Active clinical trials for "Leishmaniasis"

This prospective cohort study has the aim to develop a prognostic tool to predict relapse in patients suffering from visceral leishmaniasis (VL) from VL endemic regions in Ethiopia. Therefore, comprehensive clinical and laboratory characterization of all confirmed VL patients before and during treatment will be performed in order to identify the factors that determine prognosis of the patients. This approach would result in more efficient patient care and would reduce the case fatality and morbidity, and improve follow-up and care for those at risk of VL relapse.

This is a randomized, open-label, phase II, single-centre study, with one LXE408 regimen and one calibrator arm with the standard of care SSG combined with PM, to be conducted in male and female adult and adolescent (≥15 years and <45 years) patients with confirmed primary visceral leishmaniasis in Ethiopia.

Phase 2/3 randomized and controlled clinical trial, which will evaluate the effectiveness of the association meglumine antimoniate (Glucantime) with tofacitinib in the cure of CL and the capacity of this association to reduce the time of cure of the disease.

Visceral leishmaniasis (VL) is a fatal disease caused by Leishmania parasites and transmitted by female phlebotomine sandflies. The disease is a serious public health problem in eastern Africa; including Kenya where an estimated 4000 cases occur annually and 5 million people are at risk of infection. Accurate diagnosis of VL is critical for appropriate treatment. Currently, VL diagnosis in Kenya is based on testing suspected patients with the IT-Leish rK39 rapid diagnostic test (RDT) followed by other tests such as the Direct Agglutination Tests (DAT) and microscopy of tissue aspirates (splenic, bone marrow, lymph node) on rK39-negative patients. However, these diagnostic tools present several challenges including; the need for expertise, equipment and low diagnostic sensitivity of (85%) for DAT and rK39. Alternative VL diagnostic tools that are readily available, easy to use with increased sensitivity are needed to improve VL surveillance and control in Kenya. In the present study, we will assess rK28 as a diagnostic tool including performance with increased sensitivity when used together with IT-Leish rK39 and its potential for inclusion in VL diagnosis algorithms and evaluate Kala-azar Detect rK39 for potential use in Kenya. Suspected patients presenting at VL testing facilities in Marsabit, Turkana and Wajir Counties will be recruited prospectively and tested using IT-Leish rK39 followed by DAT for case confirmation according to the national guidelines. Alongside the case confirmation, samples from participants will also be tested using the rK28 and Kala-azar Detect rK39 in whole blood and serum. The collected data will be analyzed and compared separately between the RDTs as well as in combination, and the performance of the algorithms determined retrospectively. This design will enable the assessment of the sensitivity of combining rK28 and rK39 (Kala-azar Detect) compared to rK39 (IT-Leish/Kala-azar Detect) alone. Microscopy will be used as confirmatory test. We will also assess the feasibility, usefulness, and cost-effectiveness of rK28 in the VL diagnostic algorithm, through sensitivity analyses. The improved understanding of rK28 as a VL diagnostic tool and its potential for inclusion in the VL diagnosis algorithm could enable faster and more effective management of cases and accelerate elimination of VL.

Left untreated, visceral leishmaniasis (VL) is fatal. The highest burden of VL worldwide is in eastern Africa where field-adapted diagnostic and test-of-cure tools and treatment are lacking. The current laboratory tool to help assessing cure, treatment failure and relapse is microscopy, based on invasive sampling (e.g. splenic or bone marrow aspirate). Non-invasive, more sensitive tools will enable these assessments with minimum risk and discomfort to patients. This study aims to evaluate immunological and molecular tests to predict cure and relapse, and to replace with these the current invasive methods. The study will be conducted at the Leishmaniasis Research and Treatment Centre (LRTC), Gondar University Hospital, Ethiopia It will be a non-intervention study, the tools under evaluation will be considered as index tests; their results will not influence patient management during the duration of the study. Patient management will follow the national guidelines for VL diagnosis and management in Ethiopia.

