone requires 72 to 96 hrs exposure at concentrations at or above 100 mM (31 mg/ml) with the Y strain; Benznidazole exhibits the same kinetics but requires exposure at the lower concentration of 12.5 mM (3.3 mg/ml).