View clinical trials related to Malaria.
Filter by:Illegal gold miners in French Guiana, a French overseas territory ('département') located in Amazonia, often carry malaria parasites (up to 46.8%). While the Guiana Shield Region aims at malaria elimination, the high prevalence of Plasmodiumin this hard-to-reach population in conjunction with frequent incorrect use of artemisinin-based anti-malarials could favor the emergence of resistant parasites. Due to geographical and regulatory issues in French Guiana, usual malaria control strategies cannot be implemented in this particular context.Therefore, new strategies targeting this specific population in the forest are required. Numerous discussions among health institutions and scientific partners from French Guiana, Brazil and Suriname have led to an innovative project based on the distribution of kits for self-diagnosis and self-treatment of Plasmodium infections. The kit-distribution will be implemented at "resting sites", which are areas across the border of French Guiana regularly frequented by gold miners. The main objective is to increase the appropriate use and complete malaria treatment after a positive malaria diagnosis with a rapid test, which will be evaluated with before-and-after cross-sectional studies. Monitoring indicators will be collected from health mediators at the time of kit distribution and during subsequent visits, and from illegal gold miners themselves, through a smartphone application. The project funding is multisource, including Ministries of Health of the three countries, WHO/PAHO, and the European Union.
Trial to evaluate the safety and efficacy of DHA-PPQ for Intermittent Preventive Treatment (IPTp) in HIV-infected pregnant women receiving cotrimoxazole prophylaxis (CTXp) and antiretroviral (ARV) drugs and using long lasting insecticide treated nets will be conducted in Mozambique and Gabon where malaria and HIV infection are moderate to highly prevalent. In addition, the possibility for a PK interaction between DHA-PPQ and ARV drugs will be assessed in a sub-sample of participants. Women will receive ARV therapy according to national guidelines and their infants will be followed until one year of age to evaluate the impact of DHA-PPQ on MTCT-HIV.
Primary Objective: To show the contribution of artefenomel (OZ439) to the clinical and parasiticidal effect of OZ439/Ferroquine (FQ) combination by analyzing exposure-response of OZ439 measured by Day 28 polymerase chain reaction (PCR)-corrected adequate clinical and parasitological response (ACPR) for the effect and the area under the curve (AUC) of OZ439 as pharmacokinetic (PK) predictor. Secondary Objectives: - To evaluate the exposure-response of OZ439 combined with FQ on crude Day 28 ACPR. - To evaluate the dose response of OZ439 combined with FQ on PCR-corrected and crude Day 28 ACPR. - To evaluate the dose-response of OZ439 combined with FQ on selected secondary endpoints. - To evaluate the safety and tolerability of different dosages of OZ439 in combination with FQ and FQ alone. - To characterize the PK of OZ439 in plasma, and of FQ and its active metabolite SSR97213 in blood.
A cross-sectional study will be conducted in selected 2 sentinel sites for assessment of drug resistance falciparum and vivax among asymptomatic infection in migrant workers in Myanmar.
Sepsis and severe malaria together contribute to an estimated 13 million deaths annually, a great burden of which is in low-income countries. Optimal fluid management is critical yet remains one of the most challenging clinical care elements as volume overload precipitates pulmonary edema and volume restriction may exacerbate acute kidney injury. These complications of sepsis and severe malaria significantly increase mortality, particularly in resource-limited settings lacking mechanical ventilation and renal replacement therapy. Point-of-care ultrasound and passive leg raise testing are two easily implementable, safe and non-invasive clinical bedside fluid assessment tools that could be applied towards developing a fluid management algorithm in low resource settings. Similarly, simple tissue perfusion measures can facilitate understanding of precise indications or contraindication to fluid and vasopressor therapy. However, the performance of these tools has yet to be confirmed in these settings. Accurate assessment of pulmonary tolerance and fluid responsive patients could aid to tailor vasopressor and fluid therapy to the patient condition and disease phase, thus preventing or detecting iatrogenic pulmonary edema and other pulmonary complications. As there is currently limited evidence supporting fluid management recommendations for severe malaria and sepsis in low-resource settings, the potential application of these management tools could optimize supportive therapy and improve outcomes in these populations. The main activity proposed is a prospective, observational study of patients with sepsis and severe malaria to describe the relationship between fluid therapy and vasopressor therapy against measures of tissue perfusion and pulmonary congestion in adult patients with severe malaria or severe sepsis. In addition, the study will assess the performance of simple bedside clinical tools assessing fluid responsiveness, pulmonary congestion and peripheral tissue perfusion. The data from this observational study will facilitate the preparation of a follow-up study to test a clinical algorithm to guide individualized fluid and vasopressor administration.
