View clinical trials related to Severe Malaria.
Filter by:The objectives of this study contains 3 parts: (1) a comparison of 1-step parenteral artesunate (AS) versus conventional 2-step parenteral artesunate in patients with severe malaria to assess the feasibility of administration, parasite and fever clearance times in two countries, (2) a quantification of convenience and costs of the new 1-step artesunate parenteral formulation versus the conventional formulation in a randomised study, (3) A cost analysis of 1-step parenteral artesunate using data from Part 1 & Part 2. This will assess health facility-level costs, and also health system costs to encompass all costs of a potential change from conventional to 1-step artesunate, including re-training, materials, and drug replacement. The conventional formulation of injectable artesunate requires a 2-step reconstitution and dilution of the artesunate hemisuccinate powder. A new formulation of injectable artesunate has been developed by Fosun Pharma requiring a simpler 1-step reconstitution. Bioequivalence of the new formulation to the conventional formulation. For part 1, a total number of participants of this study would be 200 participants, estimated 100 per site will be recruited. For part 2, a total number of 40 semi-structured interviews with study staff, health staff, policy makers, and stake holders; and survey/questionnaires with 150 health staff.
In endemic areas, Plasmodium falciparum malaria exacts a huge public health toll, causing close to half a million deaths each year. In non-endemic industrialized areas, imported malaria may develop. In France, around 5000 imported cases occured annually, including 10-15% of severe malaria. The criteria for defining severe malaria in endemic areas are established by the World Health Organization (WHO), and have been adjusted for severe imported malaria. In France, in order to optimize management, severe imported malaria is separated into two groups: very severe malaria (VSM) and less severe malaria (LSM). Briefly VSM included coma and/or shock and/or respiratory failure and/or acidosis and/or hyperlactatemia and/or death during hospitalization. In France, severe imported malaria is treated with intravenous artesunate. Little is known about the management of imported VSM in the ICU with intravenous artesunate. In a French national multicentric retrospective frame, the main objective of the present study is to describe in detail: epidemiology, management, outcome and prognostic of very severe imported malaria treated with intravenous artesunate during the period 2011-2019. The second objective is to retrospectively compare two groups : VSM treated with intravenous artesunate in the ICU during 2011-2019 versus VSM treated with intravenous quinine in the ICU during 2000-2010.
In sub-Saharan Africa, non-typhoidal Salmonella (NTS) are a frequent cause of bloodstream infection, display high levels of antibiotic resistance and have a high case fatality rate (15%). In Kisantu hospital in the Democratic Republic of Congo (DR Congo), NTS account for 75% of bloodstream infection in children and many children are co-infected with Plasmodium falciparum (Pf) malaria. NTS bloodstream infection presents as a non-specific severe febrile illness, which challenges early diagnosis and, as a consequence, prompt and appropriate antibiotic treatment.Moreover, at the first level of care, frontline health workers have limited expertise and diagnostic skills and, as a consequence, clinical danger signs that indicate serious bacterial infections are often overlooked. Basic handheld diagnostic instruments and point-of-care tests can help to reliably detect danger signs and improve triage, referral and the start of antibiotics, but there is need for field implementation and adoption to low-resource settings. Further, it is known that some clinical signs and symptoms are frequent in NTS bloodstream infections. The integration of these clinical signs and symptoms in a clinical decision support model can facilitate the diagnosis of NTS bloodstream infections and target antibiotic treatment. The investigators aim to develop such a clinical decision support model based on data from children under five years old admitted to Kisantu district referral hospital in the Democratic republic of the Congo. While developing the model, the investigators will focus on the signs and symptoms that can differentiate NTS bloodstream infection from severe Pf malaria and on the clinical danger signs that can be assessed by handheld diagnostic instruments and point-of-care tests. The deliverable will be a clinical decision support model ready to integrate in an electronic decision support system.
A prospective cohort study, with 171 children admitted for severe malaria that will be included in the cohort. The study will take place in Kinshasa, Democratic Republic of Congo. The primary objective is to evaluate the prevalence of five pre-specified pulmonary diagnoses that can be facilitated by the use of LUS (normal lung or acidotic breathing, ARDS, concomitant pneumonia, hydrostatic pulmonary oedema, pleural effusion).
Currently, 16 African countries include the use of pre-referral rectal artesunate (RAS) in their treatment policies. However, guidelines for RAS use vary widely across countries and inappropriate use of RAS as a monotherapy and consequential development of resistances against artemisinin based treatments is of particular concern. In the frame of the Unitaid-funded "Community Access to Rectal Artesunate for Malaria" (CARAMAL) Project, quality-assured RAS will be rolled in selected areas of the Democratic Republic of the Congo (DRC), Nigeria and Uganda. Approximately 3,000 treatments of RAS will be dispensed by trained community health workers to children <5 years of age in each project country per year. Linked to the tracking of (severe) malaria patients in the frame of the CARAMAL project, this study will assess the frequency of artemisinin resistance markers in the study settings and tentatively assess whether the introduction of RAS could increase the selection of resistant P. falciparum strains. The study will be conducted in close collaboration with the Global Malaria Programme of the WHO. Finger-prick blood samples will be collected from children < 5 years of age with signs of severe febrile illness and a positive mRDT presenting to community-based providers and referral facilities before and after the pilot roll-out of pre-referral RAS at community level.
