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90 active trials for Malaria

Collection of Human Biospecimens for Basic and Clinical Research Into Alpha Globin Variants

Background: Blood disorders like sickle cell disease and malaria affect many people around the world. Researchers want to learn more about blood disorders. To do this, they need to collect biological samples from people with blood disorders. They also need to collect samples from healthy people. Objective: To collect samples to use for research on blood disorders. Eligibility: People ages 18-70 who have blood disorders. Healthy volunteers without blood disorders are also needed. Design: Participants will be screened with a medical history, physical exam, and blood and urine tests. Participants will give one or more samples. They will give them over 5 years. They can choose not to give any of the samples: Saliva: Participants will spit into a tube. They may also have the inside of their mouth swabbed. Urine: Participants will urinate into a cup. Blood: Blood will be taken through a needle in the participant s arm. Fat samples: An area on the participant s belly or buttock will be numbed. A small cut will be made into the skin and a small piece of fat removed. Mucus and cells from the lungs: The participant will be sedated. A flexible tube will be inserted through the nose or mouth into the lung airways. These participants will also have a physical exam, chest x-ray, and heart tests after the procedure. ...

Start: September 2019

Gut and Azithromycin Mechanisms in Infants and Children II

Childhood mortality is decreasing worldwide. However, many sub-Saharan countries still have high children under 5 mortality rates. The MORDOR trial in Niger, Tanzania, and Malawi demonstrated a near 14% decrease in all-cause child mortality following biannual azithromycin in children 1-59 months. Current trials in Burkina aim to replicate these results from the MORDOR study with mass azithromycin treatment. The investigators conducted an individually randomized placebo-controlled trial in Burkina Faso called the Gut and Azithromycin Mechanisms in Infants and Neonates Trial (GAMIN: NCT03676751) to evaluate the effect of a single dose of azithromycin (20 mg/kg) on potential mediators of the effect of azithromycin on all-cause mortality and to evaluate changes in the gut microbiome longitudinally (results pending). Here, the investigators propose to conduct an expansion of the original GAMIN trial. In GAMIN II, the investigators will evaluate 450 additional 1-59 month old children longitudinally for 6 months with a focus on stool collection and malaria status. Objectives: 1. To determine the effect of a single dose of azithromycin for children aged 8 days-59 months on malaria. The investigators hypothesize that a single dose of azithromycin will result in a reduced malaria status within the treatment group compared to the placebo group after a 14 day period within children ages 8 days-59 months. The study will be conducted in Nouna Town in northwestern Burkina Faso.

Start: August 2020

Transmission Dynamics of Residual and Re-emerging Malaria in the Amazon: Defining a Roadmap to Malaria Elimination

A population baseline longitudinal study in a major residual malaria hotspot in Brazil to: 1. identify risk factors for residual malaria infection and disease at individual and household level, 2. identify and quantify population changes in P. vivax and P. falciparum to detect reintroductions and to estimate parasite population complexity at baseline and after interventions and 3. describe changing dynamics of malaria incidence and parasitemia prevalence over time, and to assess potential effects of combinations of interventions on malaria control and elimination using mathematical models. The study will be developed in Mâncio Lima, a residual malaria hotspot in northwestern Brazil. The population of study is approximately 2,000 subjects aged 3 months and up, who correspond to all the residents of 20% of the households of the urban area of Mâncio Lima. Will be made Active (ACD) and Passive Case Detection (PCD) every 6 months, over 5 years. (symptom based surveying; microscopy-based diagnosis). Each visit will include interview, physical examination and collection of 100 ?L of blood (finger prick) to malaria diagnosis by smear, RDT and qPCR. If the subject will be positive by smear or RDT (rapid diagnostic test for malaria), despite of presence of symptoms, ? 20 mL of venous blood will be draw of them to immunology and parasite genetics study and the immediate treatment per MOH(Ministry of Health) guidelines will be performed. Subjects with smear or RDT negative, will be followed for symptoms over the next 6 months. If it is subsequently found to be smear/RDT-positive by PCD, the treatment will be performed. Clinical and epidemiological characteristics of malaria, genetic characteristics of the population of Plasmodium and changing dynamics of malaria transmission will be analyzed.