Background: Mosquitoes and similar insects called sand flies carry parasites that can cause diseases. These viruses and parasites can spread quickly and be difficult to control. How people s bodies respond to insect bites may affect how they get infected. The response to bites is caused by the immune system, which helps fight off infections. Researchers want to study the immune response in skin to mosquito or sand fly bites and how the response changes after bites on multiple days. This may help researchers develop better vaccines. Objective: To study the immune response in skin to certain insect bites and how that changes after bites on multiple days. Eligibility: Healthy adults ages 18-64 Design: Participants will be screened under another protocol. Women must agree to practice effective contraception or abstinence. All participants must agree to not donate blood or use certain lotions or creams on visit days. Some participants will have 2 visits over a week. Others will have 5 visits over 8 weeks. All participants will have the following at least once: Medical history Physical exam Blood and urine collected Mosquito or sand fly feeding. Up to 10 insects will feed on participant s arm for up to 20 minutes. The insects are grown at NIH and do not carry any diseases. The skin will be checked and bites will be treated. Skin samples taken. The skin will be cleaned and numbed. A tool will remove a small piece of skin from 3 places on the arm. About a week after the last visit, participants will be called to see how they feel.
We plan to assess the efficacy of 3 different regimens of chloroquine and primaquine for the treatment of P. vivax infections in Cruzeiro do Sul, Acre, Brazil. Patients will be divided in 3 different groups: treatment with regular dose of primaquine (0.5 mg/kg per day for 7 days) with directly observed therapy; regular dose of primaquine without directly observed therapy; and increased total dose of primaquine (0.5 mg/kg per day for14 days) with directly observed therapy. All patients will receive chloroquine (CQ) for three days at a daily dose of approximately 25 mg/Kg in accordance with the Brazilian National Malaria Control guidelines. Clinical and parasitologic parameters will be monitored over a 28-day follow-up period to evaluate drug efficacy and for a total period of 168 days (24 weeks) to evaluate chances of recrudescence, relapse, or reinfection. Results from this drug efficacy study will be used to assist the Brazilian Ministry of Health in assessing their national malaria treatment policy for P. vivax malaria.
This study evaluates the effectiveness of community delivery of sulfadoxine-pyrimetamine (SP) for intermittent preventive treatment of malaria in pregnancy (IPTp) in increasing the coverage of IPTp among pregnant women in selected districts in Democratic Republic of Congo (DRC), Madagascar, Mozambique and Nigeria, compared to comparison districts where SP for IPTp is distributed as usual in facilities through routine antenatal care (ANC).
This is a phase 1, randomized regimen optimization study of PfSPZ Vaccine in healthy Equatoguinean volunteers to determine if a condensed, rapid immunization regimen is safe and efficacious. Four different regimens 4 weeks or less in duration will be evaluated for safety, tolerability, immunogenicity, and protective efficacy in comparison to a gold standard 16-week regimen.
This is a study to evaluate the safety, immunogenicity, and efficacy of a recombinant circumsporozoite protein (rCSP) malaria vaccine administered with and without AP 10-602 [Glucopyranosyl Lipid A (GLA) in liposome Quillaja saponaria 21 formulation (LSQ)] adjuvant. 59 healthy adult, malaria naive volunteers aged 18 to 45 will receive vaccination with or without adjuvant (10 of those volunteers will receive rCSP alone) in five dose escalating groups. Each group will receive 3 vaccination doses total, with intramuscular (IM) injections on days 1, 29, and 85. A sixth group of 6 volunteers will receive no vaccinations and will participate as a control in a Controlled Human Malaria Infection (CHMI) challenge with two of the vaccinated groups. The study will be conducted at the Center for Vaccine Development (CVD) in Baltimore, Maryland. The patient participation duration is expected to be up to 886 days (up to 117 days for nonvaccination group). This study will test two hypotheses: (1) the rCSP/AP 10-602 [GLA-LSQ] candidate malaria vaccine will induce an immune response in a dose-dependent manner as measured by anti-CSP antibody titer via ELISA and (2) the rCSP/AP 10-602 [GLA-LSQ] candidate malaria vaccine will provide a minimum of 50% efficacy in vaccines compared to unvaccinated infectivity controls. The primary objective is to assess the safety and reactogenicity of candidate rCSP/AP 10-602 [GLA-LSQ] malaria vaccine when administered intramuscularly on a 1, 29, and 85 day schedule (Groups 1-3, 4B, 5) and on a 1 and 490 day schedule (Group 4) to healthy malaria-naive adults aged 18-45 years.