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90 active trials for Malaria

Malaria Elimination Pilot Study in Military Forces in Cambodia

Antimalarial drug resistance has reached critical levels on the Thai-Cambodian border. Many have begun advocating for concerted malaria elimination efforts in Cambodia. However, there is currently no consensus on how malaria elimination is to be achieved with the tools available. In this study, the investigators will conduct operational research with the Royal Cambodian Armed Forces (RCAF) and National Malaria Center (CNM) to quantify the relative effectiveness of the two major interventional approaches - monthly malaria prophylaxis (MMP) or focused screening and treatment (FSAT) - in a head to-head comparison. In addition, the investigators will quantify the relative contribution of a recently advocated vector intervention for military personnel - the insecticide treated uniform (ITU) - in addition to other vector control measures currently employed by the RCAF. The investigators will employ the same permethrin insecticide self-application kits currently used by the US military. The investigators will estimate the cost effectiveness of each approach and attempt to define the best way forward for malaria elimination efforts in a critically important malaria reservoir in military population (and their dependents) who reside on the Thai-Cambodian border. The aim of the study is not only to conduct research to better define the best way forward in malaria elimination efforts in the high risk military populations, but to also build capacity within the RCAF to support and lead future elimination efforts in the most difficult-to-reach mobile populations.

Start: January 2016

Study to Assess Efficacy of Artemether-lumefantrine Prophylaxis Against Forest Malaria in Cambodia (PAL_Cambodia)

In the Greater Mekong Subregion (GMS) adults are at highest risk for malaria. The most relevant disease vectors bite during daytime and outdoors which makes forest work a high-risk activity for malaria. The absence of effective vector control strategies and limited periods of exposure during forest visits suggest that chemoprophylaxis could be an appropriate strategy to protect forest workers against malaria. The investigators propose the use of Artemether-lumefantrine (AL), a drug whose efficacy remains high in the GMS, unlike, for example DHA/piperaquine [20]. The proposed study will help to assess the efficacy and feasibility of prophylaxis to prevent malaria in forest workers, help to identify the optimal regimen, and predict its efficacy in reducing overall transmission. The proposed study is a critical step for future use of chemoprophylaxis to protect forest workers in the GMS against malaria.

Start: March 2020

Household-level Impact of IPT of Malaria in Schoolchildren

The study will evaluate the household-level impact of IPT for malaria in schoolchildren on malaria transmission, using a randomized trial design. Two schools in Busia district will be randomly selected and randomize to either IPT with dihydroartemisinin piperaquine (DP, IPT arm), or standard of care (no intervention). A single dose/round of IPT with DP (40mg/320mg tabs, Fosun Pharmaceuticals) will be given to the children in the intervention arm. The full dose will be given as oral tablets once a day for 3 consecutive days to all eligible children in the intervention school. Surveys will be conducted in households of 100 randomly selected children in each of the study arms at baseline, one month and three months following the intervention. The target population will include all household members of the selected households.

Start: January 2021

Malaria as a Risk Factor for COVID-19 in Western Kenya and Burkina Faso

It is unknown whether malaria or malaria treatment affects COVID-19 severity, immune responses to SARS-CoV-2 virus, or viral loads and/or duration of shedding and therewith the onwards spread of SARS-COV-2. An observational cohort study will be conducted in 708 newly diagnosed COVID-19 patient of all ages in western Kenya and Burkina-Faso. They will be enrolled in hospitals with COVID-19 testing facilities from a source population screened for SARS-CoV-2 (N~4,720). Approximately 142 of the 708 COVID-19 patients are expected to be co-infected with malaria. They will be enrolled in the nested malaria treatment trial and randomized to receive 3-days of artemether-lumefantrine (the current standard of care) or pyronaridine-artesunate, a highly effective antimalarial with known antiviral properties against SARS-CoV-2 in-vitro, that is newly registered and being rolled out in Africa. Disease progression will be assessed and nasal swabs and blood samples will be taken during home/clinic visits on days 1, 3, 7, 14, 21, 28, and 42. Patients self-isolating will be phoned daily in between scheduled visits for the first 14 days to assess signs and symptoms. Hospitalisation, self-isolation and home-based care will follow national guidelines. The WHO clinical progression scale and FLU-PRO plus scales will be used to compare disease progression between COVID-19 patients with and without malaria, and by malaria. Other endpoints include seroconversion/reversion rates, chemokine/cytokine responses, T and B cell responses, viral load and duration of viral carriage. Infection prevention and control (IPC), including the use of personal protection equipment (PPE), and measures for patient transport will follow national guidelines in each country. Written informed consent/assent will be sought. The study is anticipated to start in January 2021 and last for approximately 18 months.

