View clinical trials related to Malaria.
Filter by:Bloodstream infections are frequent in children admitted to the hospital for severe febrile illness in sub-Saharan Africa.Ongoing blood culture surveillance at Kisantu Hospital showed non-typhoidal Salmonella (NTS) as the first cause of bloodstream infections in children. Bloodstream infections have a high case fatality (15 - 20%). Outcome of bloodstream infections is dependent on timely diagnosis and treatment. However, observations at Kisantu Hospital showed that many children arrive late and die early after admission. By interviewing caregivers of severely ill children admitted to Kisantu Hospital, the investigators aim to study their health itinerary, i.e. the sequence of all actions of health care seeking and care provision between the onset of febrile illness and the admission at the hospital. The investigators aim to assess the health itinerary according to the "three delays" model. The three delays model studies delays and practices at the level of health care seeking, of transport and of start of antibiotic treatment.10 Visits to referring health centers will provide complementary information about diagnosis, treatment and referral practices. In hospital follow-up will allow to assess the outcome according to the duration of health itinerary. The results of routine laboratory tests upon hospital admission will allow to stratify the health itinerary according to fever etiology. The results of this study will allow to understand the duration of the health itinerary, its possible association with case-fatality, and factors explaining for delays at every level. This information is expected to orient local health policy makers towards interventions shortening the duration of the health itinerary and in that case improve and monitor the referral system. In addition, the study results are expected to orient towards further research to understand health seeking behavior (i.e. focus-group discussions and community-based studies).
A simultaneous deployment of multiple first line therapies (MFT) for uncomplicated malaria using artemisisin based combination therapies as showed by theoretical models, may extend the useful therapeutic life of the current Artemisinin-based combination thérapies (ACTs) by reducing drug pressure and slowing the spread of resistance without putting life at risk. We therefore hypothesized that a simultaneous deployment of three ACTs targeting three segments of the population is feasible, acceptable and can achieve high coverage rate if potential barriers are well identified, well addressed and the key implementers are well-trained and adequately supported. To test this hypothesis, a quasi-experimental study will be conducted.
Open labelled, non randomized study to evaluate the effects of Artemisinin based Combined Therapies(ACTs) on schistosomiasis since Praziquantel (PZQ) which is presently the drug of choice for treating Schistosomiasis (STS), is ineffective on immature stages and there is known parasite resistance. ACTs when combined with PZQ, targeting different stages of the life cycle has shown some effectivity.
This phase 1 study aims to assess the safety and tolerability of monoclonal antibody TB31F administered intravenously or subcutaneously at escalating dose levels in healthy, malaria naïve, adults. This study will also evaluate the pharmacokinetics of TB31F and the functional activity of mAb TB31F in the standard membrane feeding assay.
The use of insecticide-treated bed nets (ITNs) has contributed to the substantial reduction in malaria cases and deaths. This progress is threatened by increasing resistance in mosquito populations to commonly used insecticides. Newly developed, next-generation ITNs using two insecticides or an insecticide synergist and an insecticide are effective against resistant mosquitoes, but large-scale uptake of these nets has been slow due to higher costs and lack of enough evidence to support broad policy recommendations. This observational study will occur alongside a pilot distribution of next-generation ITNs and collect data over three years on their entomological and epidemiological impact as well as anthropological factors that influence their uptake and use. Enhanced data collection will occur in three districts: one district that will receive Interceptor G2 ® ITN (BASF) and two comparator districts, one that will receive standard pyrethroid-only ITNs and one that will receive standard pyrethroid-only ITNs and indoor residual spraying (IRS). Data will be collected on malaria vector bionomics, disease epidemiology, and human behaviors in order to help better demonstrate the public health value of next-generation ITNs and to support donors, policymakers, and National Malaria Control Programs in their ITN decision-making and planning processes.
An antimalarial drug efficacy trial was conducted for artemether-lumefantrine (AL) and chloroquine (CQ) in the three (3) municipalities (Bataraza, Brookes and Rizal) of Palawan. Study subjects are febrile individuals between > 6 months old and 59 years old with confirmed uncomplicated P. falciparum or P. vivax infections. Patients with P. falciparum was treated with Artemether-lumefantrine administered 3 days (Days 0, 1 and 2) according to body weight. Primaquine at 0.75 mg base/kg body weight single dose was given on Day 3. For Plasmodium vivax patients chloroquine were administered according to body weight at a total dose of 25 mg/kg over 3 days (10 mg/kg on Day 0; 10 mg/kg on Day 1 and 5 mg/kg on Day 2), and primaquine following the National Treatment Guidelines. During the period that this report covers, 84 and 75 patients met the inclusion criteria for Pf and Pv respectively. Clinical and parasitological parameters were monitored over a 28-day follow-up period for both drugs. The presence of only 1 Late Clinical Failure (LCF) of P. falciparum parasitemia out of 84 enrolled patients and 2 Late Parasitological Failure (LPF) of P. vivax patients out of 75 enrolled patients within the 28 days follow up suggest that both drugs are still efficacious.
