Safety and Tolerability Study of Acoziborole in g-HAT Seropositive Subjects

Overview

Human African trypanosomiasis (HAT) or sleeping sickness is a tropical disease which is endemic in sub-Saharan Africa. Most cases of HAT are due to the parasite Trypanosoma brucei gambiense (T.b. gambiense), which is transmitted by the bite of the tsetse fly. HAT can be fatal without diagnosis and treatment. Several treatment options are currently available to treat HAT caused by the T.b. gambiense parasite (g-HAT), but these treatments can be administered only after demonstrating via microscopy the presence of the parasite in a body fluid. However, there are factors such as low parasitaemia and the complexity and low sensitivity of parasitological methods that make such demonstration difficult. It has been demonstrated that a variable proportion (mainly depending on the prevalence) of such g-HAT "sero-suspects" are confirmed cases and, therefore, remain potential reservoirs of the parasite and a source of new infections hindering the efforts to eliminate the disease. The drug acoziborole was evaluated in a study called "DNDi-OXA-02-HAT". During this study, patients with g-HAT from the DRC and Guinea took a single dose of acoziborole. This study showed that acoziborole has a high efficacy and is safe for treating patients with confirmed g-HAT . The present study is called "DNDi-OXA-04-HAT". It included seropositive participants from the DRC and Guinea who did not have parasites detected via microscopy in a body fluid. Its objective was to collect data on the safety and tolerability of a single dose of acoziborole compared to a placebo (i.e. a dummy treatment). The results of this study would help decide if acoziborole can be used in the population of g-HAT seropositive individuals and help eliminate the HAT disease.

HAT, or sleeping sickness, is a neglected tropical disease which is endemic in sub Saharan Africa. This vector-borne parasitic disease is transmitted by the bite of the tsetse fly and can be fatal without diagnosis and treatment. The parasites responsible for HAT are the protozoa T.b. gambiense and T.b. rhodesiense. In 2021-2022, HAT due to T.b. gambiense (g-HAT) represented 94% of all HAT cases detected. Between 2018 and 2022, approximately 1.5 million people lived in areas (mainly rural areas of sub-Saharan Africa) considered to be at moderate to very high risk of HAT and where the disease is still considered as a public health problem. Thanks to efforts from national control programs, supported by the World Health Organization (WHO), non-governmental organizations, bilateral cooperations, the private sector (including pharmaceutical companies) and philanthropic organizations, the number of cases of g-HAT is consistently falling. With respectively 799 and 675 cases of g-HAT reported in 2022 and 2023, the global goal of sustainable disease elimination by 2030, including the interruption of g HAT transmission, is achievable. As the numbers of reported cases diminish, resources for surveillance and specialized screening also taper. This decrease, coupled with the loss of diagnostic skills and disease management expertise, could lead to a weak and less specialized HAT technical environment. Several therapeutic options are currently available to treat g-HAT at either the hemolymphatic (early) stage or meningoencephalitic (late) stage. In December 2018, fexinidazole was registered for the treatment of g-HAT in DRC. Since then, all other endemic countries authorized the use of fexinidazole for the treatment of g-HAT. Fexinidazole is administered as a 10 day oral treatment to patients with early- or late-stage g-HAT. In patients with very advanced g-HAT, nifurtimox eflornithine combination therapy (NECT) remains the first line treatment, due to the increased risk of relapse in these patients when treated with fexinidazole. Children with g-HAT who have a body weight below 20 kg and/or are under 6 years of age are treated with pentamidine (early stage) or NECT (late stage). Pentamidine and NECT are administered as intravenous (IV) infusions performed daily, over 7 days. Whilst the delivery of fexinidazole has simplified the management of g-HAT and has facilitated the integration of g-HAT treatment into general health systems, it is expected that the current investment in acoziborole as an oral, single-dose treatment will help boost elimination efforts envisioned for all stages of g-HAT. Indeed, treatment with NECT and fexinidazole are conditioned by the demonstration of the parasite in any body fluid via microscopy. However, factors such as low parasitemia as well as the complexity of parasitological diagnostic methods make this demonstration difficult. Acoziborole, as a single-dose oral administration, was studied in the open-label pivotal Phase II/III study (DNDi-OXA-02-HAT). The study was conducted in patients with g-HAT (all stages) in the DRC and Guinea. The results of the study showed the high efficacy of acoziborole in any stage of g-HAT, which was comparable to the efficacy of the reference treatment NECT used as a yardstick. Safety data collected during this study did not identify any new safety signals. Based on these data, the benefit-risk balance for treating g-HAT patients (regardless of the disease stage) with acoziborole administered as a single oral dose of 960 mg appeared favorable. The present study (DNDi-OXA-04-HAT) was conducted in g-HAT seropositive individuals who were unconfirmed parasitologically. It was designed with the objective of assessing the safety and tolerability of a single 960-mg dose of acoziborole compared with placebo during a follow-up period of 4 months. This study included an exploratory Sub-Study named "TrypSkin" which had the main objective of assessing the presence of extravascular dermal T.b. gambiense in the enrolled population. Participation in this Sub-Study was optional.