Efficacy, Safety, and PK of M5717 in Combination With Pyronaridine as Chemoprevention in Adults...
Malaria InfectionThis study will evaluate the efficacy and safety of a single dose of M5717 plus pyronaridine tetraphosphate in clearing current Plasmodium falciparum infection and protecting against recurrent infections in asymptomatic adults and adolescents. The study will also assess the duration of protection provided by different doses of M5717 plus pyronaridine and the additional contribution of M5717 to the duration of protection using external study data.
Early Life Cohort in Papua Indonesia (ELIPI Study)
MalariaMalaria remains an important cause of illness in young infants. Our clinical and epidemiological studies in Papua (Indonesia) have shown the magnitude of malaria morbidity in infants in the first 5 years of life, including recurrent episodes of malaria, anaemia, malnutrition and coinfection. Together these contribute significantly morbidity in early life, and almost certainly to the very high infant mortality rates in this region. However the body of knowledge around infant malaria outside of Africa, where both species P. vivax and P. falciparum are prevalent is considerable smaller. The impact of recurrent vivax malaria and severe anaemia on neurodevelopment and growth in young children is unknown in Papua. This study therefore aims to provide longitudinal data on the incidence of symptomatic and asymptomatic malaria (P. falciparum and P. vivax) and the associated risk of anaemia. It also provides an opportunity to assess incidence risk of non-malaria febrile illnesses and bacterial co-infections and the long term outcomes in terms of neurodevelopment and growth in a vulnerable age group. The study is a continuation from two already established cohort studies: "STOP MIP", which enrolled pregnant women and followed them until delivery and a "baby-cohort", which enrolled babies from mothers included in the cohort and followed them through their first year of life. Continuous follow up of those babies until they are 4 years old will increase our understanding of long term impact especially of vivax malaria. The cohort will be linked to a randomized controlled trial (RCT) and will offer cohort patients to be enrolled into the RCT when they are diagnosed with malaria (symptomatic), allowing to estimate treatment effectiveness.
Monitoring Pregnant Women for Antimalarial Drug Resistance
MalariaAnnually, malaria affects an estimated 229 million people, causing 409,000 deaths (WHO 2019) mostly in Africa. Despite a substantial decline in malaria-related maternal and child deaths in recent years, progress in controlling malaria has been slower than anticipated and uneven across countries. COVID-19-related disruption of malaria control activities will likely further slow the pace and lead to an even greater burden in the near future. One of the greatest challenges delaying progress in malaria elimination is antimalarial drug resistance. Recent reports of the emergence of artemisinin-resistant parasites in parts of Africa are the cause of even greater concern, since the loss of frontline treatment efficacy could bring about a dramatic reversal of progress. Large-scale genetic surveillance of Plasmodium is an effective tool for rapid detection of changes in drug efficacy, enabling countries to switch to effective preventive and curative treatments when necessary. The implementation of genetic surveillance has proven very successful in small, low malaria burden countries. However, in large, high malaria burden countries such implementation is operationally and economically more complex. Screening pregnant women attending Antenatal Care (ANC) services can be a practical and economical strategy for estimating malariometric parameters, with fewer limitations and challenges than conventional survey methodologies in children. The present study aims to demonstrate that this is also true for the genetic surveillance of antimalarial drug resistance.
MULTIple Doses of IPTi Proposal: a Lifesaving High Yield Intervention
MalariaMULTIPLY is a multi-country 40-month implementation research project, which aims to catalyse country uptake of Intermittent Preventive Treatment of malaria in infants (IPTi) and inform future policy and guidelines in moderate-to-high malaria transmission settings. The project has been conceived following a before-after evaluation design of the impact of the intervention. The primary outcome measure will be the coverage of three or more doses of IPTi in children under 2 years of age (U2) attending the Expanded Programme on Immunisation (EPI) in project areas. IPTi will be delivered at health facilities and mobile-outreach EPI clinics to all children living in project districts. The number of IPTi doses a child will receive will be based on the EPI schedule of the country, with a maximum of 6 doses in the first 2 years of life. The prophylactic effect of IPTi provides protection for up to 6 weeks in infants. Therefore, in the current WHO-recommended IPTi scheme, infants are exposed to the infection for about 4 months during a critical period of high susceptibility to harmful effects of the infection. Exploiting additional opportunities to administer IPTi to children in their first years of life could be of great public health interest. In settings where vitamin A deficiency is a public health problem WHO recommends vitamin A supplementation, habitually done through the EPI scheme starting at 6 months of age, at 6 months intervals; thus, the addition of IPTi at 6, 12, 15-18 months of age to vitamin A administration would improve malaria prevention during a critical time in the first year of life and expand it into the second. Moreover, the integration of these two interventions might help increase the coverage of vitamin A supplementation, which ranges between 53%-57% in sub-Saharan Africa and importantly will help reduce the prevalence of anaemia in young children by combining the effect of malaria prevention and of vitamin A on increasing haemoglobin levels. Additionally, in recent years the inclusion of a booster dose of measles immunisation in the EPI, between 15-18 months of age, also offers the opportunity of further expanding malaria protection in the second year of life using IPTi. This is particularly relevant given that severe malaria cases are more prevalent between 1 and 3 years of age in high and moderate transmission areas.