Start: January 2021

Spatial Repellents for the Prevention of Malaria in Kenya

Spatial repellents are chemical-based devices that when placed in a room, make that room non-conducive for mosquitoes. These tools can be used to help in the fight against vector borne diseases such as malaria and dengue. However, their efficacy in reducing mosquito biting and therefore malaria transmission has never been evaluated in Africa. This study will evaluate the efficacy of a spatial repellent in reducing mosquito biting on human beings and measure the impact any reduced biting will have on malaria transmission. The investigators will recruit and follow-up 6,120 children between 6 months and <10 years of age in Busia County to determine how many times they will be infected with malaria in villages where the investigators will have distributed spatial repellents and compare the rate of infection to villages where the investigators will not have distributed the repellent devices. Additionally, the investigators will measure whether the distribution of spatial repellents in one village will drive mosquitoes to their neighboring houses thereby increasing malaria transmission in those areas. The children participating in the study will be divided into 3 groups (cohorts). The first group will be followed up during the first 4 months before any intervention is distributed and the purpose here will be to determine that the villages are comparable. After this, the investigators will recruit the next group of participants and follow them up for 1 year and repeat this again for another year. During the follow-up, the children will be asked to come to the health facility where they will be tested for malaria using RDT or blood slide for microscopy. Every two weeks, a member of the study team will come to the participant's house and ask them if they had any history of fever. If the participants had fever, they will be tested for malaria. All children who turn out to be positive for malaria by RDT will be treated free of charge. At the same time, the investigators shall also perform mosquito collections to determine the impact of spatial repellents on the density of Anopheles mosquitoes.

Start: March 2021

Pfs230D1M-EPA/AS01 Vaccine, a Transmission Blocking Vaccine Against Plasmodium Falciparum, in an Age De-Escalation Trial of Children and a Family Compound Trial in Mali

Background: Malaria affects many people in Mali and other parts of Africa. It is spread by mosquito bites. Malaria can make people sick or can lead to death. Scientists want to learn if a vaccine can stop it from spreading to other people. Objective: To test how well an experimental malaria vaccine works to decrease malaria infections. Eligibility: Healthy people ages 5 and older who live in Doneguebougou, Mali, and surrounding areas Design: Participants will be screened with: Medical history Physical exam Blood, urine, and heart tests EKG Participants will be randomly assigned to get either the experimental vaccine or an approved vaccine. They will not know which they are getting. Participants will have a visit about a week before their first vaccine. They will take a medicine that kills malaria. They will take it at the clinic the next 2 days. Participants ages 5-8 will take the drug again 2 weeks before their third vaccine. Participants get the vaccine through a needle in the arm. They will have visits 1, 3, 7, and 14 days after. They will have blood tests or finger pricks. Participants will get another vaccine 1 and 6 months later. Participants will have blood tests once a month. At these visits they may also have urines tests or mosquito feeds. For the feeds a cup full of mosquitoes will be placed on arms or legs for 15-20 minutes. Participants will have visits twice a month for 4 months after their last vaccine.

Start: April 2019

Efficacy, Safety and Immunogenicity Study of GSK Biologicals' Candidate Malaria Vaccine (SB257049) Evaluating Schedules With or Without Fractional Doses, Early Dose 4 and Yearly Doses, in Children 5-17 Months of Age

The study intends to establish proof of concept for a fractional dose schedule under conditions of natural exposure in children 5-17 months old at first vaccination. The study also aims to establish the role of third dose spacing in a fractional dose schedule, describe the effect of an earlier full fourth dose at Month 14 and describe the effect of multiple fractional or full yearly doses.

Start: September 2017

Laboratory Evaluation of Pregnancy Malaria Vaccine Candidates/In-vitro Testing of Pregnancy Malaria Vaccine Candidates

Background: - Malaria is a disease that affects many people in African countries. It is caused by germs that are spread by mosquito bites. It can be fatal if not diagnosed and treated right away. Children younger than 5 and pregnant women are most at risk to get malaria. Researchers want to create a vaccine that will prevent malaria infection during pregnancy. Objectives: - To create a vaccine that will prevent malaria infection during pregnancy. To assess possible vaccines using in-vitro tests with parasites taken from pregnant women. Eligibility: - Pregnant women ages 15 25 Design: The study site is an area in Mali, West Africa. Participants: Will have blood drawn. Will give consent for the blood sample to be used for future research. May have a physical exam. Participants who have malaria or anemia will get treatment.

