Active clinical trials for "Malaria"

This study is part of a larger prospective cohort study (JOKA), designed to study the incidence and etiological spectrum of febrile illness occurring during a travel to the tropics, as well as clinical course, care, treatment and outcome of these febrile illness episodes. Its objective is to evaluate the clinical use of malaria rapid diagnostic tests (RDT) by travelers or their peers during travel, as a decision aid for the management of febrile illness in the tropics. If the study demonstrates that malaria can be ruled out safely by travelers themselves using a RDT, a combination of self/peer testing with SBET may become an alternative to antimalarial chemoprophylaxis in travel medicine.

(Bio)medical research, particularly immunological, metabolic, transcriptional or biological assays, occasionally require the use of fresh blood (peripheral mononuclear cells) or urine. In order to comply with international guidelines for Good Clinical Practice, the investigators propose to establish a Mini Donor Bank to be able to obtain fresh blood or urine from voluntary donors. Recruitment of volunteers will be a continuous process. Volunteers will consent to occasional blood- or urine donation.

Since their introduction in the late 90's, rapid diagnostic tests (RDTs) have dramatically improved our ability to control malaria, but proved insufficient to support elimination efforts because of their limited sensitivity, especially for P. vivax. In addition, the spread of P. falciparum parasites lacking hrp2 gene jeopardizes the long-term use of P. falciparum-specific HRP2-based RDTs. An existing partnership between Standard Diagnostics (SD), FIND, PATH, and Bill and Melinda Gates Foundation (BMGF) is addressing these limitations by developing two novel malaria RDTs with an analytical sensitivity ten times higher than the currently available malaria RDTs: a P. falciparum-specific test targeting both the HRP2 and PfLDH antigens (Pf Plus), and a P. falciparum/P. vivax combo test additionally targeting the PvLDH antigen (Pf/Pv Plus). These new combo tests with improved sensitivity may become promising diagnostic tools for the detection of malaria, especially in settings where current tests prove to be insufficient due to hrp2 deletion or high burden of P. vivax malaria. In this study, the investigators will perform a prospective evaluation of Pf Plus and Pf/Pv Plus tests in malaria-endemic countries to assess their clinical performance for detection of malaria in their intended-use settings.

The primary purpose is to describe the anamnestic, clinical, biological, and therapeutic characteristics of imported malaria in people originated from endemic areas. Indeed, clinicians have observed that people from such areas start malaria just after their arrival in France. Such observation needed to be confirmed. In addition, The investigators observed a variation in the laboratory diagnostic performance of malaria between hospital and private laboratories. Such observation also needed to be analyzed objectively

Since the introduction of Giemsa stain in 1904 until today, malaria microscopy has been the standard of practice for malaria diagnosis. However, microscopic detection of malaria parasites is labour-intensive, time-consuming and expertise-demanding. Moreover, the slide interpretation is highly dependent on the staining technique and the technician's expertise. To address these, multiple organisations have developed next generation microscopes to move towards a next generation microscope that can improve slide preparation, interpretation or data collection, or a combination of these features. In this study, a prospective evaluation of miLab™ and other next generation automated microscope solutions as well as a malaria rapid diagnostic test (RDT) reader app will be performed in malaria-endemic countries to assess their clinical performance for detection of malaria clinical cases at POC.

In this study, a prospective evaluation of novel malaria diagnostic tools under development will be performed in malaria-endemic countries to assess their clinical performance for detection of malaria at point-of-care (POC). This study aims to support product development efforts and aims to provide early stage (TLR~5) technology developers with valuable information on performance and basic feasibility data that can help to accelerate development.

Malaria during pregnancy remains an important public health issue in endemic countries. Most cases of malaria in pregnant women are asymptomatic, and can contribute to adverse outcomes, such as maternal and neonatal anaemia as well as low birth weight. Infections that do not cause symptoms (sub-clinical infections) - particularly in low transmission settings -remain difficult to diagnose during pregnancy but can contribute to adverse outcomes e.g. growth restriction, premature birth, miscarriage and stillbirth. The Bill & Melinda Gates Foundation (BMGF) has supported the development of an HRP2-based high sensitivity rapid diagnostic tests (HS-RDT) that has analytical sensitivity ten times better than current RDTs and a sensitivity near 80% when compared to the 'gold standard' of quantitative polymerase chain reaction (qPCR). In this regard, the new HS-RDT may be a promising diagnostic and screening test for subclinical malaria during pregnancy. The overall aim is to compare the performance of novel high sensitivity rapid detection tests with conventional rapid diagnostic tests for Plasmodium falciparum malaria infection in pregnant women in Papua New Guinea

A prototype rapid diagnostic test (RDT) to simultaneously screen for gambiense human African trypanosomiasis (HAT) and diagnose P. falciparum malaria (the "HAT/malaria combo") has recently been developed. The performance of this prototype has been evaluated in a retrospective study that showed that its diagnostic performance for HAT and malaria was equivalent to the performance of the SD BIOLINE HAT 2.0 and the SD BIOLINE Malaria Ag P.f tests, respectively. The purpose of this study is to prospectively evaluate the performance of the test in settings where P. falciparum malaria is endemic, and which are either endemic or non-endemic for HAT. This will enable the assessment of the suitability of the HAT/malaria combo RDT as a diagnostic test for malaria, and a screening test for HAT in pre-elimination and post-elimination contexts, respectively.

This is a cross-sectional and multicentre clinical trial to study the performance of the Histidine Rich Protein 2 (HRP2) highly sensitive rapid diagnostic test (HS-RDT) for the detection of malaria during pregnancy in low transmission settings from Colombia and Indonesia. The new HS-RDT will be compared with conventional good quality RDTs, microscopy, and NAATs [loop-mediated isothermal amplification (LAMP), nested PCR (nPCR)], in peripheral blood samples with quantitative reverse transcription PCR (qRT-PCR) as reference standard.

To evaluate the changes in the microcirculation of the liver, kidney and spleen during acute infection in patients with malaria (cohorts 1 and 3) and other infectious diseases such as acute pyelonephritis at day 0 (within 8 hours of the treatment start), day 2 to 4 and day 28-32, using functional US with continuous infusion of a contrast agent (SonoVue, Bracco, Italy). Study hypothesis: malaria patients should exhibit a different pattern of enhancement, particularly when quantitative measurements of the SU signals is performed with destruction reperfusion kinetics.