Start: April 2018

Mass Drug Administration of Dihydroartemisinin-piperaquine + Single Low-dose Primaquine to Accelerate Toward Elimination Activities

This community-based cluster randomized controlled trial aims to evaluate the effectiveness of time-limited, community-wide mass drug administration (MDA) with dihydroartemisinin-piperaquine (DHA-PPQ) and single low-dose primaquine (SLD-PQ) on Plasmodium falciparum transmission compared to standard-of-care seasonal malaria chemoprevention (SMC). The study will be conducted in a moderate-to-low malaria transmission setting of Senegal with optimized malaria control measures (e.g., proactive community case management and piperonyl butoxide pyrethroid long-lasting insecticidal nets (PBO LLINS)).

Start: May 2021

A Surveillance Study of Diseases Specified as Adverse Events of Special Interest, of Other Adverse Events Leading to Hospitalisation or Death, and of Meningitis in Children in Africa Prior to Implementation of the RTS,S/AS01E Candidate Vaccine

The purpose of this pre-licensure cohort study is to estimate the incidence of adverse events of special interest (AESI), other adverse events (AE) leading to hospitalisation or death, meningitis and malaria in sub-Saharan African children under 5 years of age. The outcomes of this study will provide the baseline data for the post-licensure EPI-MALARIA-003 (115056) study that will evaluate the safety, effectiveness and impact of the RTS,S/AS01E vaccine. An interim analysis was performed on a sub-group of study participants enrolled in active surveillance from sites where the vaccine is currently implemented, having 6 months of follow-up following the administration of dose 3 of DTP/HepB/Hib vaccine (6-12 weeks group), or 6 months after Visit 3 (mimicking the RTS,S/AS01E primary vaccination schedule) for the 5-17 months group; corresponding to Visit 5. The interim analysis concerned primary safety endpoints and the main secondary endpoints.

Start: October 2015

Sanaria PfSPZ Challenge With Pyrimethamine or Chloroquine Chemoprophylaxis Vaccination (PfSPZ-CVac Approach): A Randomized Double Blind Placebo Controlled Phase I/II Trial to Determine Safety and Protective Efficacy Against Natural Plasmodium Falcipa...

Background: Malaria remains a major global health problem. Malaria is spread by the bite of mosquitos. Africa is the region of the world where most people get malaria. Sanaria PfSPZ Challenge is a malaria vaccine. Researchers want to see if the vaccine combined with partner drugs can help protect against malaria. Objective: To test if injections with 3 monthly doses of Sanaria PfSPZ Challenge, combined with either pyrimethamine (PYR) or chloroquine as a partner drug, is safe, tolerable, and effective. Eligibility: Healthy people ages 18-50 years who live in Bancoumana, Mali, or nearby Design: Participants will be screened with the Malaria Comprehension Exam to check their understanding of the study. They will have a medical history. They will have a physical exam. They will have blood tests, urine tests, and heart tests. Participants will join either the pilot study or the main study. Participants will be assigned to groups. Depending on their group, they will get at least one injection of either a placebo or the vaccine. They may have up to 3 vaccines, 4 weeks apart. The injection will be into a vein with a needle. Participants will also take pyrimethamine or chloroquine by mouth. They will also take standard doses of antimalarial drugs by mouth. Participants will have blood tests throughout the study. Participants may develop a rash or injection site reaction. If this happens, photos of the site may be taken. Participants will be observed for infection for many days after the injections.