Start: July 2015

Community Access to Rectal Artesunate for Malaria

Many malaria deaths occur in places where people have poor access to preventive and curative health services. Prompt access to quality health services is critical in the case of severe childhood diseases, among which severe malaria is particularly frequent in endemic areas. In communities where parenteral treatment of severe malaria is not available, the World Health Organization (WHO) recommends administration of a single rectal dose of artesunate (RAS) to children less than 6 years, followed by immediate referral to an appropriate facility where the full package of care for severe malaria can be provided. Many African countries have already endorsed the use of pre-referral RAS. But treatment guidelines vary widely across these countries and often do not align with the WHO recommendation. With the impending availability of quality-assured rectal artesunate (QA RAS) and countries poised to scale-up this intervention, it is critical to investigate the safe and effective implementation of RAS as part of a continuum of care for severe malaria patients. To ensure that RAS is well targeted, it is equally urgent to learn more about frequency, treatment seeking and risk factors for severe malaria at community level. The CARAMAL project has two major components: the pilot implementation of QA RAS in selected areas of the Democratic Republic of the Congo (DRC), Nigeria and Uganda, and operational research on the introduction of QA RAS into established integrated community case management (iCCM) platforms. The CARAMAL project is funded by Unitaid and coordinated by the Clinton Health Access Initiative, Inc. (CHAI). UNICEF is responsible for QA RAS implementation. Swiss TPH in partnership with the local research organizations Akena Associates Ltd. in Nigeria, Kinshasa School of Public Health in DRC and Makerere University School of Public Health in Uganda carries out the operational research component to generate evidence for the responsible implementation of RAS. Finally, the CARAMAL project will generate a better understanding of severe febrile illness, its management at all levels and key determinants of health outcomes.

Start: June 2018

A Study to Evaluate the Safety, Effectiveness and Impact of the GlaxoSmithKline Biologicals' Malaria Vaccine- RTS, S/AS01E in Young Children in Sub-Saharan Africa

The RTS, S/AS01E vaccine has been developed for routine immunization of children living in malaria- endemic countries of sub-Saharan Africa. This study is intended as a post-implementation safety study (after vaccine implementation), with the primary objective to evaluate the safety of vaccine after its administration. In addition to the primary objective, the study will also evaluate the impact and effectiveness of the vaccine.

Start: March 2019

Rosiglitazone Adjunctive Therapy for Severe Malaria in Children

Even with optimal anti-malaria therapy and supportive care, severe and cerebral malaria are associated with a 10-30% mortality rate and neurocognitive deficits in up to 33% of survivors. Adjunctive therapies that modify host immune-pathological processes may further improve outcome over that possible with anti-malarials alone. Investigators aim to evaluate a PPAR? agonist ( "rosiglitazone") as adjunctive therapy for severe malaria.

Start: February 2016

Antenatal Care as a Platform for Malaria Surveillance: Utilizing Community Prevalence Measures From the New Nets Project to Validate ANC Surveillance of Malaria in Mozambique

This study outlines a plan for conducting a routine assessment of malaria infection prevalence and intervention coverage using antenatal care (ANC) attendees. This will be a non-randomized assessment of the potential to use pregnant women attending their first ANC visit as a pragmatic sentinel population to monitor prevalence of malaria and the coverage of malaria control interventions. The use of a questionnaire, to include standard malaria rapid diagnostic testing, will be piloted with consenting women attending their first ANC visit at 21 individual health facilities across three of the New Net Project pilot study districts in western Mozambique: seven facilities each from Changara, Chemba, and Guro Districts. The results of the ANC questionnaires will be analyzed to see how well they correlate to similar malaria prevalence and intervention coverage estimates obtained during the contemporary community-based cross-sectional surveys administered during New Net Project pilot evaluation activities. As part of the New Nets Project, Mozambique is deploying next-generation ITNs through mass campaigns in pre-determined provinces. The present study aims to leverage planned New Nets Project cross-sectional surveys and strengthened routine case surveillance data in three of the study districts (Changara, Guro, and Chemba) to assess (1) whether the malaria infection prevalence data collected during ANC surveillance correlates with the cross-sectional survey estimates of community infection prevalence in children 6 to 59 months and (2) if intervention coverage data (particularly ITN ownership and use) collected from ANC surveillance are valid and representative of the population as a whole. These additional data could catalyze a new model of surveillance for malaria, and greatly simplify evaluation of the impact of new interventions, as ANC surveillance could potentially replace or supplement cross-sectional household surveys and provide more granular and timely data. All pregnant women attending first ANC visit at seven health facilities in each study district will be eligible for enrollment. Potential participants will be approached during their visit by a health facility worker. During group counselling sessions at initial intake, women will be informed of this pilot surveillance activity, and written informed consent will be obtained from each woman individually prior to routine ANC testing. All consenting women attending ANC first visit at a participating health facility will be tested for malaria using an RDT and asked to complete a study questionnaire which will include questions about the participant's net use, and care seeking behavior. It is expected to take 15 minutes to complete. Women who test positive for malaria will be given treatment according to national guidelines. There is no additional benefit to individual participants.