Background: People get malaria when they are bitten by an infected mosquito. Malaria can be serious and sometimes deadly. Although there are medicines to treat malaria, there is no vaccine that fully prevents infection. Researchers want to test if an experimental drug can help. Objective: To test the safety and effectiveness of a drug called CIS43LS that could prevent malaria infection. Eligibility: Healthy people ages 18-50 who have never been infected with malaria Design: Participants were enrolled on the basis of eligibility criteria, evaluated by clinical laboratory tests, self-reported medical history, and physical examination. Participants received CIS43LS either infused into a vein in their arm or injected into the fat under the skin. They were monitored for side effects for up to 4 hours after they received the drug. Participants received a thermometer and recorded their temperature and symptoms every day on/with/via a diary card for 7 days after administration. The administration site was checked for redness, swelling, itching or bruising. Participants had up to 12 follow-up visits. At follow-up visits, participants had blood drawn and were checked for health changes or problems. Most participants who received CIS43LS took part in a Controlled Human Malaria Infection Challenge (CHMI) along with control participants who did not receive CIS43LS. During the CHMI, mosquitoes carrying the malaria parasite bit participants in a controlled setting. The participants had clinic visits every day for up to 12 days starting 7 days after the CHMI. Participants were treated right away with antimalarial medication if they tested positive for malaria. Approximately 21 days after the CHMI, participants were treated with antimalarial medication for 3 days. The study lasted 2-6 months depending on the participant's study group.
Malaria in pregnancy has devastating consequences for mother and foetus. WHO recommends intermittent preventive treatment in pregnancy (IPTp) with sulphadoxine-pyrimethamine (SP) for asymptomatic women, but high-level parasite resistance to SP threatens its efficacy. Dihydroartemisinin-piperaquine (DP) has the potential to replace SP for IPTp. However, the DP strategy has not been found to be superior to SP for reducing the incidence of low birthweight (LBW), small-for-gestational age (SGA), or preterm birth. This may be the result of sulphadoxine having antibacterial properties; it is derived from sulphonamide, which have been used for decades to treat curable STIs/RTIs. However, SP is unlikely to be curative of STIs/RTIs, nor highly effective against malaria parasites. Thus, combination treatment that contains a more efficacious antimalarial and a more efficacious anti-STI/RTI may produce better birth outcomes. The investigators will therefore determine whether combining SP with metronidazole (MTZ) or, separately, DP with MTZ can improve birth outcomes more than SP alone, potentially paving the way for integrated control strategies that will reduce the dual burden of malaria and curable STIs/RTIs. This is an individually-randomized, 3-arm, partially-placebo controlled superiority trial comparing the efficacy, safety and tolerance of IPTp-SP versus IPTp-SP with MTZ, or IPTp-DP with MTZ to reduce adverse birth outcomes attributable to malaria and curable STIs/RTIs in 5,436 women in the Nchelenge District of Zambia.
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).
Malaria poses a serious burden in sub-Sahara Africa. Efforts are ongoing to scale up interventions that work. These include the use of Long Lasting Insecticidal Nets (LLIN), Intermittent Preventive Treatment in children (IPTc), and test, treat and track (TTT). There is the need, however, for mass testing, treatment and tracking (MTTT) of the whole population to reduce the parasite load before implementing the aforementioned interventions. Though, Seasonal Malaria Chemoprophylaxis (SMC) is adopted for selected localities in Ghana, the impact of such interventions could be enhanced, if associated with MTTT in order to reduce the parasite load at baseline. MTTT of children in Ghana has demonstrated a parasite load reduction from 25% to 1%. However, unanswered questions include - could this be scaled up? What proportion of the community could be covered over a given time? What would it take to accomplish large scale MTTT? In designing interventions that aim at reducing the burden of malaria in children under five, for example, MTTT has largely been left out. Adults who are not often targeted by such interventions remain reservoirs that fuel transmission. This study explores the scale-up of interventions that work using existing community volunteer teams to lower cost. These volunteers will play a surveillance role by conducting home-based management of malaria. To avoid challenges posed by stockouts, short message service (SMS) will be used to monitor the level of stocks for malaria medicine and Rapid Diagnostic Tests (RDTs). It is hypothesized that there are more asymptomatic malaria cases (those who carry the parasite but are not ill) than symptomatic cases reported by hospital records in the Pakro sub district and that, carrying out MTTT in combination with home-based management of malaria in specific communities could greatly reduce the burden. Through this study, the bottlenecks that hinder scaling-up of MTTT will be documented in order to facilitate the process.