Start: May 2019

Host and Parasite Factors That Influence Susceptibility to Malaria Infection and Disease During Pregnancy and Early Childhood in Ouelessebougou and Bamako, Mali

Malaria caused by Plasmodium falciparum continues to be a global problem with devastating consequences. A greater understanding of the immunologic and parasitologic factors associated with infection and disease is badly needed, and will accelerate the development of highly protective vaccines for both mothers and children. Pregnancy malaria is associated with low birth weight, maternal anemia, and gestational hypertension, and both inflammation and the fetal response to infection may contribute to these poor outcomes. Childhood malaria is a major cause of mortality, and we have found that risk of childhood malaria is related to in utero exposure to pregnancy malaria, as well as other host factors like iron status and constitutive cytokine levels. Pregnancy malaria is caused by a distinct parasite binding phenotype, and as our primary hypothesis in this study we speculate that severe childhood malaria parasites may also have distinct features. A longitudinal cohort study will be conducted in Ouelessebougou, Mali an area of intense seasonal transmission. Up to 2000 pregnant women and their infants and 2000 children ages 0 - 3 will be enrolled and followed to age 5 years, with clinical evaluation and periodic venous and peripheral blood samples obtained. In addition, 2000 febrile children up to age 10 years will be enrolled at the Ouelessebougou district health centers or the Gabriel Tour(SqrRoot)(Copyright) Pediatric Hospital in Bamako, Mali, with acute and convalescent samples being obtained and 500 pregnant women enrolled at the health centers and hospital in Ouelessebougou district or the Gabriel Tour(SqrRoot)(Copyright) Hospital in Bamako for a case-control study on pregnancy malaria and preeclampsia. Clinical, parasitologic and host response (including immunologic) endpoints will be analyzed using appropriate statistical methods, including possible confounders, to determine factors associated with infection and disease in pregnant woman and young children.

Start: August 2010

Trial to Evaluate CIS43LS in Healthy Adults

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 a drug called CIS43LS that could prevent malaria infection. Eligibility: Healthy people ages 18-50 who have never been infected with malaria Design: Participants will be screened with a physical exam, blood tests, and medical history. Some participants will get pregnancy tests. Most participants will get CIS43LS. They will get the drug infused into a vein in their arm or injected into the fat under the skin. They will be monitored for side effects for up to 4 hours after they get the drug. Participants will be given a thermometer to check their temperature every day for 7 days. They will also be given a device to measure any redness, swelling, or bruising at the injection site. Participants will have up to 12 follow-up visits. These will include blood tests. Most participants will take part in a Controlled Human Malaria Challenge (CHMI). During the CHMI, mosquitoes carrying the malaria parasite will bite participants in a controlled setting. The participants will then have clinic visits every day for up to 12 days starting 7 days after the CHMI. They will be treated right away with antimalarial medication if the test shows positive for malaria. If participants continue to test negative for malaria, they will have 2 more visits over the next 6 days for blood tests. Then 28 days after the CHMI they will get treated with antimalarial medication for 3 days. The study will last 2-6 months depending on participants study group....

Start: January 2020

Safety, Immunogenicity, and Protective Efficacy of Radiation Attenuated Plasmodium Falciparum NF54 Sporozoites (PfSPZ Vaccine) During Malaria Transmission Season in Healthy African Adult Women of Childbearing Potential in Mali

Background: Malaria is a disease spread by mosquitos. Pregnant women are highly susceptible to malaria. This can lead to poor health outcomes for pregnant women and their babies. Researchers want to test a malaria vaccine in women of child bearing potential (WOCBP) and pregnant women. This has not been done before. Objective: To assess the safety and tolerability of PfSPZ vaccine in healthy Malian WOCBP. Eligibility: Healthy women ages 18 38 who live in Ouelessebougou, Mali, and surrounding villages Design: Participants will be screened with: Physical exam Medical history Blood, urine, and heart tests Multiple-choice test about malaria Participants will get 3 injections by needle into a vein of the study vaccine or a placebo. All 3 will be within 1 month. They will not know whether they receive the vaccine or placebo. Participants will receive treatment to prevent malaria. This will be about 2 weeks before the first and third injections. After the third injection, participants will be followed for about 1 year. They will be tested to see if the vaccine is safe and protects against malaria infection. They will have blood tests. If participants get a rash or injection site reaction, photos of the site may be taken. Any women who become pregnant during the trial will be followed through the end of pregnancy. Babies and their mothers will be followed through the first year of life

