View clinical trials related to Leishmaniasis.
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.
Investigational products: LEISH-F3 (recombinant protein antigen) + GLA-SE (adjuvant) leishmaniasis vaccine and LEISH-F3 (recombinant protein antigen) + MPL-SE (adjuvant) leishmaniasis vaccine. Stage of development: Phase 1 clinical development. Healthy adult subjects, 18 to 49 will be recruited through a U.S. site. Primary objective: To evaluate the safety and tolerability of the LEISH-F3 + GLA-SE vaccine and the LEISH-F3 + MPL-SE vaccine following intramuscular (IM) administration of 20 µg of LEISH-F3 together with 2 or 5 µg of GLA-SE or 10 µg of MPL-SE on Days 0, 28, and 168. Secondary objective: To assess the immunogenicity of LEISH-F3 formulated with GLA-SE, MPL-SE, or SE by evaluating IgG antibody responses to LEISH-F3 at Days 0, 28, 56, 168, 196, and 365, and T cell responses to LEISH-F3 at Days 0, 14, 42, 168, 182, and 365. Each subject's duration of participation will be about 18 months.
Infections caused by the protozoan parasite Leishmania include cutaneous (CL), mucosal (ML) and visceral leishmaniasis (VL). Over 12 million people currently suffer from leishmaniasis, and approximately 2 million new cases occur annually, making it a major global health problem. CL CL caused by Leishmania tropica is endemic around the city of Bikaner in Thar Desert region of the State of Rajasthan . WHO recommends antimonials such as sodium stibogluconate (SSG) to treat CL. However, these drugs are toxic and have poor patient compliance as they require multiple intramuscular or intralesional injections for 3 weeks. In addition, the emergence of drug-resistant strains is rapidly increasing worldwide. We are interested in novel treatments for CL that are safe, easy to administer and effective in inducing long-term cure. Recently, radio-frequency-induced heat (RFH) therapy has been used to treat CL. This treatment involves the controlled and localized delivery of radiofrequencies into lesions for 30-60 seconds under local anesthesia. Several short-term follow-up (4-5 months) studies as well as one long-term follow-up (12 months) study involving US soldiers who were infected with L. major in Iraq found that RFH therapy was comparable, or even better, than systemic antimonials. However, more studies are needed to establish long-term efficacy of RFH therapy in treatment of CL caused by other Leishmania species that are difficult to treat with conventional drugs, and to determine the risk of disease recurrence if any in patients living in Leishmania endemic regions. The goal of this trial is to compare long term efficacy of RFH therapy in treatment of CL caused by L. tropica in patients residing in Leishmania-endemic regions of India.
Visceral leishmaniasis (VL) is a public health problem in Bangladesh, India and Nepal. To control the disease in these three countries a National kala-azar elimination program is ongoing. One of the major pillars of the elimination program is VL vector control. Currently there is a no public VL vector control program in Bangladesh. In India the program is depending on Indoor Residual Spraying with insecticides. IRS with DDT and in Nepal on Alpha-cypermethrin. The sand fly, vector of VL is already resistant to DDT and hurdles related with IRS i.e. funds, logistics and human resources make IRS unsustainable VL vector control method in Nepal. Thus alternative to IRS for VL vector control is highly desirable for the success of national kala-azar elimination program in these three countries. Through current research activities we will compare the effectiveness of three effective VL vector control methods. They are 1) Plastering of household walls with lime (a traditional method known in the study areas),treatment of possible sand-fly breeding places with lime and bleaching powder; 2) Installing durable wall lining containing deltamethrin in the main living room(s) of households; 3) Impregnation of existing bed-nets with slow release insecticide tablet containing deltamethrin. The study finding will be important for the national elimination program of the three countries through discovering the most effective VL vector control method.
This Phase 2 study is to determine whether WR279396 with occlusion (a polyurethane dressing) is more effective than WR279396 without occlusion for once daily treatment. Extensive objective and subjective local tolerance data will also be captured during this trial, as well as surrogate markers (parasite loads and aminoglycosides concentration in the deep dermis) that may help to determine the optimal number and duration of treatments. The results from this study will help determine the most practical treatment schedule and will answer questions that are crucial to improve the present treatment regimen with WR279396 which is twice a day for 20 days.