Start: December 2020

Estimating the Malaria Prevention Impact of New Nets: Observational Analyses to Evaluate the Evidence Generated During Piloted New Net Distributions in Mozambique

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 to commonly used insecticides in important mosquito vector populations. Newly developed, next-generation ITNs that use two insecticides, or an insecticide synergist and an insecticide, are effective at killing 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 in two regions of Mozambique. Over three years, data on the entomological and epidemiological impact of the different ITN types will be collected. Data collection will occur in six districts: two districts receiving the dual-active ingredient ITN Interceptor® G2 (BASF: alphacypermethrin + chlorfenapyr); one district that will receive the dual-active ingredient ITN Royal Guard® (Disease Control Technologies: alphacypermethrin + pyriproxyfen); one district receiving an ITN containing an insecticide plus an insecticide synergist , Olyset®Plus (Sumitomo Chemical: permethrin + piperonyl butoxide); and two districts receiving the standard pyrethroid-only ITNs DuraNet® (Shobikaa Impex Private Limited: alphacypermethrin). Data will be collected on malaria vector bionomics, disease epidemiology, and ITN use 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.

Start: August 2020

Antenatal Care as a Platform for Malaria Surveillance: Utilizing Community Prevalence Measures From the New Nets Project to Validate ANC Surveillance of Malaria in Burkina Faso

Burkina Faso will be deploying next-generation ITNs through mass campaigns in pre-determined provinces. As part of New Nets Project's initiative to catalyze the market introduction of next-generation ITNs, enhanced surveillance activities will be conducted to support observational impact analyses. As part of this enhanced surveillance, malaria infection prevalence is being measured through annual cross-sectional surveys during peak transmission periods using rapid diagnostic tests (RDTs) in children aged 6 to 59 months (under 5 years). It will also include strengthened routine data collection at all health facilities in the districts. The present study aims to leverage the planned cross-sectional surveys and strengthened routine data conducted by the New Nets Project in three of the study districts (Banfora, Gaoua, and Orodara) to assess (1) whether the malaria infection prevalence data collected during antenatal care (ANC) surveillance correlates with these estimates of community infection prevalence in children 6 to 59 months and (2) if intervention coverage data (particularly ITN ownership and use) collected from ANC surveillance are valid and representative of the population as a whole. These additional data could catalyze a new model of surveillance for malaria, and greatly simplify evaluation of the impact of new interventions, as ANC surveillance could potentially replace or supplement cross-sectional household surveys and provide more granular and timely data. All pregnant women attending first ANC visit at seven health facilities in each study district and who are 20 years old or older or in a union will be eligible for enrollment. Potential participants will be approached during their visit by a health facility worker. During group counselling sessions at initial intake, women will be informed of this pilot surveillance activity, and written informed consent will be obtained from each woman individually prior to routine ANC testing. All consenting women attending ANC first visit at a participating health facilities will be tested for malaria using an RDT and asked to complete a study questionnaire which will include questions about the participant's net use, and care seeking behavior. It is expected to take 15 minutes to complete. Women who test positive for malaria will be given treatment according to national guidelines. There is no additional benefit to individual participants. The specific objectives of this ANC surveillance pilot are to: Determine the prevalence of malaria infection and coverage of malaria control interventions among pregnant women attending their first ANC visit. Assess the correlation between ANC surveillance parasite prevalence from this study, malaria incidence measured from health facilities, and parasite prevalence collected by the New Nets Project during cross-sectional household surveys. Analyze the correlation between health seeking and net use/access in the ANC surveillance and health seeking behavior compared to the cross-sectional survey

Start: September 2020

Estimating the Malaria Prevention Impact of New Nets: Observational Analyses to Evaluate the Evidence Generated During Piloted New Net Distributions in Rwanda

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.