This study will examine the natural history of Leishmanial infections and their treatments. It will provide an opportunity for NIAID staff to learn more about leishmaniasis and perhaps to improve diagnostic tests for these infections. Patients between 2 and 80 years of age with known or suspected leishmaniasis are eligible for this study. Participants will have routine blood tests and a biopsy to confirm leishmanial infection. The biopsy procedure will be determined by the type of infection local cutaneous leishmaniasis (LCL), mucocutaneous leishmaniasis (MCL) or visceral leishmaniasis (VL). CL will be confirmed with a punch biopsy, in which a cookie-cutter type razor is used to remove a small circular piece of skin tissue. MCL will be confirmed using a thin flexible tube inserted into the nose. This tube is used to examine the nose and upper airway and to remove a tissue sample, if an affected area is seen. VL will be confirmed with either a bone marrow or liver biopsy or a splenic aspirate. For these procedures, a small tissue sample is withdrawn through a needle placed in the hipbone, liver or spleen, respectively. Some patients may also have a skin test for leishmaniasis similar to tuberculin skin testing. Treatment and length of hospital stay are determined by the type of infection. CL may be treated with Pentostam, amphotericin, amphotericin B, itraconazole or ketoconazole; ML with amphotericin B, or encapsulated amphotericin; and VL with Pentostam or encapsulated amphotericin. Pentostam is infused daily for 18 to 28 doses, most as an outpatient. Blood is drawn 3 times a week for safety tests and an electrocardiogram is done 2 to 3 times a week to monitor heart rhythm. Amphotericin B is infused every day or every other day for about 30 doses, all on an inpatient basis. Patients undergo hydration (infusion of a large amount of fluid) just before and immediately after each infusion to protect the kidneys. Blood is drawn every other day and urine samples are collected occasionally for routine urinalysis. Encapsulated amphotericin is infused every other day, on an outpatient basis. Blood is generally drawn every other day to every 2 days and urinalyses are done periodically. Itraconazole and ketoconazole are taken orally for at least 1 to 3 months, with blood drawn every 2 to 3 weeks. Patients may be asked to have photographs taken before, during and after treatment to document progress. They may also be asked to provide extra blood samples for research purposes, either through a vein in the arm or through apheresis, a method for collecting large numbers of cells. For apheresis, whole blood is collected through a needle in an arm vein and circulated through a machine that separates it into its components. The desired cells are then removed, and the rest of the blood is returned to the body, either through the same needle used to draw the blood or through a second needle in the other arm. Patients with cutaneous leishmaniasis will have a follow-up clinic visit 2 weeks to 3 months after treatment is completed. If there are no complications, their participation will end at that time. Patients with mucocutaneous leishmaniasis and visceral leishmaniasis will be followed every 3 to 6 months indefinitely for routine evaluations and re-treatment if the infection recurs.

The disease leishmaniasis mainly occurs in hot and tropical countries, affects millions of people and causes around 20,000 deaths across the world every year. Leishmaniasis is caused by the Leishmania parasite and is transmitted by sand flies. The parasite is tiny and not visible to the naked eye, whereas the sand fly is visible but small and inconspicuous. There are different types of leishmaniasis which can affect the skin (cutaneous leishmaniasis) or the internal organs of the body (visceral leishmaniasis). Some of the milder forms will produce skin problems which will be localised, whilst other forms of leishmaniasis will cause widespread skin changes. The skin lesions of cutaneous leishmaniasis can be disfiguring if left untreated. There are some treatments for leishmaniasis but many of them are not easy to use or don't work well. Therefore, new treatments are needed including vaccines that prevent or work against leishmaniasis. A solution being adopted for other diseases, which the investigators now wish to adopt for leishmaniasis is to develop a 'Controlled human infection model' (CHIM). These models involve deliberate exposure of individuals to an infection, in order to better understand how the disease works and to test potential vaccines and treatments. They have contributed knowledge that has led to advances in the development of treatments. This is study builds on an our initial successful study, FLYBITE, where uninfected (disease-free) sand flies were used to test the safety aspects and ensure that sand flies were able to bite human participants in a controlled environment. The investigators observed no major adverse effects and it was well tolerated by participants. The investigators therefore wish to proceed to a study using sand flies infected with a form of leishmaniasis that causes localised skin disease and is treatable, on the pathway to assessing future vaccines.

Cutaneous leishmaniasis manifestations range from self-healing localized skin ulcers/nodules to diffusely spread chronic lesions. Knowledge on the host-parasite interactions underpinning the different clinical presentations is scarce, in particular for L. aethiopica infections where disease can be extremely severe. Our aim is to define differences in skin immune responses and parasite virulence in CL patients at single cell/parasite level and how it underpins the different clinical presentations (localised, mucocutaneous and diffuse), by producing the first spatially-resolved 'ecological' map of the lesions.

ImmStat@Cure is a multicentre observational study designed to assess the immune status of patients before and after treatment for visceral leishmaniasis. Forty patients and 30 controls will be recruited per site. The follow-up period is 6 months from the end of treatment.

This study aims to describe the burden of Post-Kala-Azar Dermal Leishmaniasis and visceral leishmaniasis relapse in a cohort of patients discharged after successful treatment of primary visceral leishmaniasis.