View clinical trials related to Trypanosomiasis.
Filter by:Tropical fevers have been a diagnostic challenge from the antiquity. Nowadays, despite the availability of good diagnostic capacities, undifferentiated febrile illnesses continue to be a thorny problem for travel physicians. In developing countries, the scarcity of skilled personnel and adequate laboratory facilities makes the differential diagnosis of fevers even more complex. Health care workers must often rely on syndrome-oriented empirical approaches to treatment and might overestimate or underestimate the likelihood of certain diseases. For instance Neglected Tropical Diseases (NTD) contribute substantially to the burden of persistent (more than 1 week) fevers in the Tropics, causing considerable mortality and major disability. These diseases are however rarely diagnosed at primary health care (PHC) level. The difficulty in establishing the cause of febrile illnesses has resulted in omission or delays in treatment, irrational prescriptions with polytherapy, increasing cost and development of drug resistance. In resource-limited settings, clinical algorithms constitute a valuable aid to health workers, as they facilitate the therapeutic decision in the absence of good laboratory capacities. There is a critical lack of appropriate diagnostic tools to guide treatment of NTDs. While clinical algorithms have been developed for some NTDs, in most cases they remain empirical. Besides, they rarely take into account local prevalence data, do not adequately represent the spectrum of patients and differential diagnosis at the primary care level and often have not been properly validated. The purpose of the study is to develop evidence-based Rapid Diagnostic Test (RDT)-supported diagnostic guidelines for patients with persistent fever (≥ 1 week) in the Democratic Republic of the Congo (DRC), Sudan, Cambodia and Nepal.
This clinical trial is designed to prove the efficacy and safety of Fexinidazole as an oral treatment for human african trypanosomiasis in advanced stage. The Fexinidazole is compared to reference treatment NECT. The trial will try to demonstrate that Fexinidazole is not inferior to NECT treatment.
This study is aimed at assessing the tolerability and pharmacokinetic parameters of SCYX-7158 in healthy volunteers. In animal models of both acute and chronic experimental Trypanosomiasis infections, SCYX-7158 shows highly promising efficacy.
This trial will study the tolerability and pharmacokinetic of fexinidazole using two different dosage regimen of repeated administrations. The drug is administered to human healthy volunteers of sub-saharan origin together with food, once a day during 10 days, with a loading dose during 4 days.
This study is aimed at assessing the tolerability and pharmacokinetic parameters of the fexinidazole in healthy volunteers. In animal models of both acute and chronic experimental Trypanosomiasis infections, fexinidazole shows highly promising efficacy.
Multicenter, open label, uncontrolled phase IIIb study of therapeutic use of the combination of nifurtimox and eflornithine (NECT) for the treatment of Trypanosoma brucei gambiense human African trypanosomiasis (HAT) in the meningo-encephalitic phase. Overall objectives: Assess the clinical tolerability, feasibility and effectiveness of NECT co-administration to treat patients with T.b. gambiense human African trypanosomiasis (HAT) in the meningo-encephalitic phase in actual real-life conditions (regular treatment centers of the National HAT Control Programme, NGO treatment centers). Primary objective: - Assess the clinical response of the NECT co-administration under field conditions. Secondary objectives: - Assess the incidence and type of adverse events (AE), and the capacity of the treatment centers to deal with these. - Assess the feasibility of the implementation of the NECT coadministration by the health center. - Assess the effectiveness of the NECT co-administration at 24* months after treatment.
Human African Trypanosomiasis or sleeping sickness has made a spectacular return during the last decade, and in many places the demand largely surpasses the capacities of the treatment centers. Treatment of the disease remains unsatisfactory. All currently used drugs must be administered parenterally, treatment is lengthy, and adverse drug reactions frequent. There are currently no drugs that are easily administered and have low toxicity, and might thus be used as tools to support disease control. This study aims to compare the safety and efficacy of DB289, a new, orally administered dication prodrug to pentamidine i.m. injection for the treatment of first stage sleeping sickness. The project will be executed in the framework of an international consortium consisting of several partners from academia, industry and from the Democratic Republic of Congo Ministries of Health.
Human African Trypanosomiasis or sleeping sickness has made a spectacular return during the last decade, and in many places the demand largely surpasses the capacities of the treatment centers. Treatment of the disease remains unsatisfactory. All currently used drugs must be administered parenterally, treatment is lengthy, and adverse drug reactions frequent. There are currently no drugs which might be used as a tool to support disease control that is easily administered and has low toxicity. This study aims to assess the efficacy of DB289, a new, oral drug for treatment of first stage sleeping sickness. The project will be executed in the framework of an international consortium consisting of more than a dozen partners from academia, industry, and the Ministries of Health of Angola and the Democratic Republic of Congo.
This case series study follows on a terminated randomised clinical trial in a nearby location of Uganda, in which the combination of eflornithine + nifurtimox showed very promising efficacy and safety. The study's purpose is to evaluate the efficacy and safety of this combination in a larger group of late-stage Human African trypanosomiasis (sleeping sickness) patients.
The treatment human African trypanosomiasis (HAT) in the meningoencephalitic phase relies on two molecules officially registered: melarsoprol, the most commonly used, has a poor safety profile and is becoming ineffective due to parasite resistance; and eflornithine, with better tolerance but more complicated and expensive to implement in endemic countries. nifurtimox, registered only for Chagas' disease but used off-label since the 1970’s in series of cases of HAT, is at present the only other available alternative. The very limited number of compounds available, the lack of prospects for the development of new products and the emergence of resistance are arguments for the use of therapeutic combinations. This study evaluates the efficacy and safety of three drug combination therapies: melarsoprol-nifurtimox, melarsoprol-eflornithine and eflornithine-nifurtimox.