- The aim is to describe disease mechanisms of severe and cerebral malaria and identify new targets for adjunctive therapies. - Despite treatment between 10-30% of patients with severe malaria die. - Metabolic acidosis and cerebral malaria are major complications associated with mortality across all age groups. Still, their underlying pathogenesis remains incompletely understood. - Using a metabolomics approach, this study aims to characterise the spectrum of acids accumulating during acidosis, and investigate patterns of metabolic dysregulation associated with coma and seizures.
Background: - Malaria is caused by small parasites carried by some mosquitoes. People can get malaria if an infected mosquito bites them. Malaria destroys red blood cells. Most malaria is mild, but some children develop severe malaria, which kills about 660,000 people annually. About 9 in 10 who die of malaria are Sub-Saharan African children, most under 5 years old. Scientists can save many lives if they find out how to prevent or relieve severe malaria. Objective: - To know if a common medicine called activated charcoal can reduce severe malaria symptoms. Eligibility: - Children 2 to 11 years old with mild malaria who live in Kenieroba, Mali. Design: - For the first 2 days and nights, participants will stay in the hospital. - They will have their medical history taken, and a physical exam. - Blood will be drawn from a thin tube inserted in their hand or forearm. This will be done 3 times overall. A drop of blood will be taken from a finger prick 12 times overall. - An antimalarial drug will be injected into the tube in the arm 4 times. Each time the drug is given, participants will drink a small cup of either water or activated charcoal. - For the following 3 days, participants will take an antimalarial pill. - On day 7, participants will visit the hospital. A drop of blood from a finger prick will be tested for malaria parasites.
The MATIAS study aims to demonstrate through limited scope implementation studies how injectable artesunate may be progressively rolled out nationwide in the Democratic Republic of the Congo as the preferred treatment for severe malaria.
Despite the use of highly effective anti-malarial medications, 10-30% of African children with severe malaria will die, underscoring the need for adjunctive therapies that can be applied in endemic areas. A clinical trial of adjunctive inhaled nitric oxide (iNO) in severe malaria is warranted on the basis of firm proof of concept from animal studies and a human study using the NO donor L-arginine, together with evidence of safety from clinical experience and trials of iNO for other conditions. Our objective is to determine whether supplemental iNO (80 ppm) in addition to Ugandan Standard of Care treatment reduces levels of Angiopoietin-2 (Ang-2), a quantitative biomarker of malaria severity, in children with severe malaria compared to Standard of Care treatment alone. We will conduct a randomized placebo-controlled trial among children 1-10 years of age admitted to Jinja Hospital (Uganda) with severe malaria to test the efficacy of inhaled nitric oxide in severe malaria.
This study, sponsored by the National Institutes of Health and the University of Bamako in Mali, Africa, will examine factors that may protect against progression of malaria from mild to severe disease. Infection with the malaria parasite causes disease ranging in severity from mild or no symptoms to severe. A better understanding of what factors protect against disease progression may help scientists develop improved methods of disease prevention and treatment. The objectives of this study are to: - Identify differences in protective factors for severe malaria in Malinke children residing in two Mali villages, Kela and Kangaba. Genetic variations in hemoglobin proteins called HbS and HbC appear to confer protection against severe disease in some children but not others. HbC appears to protect young Malinke children living in Kela, but not in nearby Kangaba, while HbS protects children in Kangaba but not in Kela. In addition, deficiency of an enzyme produced by red blood cells called G6PD protects males, but not females, from severe malaria. - Investigate how fetal hemoglobin (HbF) may protect against malaria in infants and determine how HbS, HbC, G6PD deficiency, and beta-thalassemia trait affect the rate of HbF decline during the first 2 years of life. Children under 11 years of age who seek medical care at Kangaba or Kela health centers for symptoms of malaria may be eligible for this study. Each will be screened with a medical history, physical examination and blood test. In addition, healthy infants born to women referred to field site clinics may be enrolled for the newborn study. Participants undergo the following procedures: Children with mild malaria are treated with artesunate and amodiaquine. Those with severe malaria are treated with quinine. Blood is collected by finger prick every day for 4 days to evaluate the response to treatment and for genetic testing. Some blood is stored for future research related to malaria. Newborns have a heel or finger prick at 1, 3 and 6 months to collect a small blood sample for genetic testing. In addition, at the time of birth, a small amount of blood is collected from one of the blood vessels of the placenta. Some infants may be followed up to 2 years, with additional drops of blood taken at 12, 18 and 24 months. Some of the blood is stored for future research related to malaria.