View clinical trials related to Leishmaniasis, Visceral.
Filter by:Rationale The overall objective of this trial is to identify a safe and effective combination, (co-administration) short course treatment for the treatment of VL which could be easily deployed in a control programme. The hypothesis is that the combination treatment is as effective or better than the 5 mg/kg single dose of AmBisome and will reduce the risk of parasite resistance occurring. Safety and tolerability should be such that the combination can be easily deployed. Objective The specific primary and secondary objectives are as follows: Primary objective: To identify a short course combination treatment regimen which is at least as effective as a single dose of AmBisome 5mg/kg Secondary objective: To compare safety and tolerability of the various treatments measured by vital signs, blood biochemistry, (renal and liver function tests) haematology, spontaneous and elicited adverse event reporting Primary Endpoint: The primary efficacy endpoint variable is parasitological clearance 2 weeks after start of treatment with no relapse during follow up and no clinical signs or symptoms of VL at 6 months post treatment. Parasitology is only carried out at any time during follow-up or at six months post treatment if there are signs or symptoms of VL infection.
The purpose of this study is: 1. To evaluate the Safety and Efficacy of four different short-course regimens of Amphotericin B emulsion in treatment of Kala-azar (visceral leishmaniasis) subjects who are either treatment naive or treatment resistant to other antileishmanial drugs except amphotericin B containing preparations. 2. To assess the safety and efficacy of single-bolus infusion of Amphotericin B emulsion in treatment of Kala-azar.
The purpose of this study is to determine if a vaccine (called Leish-111f + MPL-SE) is safe and whether it can or cannot produce a protective response against visceral leishmaniasis when injected to healthy subjects.
Sitamaquine is an 8-aminoquinoline which is being developed as an oral treatment for visceral leishmaniasis (VL). Pre-clinical and subsequent clinical investigations have demonstrated oral efficacy against Leishmania donovani. The purposes of this study are to characterise the pharmacokinetic profile of sitamaquine, administered orally, and to determine if the pharmacokinetic profile is affected by administration with food. The study is also designed to further characterise the safety and tolerability of sitamaquine compared with amphotericin B, particularly in reference to renal, hepatic and cardiac adverse events, prior to initiation of phase III studies. Finally the study will investigate the efficacy of a 21 day treatment course. Previous studies have used 28 days dosing, but parasitological evidence from one study suggests that shorter courses may be effective.
Miltefosine will be administered to Brazilian patients with kala azar
Miltefosine and liposomal amphotericin B (AmBisome) are approved drugs for visceral leishmaniasis. In this study both drugs will be given in a sequential manner. AmBisome will be given on day 1, followed by Miltefosine for 14 days. Final Cure will be evaluated at six months.
The investigators are using a sequential design to combine miltefosine and AmBisome in different doses.
Visceral leishmaniasis is a potentially fatal disease caused in South America by the protozoan Leishmania chagasi. In neighborhoods with high exposure rates, the outcome of human infection with L. chagasi ranges from asymptomatic to a disseminated wasting disease called visceral leishmaniasis (VL). Several studies document familial clustering of VL in populations at risk. Segregation analyses favor a genetic over an environmental model for susceptibility to L. chagasi infection. A peri-urban outbreak of VL near the Universidade Federal do Rio Grande do Norte (UFRN) in Natal, northeast Brazil, has allowed us to identify endemic neighborhoods with ongoing transmission of L. chagasi infection. Natal is ideal for this study because endemic neighborhoods are easily accessible, people are motivated to cooperate with measures to control VL, and other forms of leishmaniasis are not transmitted in the region. Dr. Jeronimo of the UFRN, and Dr. Mary Wilson at University of Iowa have collected clinical data and DNA from 400 VL families living in these endemic neighborhoods. We have created an unprecedented cohort through which we can identify four distinct phenotypic responses after L. chagasi exposure. We documented familial clustering of L. chagasi infection, and results of both correlation and segregation analyses are consistent with the hypothesis that genetic factors predispose, in part, to the diverse clinical outcomes after infection. Polymorphism in the TNF locus is associated with developing symptomatic as opposed to asymptomatic disease after infection. We recently completed a genome-wide scan of the quantitative immune response (DTH) and identified potential linkage regions on chromosomes 2, 13, 15 and 19. We have also identified a small linkage peak on chromosome 9 for VL. In our ongoing study, we will next perform fine mapping of these regions using dense SNPs to identify genes that may determine susceptibility to L. chagasi infection. Additionally, we will also analyze candidate genes for association/linkage with susceptibility to or protection from L. chagasi disease. We recently identified an association on chromosome 5 with the DTH immune response among two linkage disequilibrium blocks spanning multiple immune related genes.
A cluster-randomized vector control trial in Bihar, India, and neighboring Nepal, will test the efficacy of long-lasting impregnated bednets (LLINs, Permanets) for reducing visceral leishmaniasis incidence. The intervention unit is the village (400-1000 people). The study is designed to detect a 50% reduction in Leishmania donovani incidence in intervention compared to control clusters over 2 years. 24 clusters (selected as high incidence during previous years) will be randomly allocated to intervention or control. Following health education, and with informed consent, all households in intervention villages will receive free Permanets (from September 2006). Net usage will be monitored and new nets provided if required. Control villages will not be given untreated nets, as - although commonly used in this region - their effectiveness against sandflies has not been proven. Pre-intervention infection status of villagers (>2 yrs) will be evaluated serologically from finger-prick blood (and past/current disease status noted). Incident infections will be recorded by 3-monthly active search for clinical cases, and by annual serological diagnoses to detect subclinical infections. All villagers (>2yrs) will be leishmanin skin tested at the end of the trial for further subclinical infection detection, and sera from a sub-sample will be tested for antibodies to sandfly saliva antigens (a measure of sandfly exposure). All clinical cases will be given free treatment. Free Permanets will be provided to control villages after the trial. Complementary studies involve entomological surveillance by light traps in a sample of houses and social/economic questionnaire surveys. The entomological surveys will test whether community-wide use of LLINs provides any mass effect, which could protect those in the community who fail to use LLIN for any reason.
This study is being conducted to assess the safety and efficacy of amphotericin B deoxycholate in doses of 0.75 mg/kg or 1.0 mg/kg for 15 doses. In each arm the drug is given in the conventional way every alternate day against the daily administration regimen being tested.