MSP3-CRM-Vac4All/ Alhydrogel® Malaria Vaccine
Malaria,FalciparumFirst-in-Human, Randomised, Dose-Finding Single Center Study to evaluate three dose levels of a novel malaria vaccine, MSP3-CRM-Vac4All/ Alhydrogel® : 3 µg, 10 µg and 30 µg
Uganda Housing Modification Study
MalariaAnemiaTo explore housing modification as a malaria control intervention, and to assess the degree to which it may offer protection in moderate to high malaria endemicity settings, we propose a two-phase study evaluating epidemiological and entomological effectiveness, cost-effectiveness, feasibility, and acceptability of housing modification in Uganda. The first phase will be a pilot implementation assessing the feasibility of candidate housing modification interventions, followed by a cluster randomised control trial of the most effective, scalable, and cost-effective interventions.
Evaluation of IR3535 as a Spatial Repellent for Malaria Control.
MalariaMozambique contributes with 5% of global malaria cases, and despite control efforts the Sofala province continues to experience a high burden of malaria. The resistance to insecticides and changes in vector habits can compromise the use of common vector control tools. The use of spatial repellents is thus an interesting alternative, as it does not exert selective pressure on resistance genes or eliminate other insects with impact on biodiversity. IR3535 is a non-toxic repellent and if used at community level can extend protection to outdoor biting. Hypothesis: Using the IR3535 repellent for indoor and outdoor spraying will reduce the prevalence of malaria and reduce vector density and infection. An experimental Before-After-Control-Intervention will be carried out with two groups: a) Intervention (Tambai Q2 and Q6): with intra and extra-household spraying with IR3535 and b) Control (Tambai Q3 and Q4): without spraying. Tambai is acommunity of Bebedo, Nhamatanda, Sofala, Mozambique. The mosquito distribution, diversity, density and sporozoite rate will be monitored indoors and outdoors in both communities for 2 years. The prevalence of malaria will be determined in under five years old children at the beginning, the end of the 1st year and at the end of the study. Additionally, cross-sectional studies with a mixed approach assessing the community knowledge, attitudes and practices (KAP) will be carried out to detect gaps that persist at the community level. Heads of households and health professionals will be interviewed at the beginning of the study, the end of 1st year and at the end of the study. The data will be analyzed using SPSS and R software packages. For matching situations (before and after), the McNemar test will be used to ascertain statistical significance. Generalized Linear Models (GLM) will be used to jointly analyze several explanatory variables. Linear Mixed Models (LMM) and Generalized Estimation Equation (GEE) models will be used to compare longitudinal data. The prevalence of malaria and entomological indices relevant for transmission are expected to decrease with the intervention while community knowledge on malaria and its control are expected to increase.
Efficacy, Safety and Tolerability of KLU156 in Adults and Children ≥ 5 kg Body Weight With Uncomplicated...
Uncomplicated Plasmodium Falciparum MalariaThis study aims to confirm the efficacy, safety and tolerability of KLU156, a fixed dose combination of ganaplacide (KAF156) and a solid dispersion formulation of lumefantrine (lumefantrine-SDF), when administered once daily for three days in adults and children ≥ 5 kg body weight and ≥ 2 months of age suffering from uncomplicated P. falciparum malaria (with or without other Plasmodium spp. co-infection). In the Extension phase, the safety, tolerability and efficacy of repeated treatment with KLU156 will be assessed for a maximum of two years in patients who did not experience early treatment failure (ETF), who did not experience any study treatment-related SAE (Serious Adverse Event) previously and who gave informed consent to participate in the Extension phase.
RTSS Vaccine and PBO Net Impact on Malaria Infection and Transmission in Malawi
MalariaMalaria Vaccine1 moreThe overall goal of this study is to assess the impact of RTS,S (malaria) vaccination and PBO nets on malaria infection and transmission, independently and how they interact when they are introduced together. The specific objectives for the study are as follows: To estimate the impact of PBO nets and RTS,S vaccine on Plasmodium infection prevalence and transmission, independently and how they interact when they are introduced together in Malawi (Phase 1). To assess the feasibility of evaluating the impact of RTS,S vaccine and PBO nets independently in a larger scale future study.
Repeat Ivermectin Mass Drug Administrations for MALaria Control II
MalariaRIMDAMAL II is a double-blind, cluster randomized trial in Burkina Faso designed to test whether repeated ivermectin mass drug administrations, integrated into a monthly delivery platform with standard malaria control measures of seasonal malaria chemoprevention and insecticide-treated bed net distribution in the Sahel, will reduce childhood malaria incidence.