The purpose of this study is to determine the safety, tolerability, and immunogenicity in healthy adult subjects of an investigational vaccine being developed for the prophylaxis of visceral leishmaniasis. The vaccine, identified as LEISH-F3 + GLA-SE, consists of the recombinant two-antigen Leishmania recombinant protein LEISH-F3 together with the adjuvant GLA-SE.
The purpose of this study is to determine whether adding pentoxifylline to treatment of American cutaneous leishmaniasis with meglumine antimoniate increases the rate and speed of clinical response without diminishing safety, and to identify immune correlates of the healing response.
The purpose of this study is to determine the pharmacokinetics of miltefosine in children and adults with cutaneous leishmaniasis in plasma and intracellularly, and its relation with the parasitologic response. The results will provide pharmacologic bases to optimize the use of miltefosine for the treatment of cutaneous leishmaniasis, and will provide the knowledge base to assess the impact of pharmacokinetic behavior in children and adults on the emergence of drug resistance.
The purpose of this study is to determine whether pentoxifylline associated to pentavalent antimony has a higher cure rate than pentavalent antimony alone in the treatment of cutaneous leishmaniasis.
Cutaneous leishmaniasis is endemic in the New World from approximately the US-Mexican border through Central America and the Northern part of South America down to the level of Rio de Janeiro. Until recently, the standard treatment for the leishmaniases was pentavalent antimony (Glucantime or Pentostam). The cure rate for L panamensis in Colombia is 91%-93% [Soto, 1993; Velez, 1997], a large study with several formulations of antimony found a combined Bolivia-Colombia cure rate of 86% [Soto, 2004b], and in work just completed, the cure rate in Palos Blancos, Bolivia is 15 of 16 = 94% [ Soto, manuscript in preparation]. Nevertheless, pentavalent antimonials have the disadvantages of multiple injections and mild-moderate clinical toxicity [gastrointestinal complaints, liver enzyme elevations, pancreatic enzyme elevations], all of which are particularly unpleasant for a moderate clinical problem such as cutaneous leishmaniasis. The oral agent Miltefosine has now been shown to be as effective as antimony in Colombia and Bolivia. In Colombia, the cure rate for miltefosine was 91% [Soto 2004a] and in the just-completed trial in Palos Blancos, the cure rate for miltefosine was 32 of 37 = 88 % . Side effects seen in patients with cutaneous disease that can be specifically attributed to the drug are nausea and vomiting of mild grade in approximately 25% of patients, and low-grade elevation of creatinine also in approximately 25% of patients [Soto 2001; Soto 2004]. The 6-month cure rate did not reach 100%, and miltefosine was relatively slow to cure compared to Sb. 31 of 44 evaluable miltefosine patients (70%) were cured by 1 month after therapy, compared to 16 of 16 evaluable Glucantime patients (100%). Imiquimod (Aldara; 3M Pharmaceuticals) is a novel immune response-activating compound, approved by the FDA for cervical warts, that activates macrophage killing of Leishmania species. Combined imiquimod plus Glucantime was used as rescue treatment in 12 patients with Peruvian cutaneous leishmaniasis who had previously not responded to Glucantime alone. 90% of patients were cured at the 6-month follow-up period [Arevalo, 2001]. In a follow up study [Miranda-Verastegui et al, 2005], naïve patients were randomized between the combination of Sb plus imiquimod (18 patients) vs Sb plus placebo (20 patients). The cure rate at 1 month after therapy was 50% in the imiquimod +Sb group compared to 15% in the placebo+Sb group (p = 0.02). By 12 months after therapy, the Sb+placebo group had caught up, and the cure rate was 72%-75% in each group. Local side effects were evaluated. Edema, itching, burning, pain were equal in the two groups. There was more erythema in the imiquimod grup (55% of patients) compared to the placebo group (25% of patients). The Imiquimod studies in neighboring Peru suggest that combination with this immunomodulator is capable of decreasing the time to cure, and potentially increasing the cure rate, in Andean cutaneous leishmaniasis. The present study will evaluate the combination of oral miltefosine plus topical imiquimod for cutaneous leishmaniasis in Bolivia. If in the first group of patients, cure rate at 1 month after therapy is appreciably above the 70% historic value for miltefosine alone and the cure rate at 6 months is greater than the 88% historic value for miltefosine alone, subsequent patients will be randomized between miltefosine+imiquimod and miltefosine+placebo cream.