Start: February 2020

Optimizing Malaria Treatment for HIV-Malaria Co-infected Individuals

Optimal is a Randomized clinical trial to optimize treatment of malaria in HIV -malaria co infected patients. It has been demonstrated that, when the antimalarial drug Artemether Lumefantrine is co administered with Efavirenz based ART in HIV-malaria co-infected individuals, sub therapeutic levels of the drug are achieved hence resulting in poor malaria treatment outcomes. The study then hypothesizes that, : HIV-malaria co-infected individuals receiving efavirenz-based ART plus a double-dose or 5-day course of artemether-lumefantrine will achieve higher and adequate artemether-lumefantrine serum concentrations with adequate 42-day treatment outcomes compared to individuals with HIV-malaria co-infection receiving efavirenz-based ART plus a standard-dose of artemether-lumefantrine.

Start: April 2021

Estimating the Malaria Prevention Impact of New Nets: Observational Analyses to Evaluate the Evidence Generated During Piloted New Net Distributions in Burkina Faso

The use of insecticide-treated bed nets (ITN) has contributed to the substantial reduction in malaria cases and deaths. This progress is threatened by increasing resistance commonly used insecticides in mosquito populations. 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. Data collection will occur in three districts: one receiving dual-active ingredient ITNs, Interceptor® G2 (BASF), one receiving a standard pyrethroid long-lasting insecticidal net (LLIN), Interceptor® (BASF), and one receiving PermaNet®3.0 (Vestergaard) an LLIN containing an insecticide and an insecticide synergist. 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.

Start: July 2019

Effectiveness of a Community-delivered Integrated Malaria Elimination (CIME) Model in Myanmar

In Myanmar, community health workers, known as malaria volunteers, have played a key role in reducing the malaria burden in the malaria control phase, providing essential malaria services in rural areas where the coverage of formal health services is limited. However, the community-delivered models that have worked well for malaria control may not work well for malaria elimination. In parallel with switching from interventions for malaria control to those for elimination, the motivation and social importance of malaria volunteers has declined along with the decline of the malaria burden. To sustain volunteer motivation, the social importance and effectiveness in the malaria elimination program, the Community-delivered Integrated Malaria Elimination model for Myanmar (CIME model) was developed based on global evidence and qualitative consultations with community members, leaders, volunteers and health stakeholders in Myanmar. This study will assess the level of effectiveness of the CIME model in increasing malaria testing by its application in an open cluster-randomised controlled stepped-wedge trial.

Start: January 2021

Infection Tracking in Travellers. The Project Aims to Identify Profiles of Travel-associated Illness and to Follow up on Long-term Sequelae of Arboviral Infections and Malaria

The investigators hypothesize that sex, age, area of exposure and purpose of travel are associated with different travel-related infections. The investigators also hypothesize that certain infections will have long-term sequelae. Health-data will be collected from travellers from Switzerland and Europe. The project starts with a pilot study for 50 travellers, followed by the recruiting of 10,000 travellers. The data collection will be via a mobile App (ITIT). The ITIT App will collect active data from travellers. The participants will download the App after signing an electronic consent form and completing a baseline questionnaire. Then the travellers will answer a short daily questionnaire about illness symptoms during travel. The ITIT App will also collect passive data (GPS localisation, environmental and weather data). The project will provide real-time data on travel-related infections and profile travel illness by age, sex and purpose of travel and also identify outbreaks.

Start: January 2021

LLIN Evaluation in Uganda Project

In Uganda, the National Malaria Control Division (NMCD) and implementing partners plan to deliver long-lasting insecticidal nets (LLINs) nationwide in 2020-21, through a mass distribution campaign supported by generous contributions from international donors. LLINs will be distributed free-of-charge to all Ugandan households, aiming to achieve universal coverage. The Against Malaria Foundation has agreed to provide LLINs treated with a pyrethroid insecticide plus pyriproxyfen (PPF) (Royal Guard, Disease Control Technology) and LLINs treated with a pyrethroid insecticide plus piperonyl butoxide (PBO) (PermaNet 3.0, Vestergaard), presenting an opportunity to rigorously evaluate and compare these two LLINs at scale across Uganda. In collaboration with the MOH, the investigators propose to embed a cluster-randomised trial to compare the impact of LLINs with PPF to LLINs with PBO into Uganda's 2020 LLIN distribution campaign. The primary objective of the study is: To evaluate the impact of LLINs treated with a pyrethroid insecticide plus pyriproxyfen (PPF LLINs), as compared to LLINs treated with a pyrethroid plus piperonyl butoxide (PBO LLINs), on malaria incidence in Uganda. The study will test the hypothesis that malaria incidence will be lower in intervention clusters (randomised to receive PPF LLINs) than in control clusters (randomised to receive PBO LLINs).

Start: October 2020