Start: July 2019

Dihydroartemisinin-Piperaquine or Sulphadoxine-Pyrimethamine for the Chemoprevention of Malaria in Sickle Cell Anaemia

Sickle Cell Anaemia (SCA) is an inherited disease that makes the body produce red blood cells with abnormal sickle-shaped cells. The sickle-shaped cells are rigid, not flexible and break up easily resulting in anaemia. The abnormal cells also stick to the vessel walls, causing a blockage that slows or stops the flow of blood. When this happens, oxygen cannot reach nearby tissues. The lack of oxygen can cause attacks of sudden, severe pain, called pain crises, stroke or damage to important organs such as the spleen. All of these can lead to death. These attacks can occur without warning and are often started and made worse by infections such as malaria. Therefore, in many countries in Africa where malaria is common, children with SCA are given malaria medicines to prevent the infection. However, many of the medicines do not work effectively, are too difficult to take or they have side effects, resulting in poor adherence. The aim of this study is to find safe, acceptable and effective medicines for malaria prevention in children with SCA in eastern and southern Africa. The investigators propose to conduct a study to find out whether giving weekly doses of dihydroartemisinin-piperaquine, also called DP, is safe, more effective, acceptable and cost-effective than the current strategy of monthly sulphadoxine-pyrimethamine (SP) to prevent malaria in children with sickle cell anaemia. Overall, 548 children aged 6 months to 15 years will be chosen randomly to receive either weekly DP or monthly SP for about 18 months. To test if the study medicine is effective, the study will compare the case burden of malaria. The investigators will also monitor every child for any type of illness, blood transfusions and other complications of sickle cell anaemia and admissions to the hospital. In addition, the study will evaluate the impact of DP on the development of resistance by malaria parasites. The study will also include nested safety studies on the effect of DP on the heart. All study participants will receive all the other usual care and treatments, including patient education on home care, and daily penicillin if younger than 5 years. If proven safe and efficacious, chemoprophylaxis with DP may decrease the incidence of malaria in children with SCA, prevent ill-health and deaths, and improve wellbeing.

Start: April 2021

VAC 072-An Efficacy Study of R21/MM in Different Dose Schedules

An open label, partially blinded clinical trial in which healthy volunteers will be administered experimental malaria vaccines. There will be seven experimental groups of volunteers, of which five receive vaccination with the novel malaria vaccine candidate, R21, in combination with the vaccine adjuvant, Matrix M. The study will assess the safety & immune responses to vaccination, and the efficacy of the vaccine.

Start: June 2019

Malaria Diagnostic Testing and Conditional Subsidies to Target ACTs in the Retail Sector: TESTsmART Aim 2 - Nigeria

Highly subsidized first-line antimalarials (artemisinin combination therapy or ACT) are available over the counter in the private retail sector in most malaria-endemic countries. Overconsumption of ACTs purchased over the counter is rampant due to their low price, high perceived efficacy, and absence of diagnostic tools to guide drug use. The ultimate goal of the proposed work is to improve antimalarial stewardship in the retail sector, which is responsible for distributing the majority of antimalarials in sub-Saharan Africa. Through a combination of diagnosis and treatment subsidies and provider-directed incentives, this approach will align provider and customer incentives with appropriate case management and thereby improve health outcomes. The main objective of this study (Aim 2) is to test two key interventions, singly and in combination, in a random sample of private medicine retail outlets in Nigeria. This will be a cluster-randomized controlled trial where the cluster is a private retail outlet that stocks and sells WHO quality-assured ACTs. This four-arm study will test a 1) provider-directed incentive for testing and reporting, 2) a consumer-directed intervention in the form of a diagnosis-dependent ACT subsidy, 3) both the provider and consumer-directed interventions in combination against 4) a comparison arm. Outlets in all four arms will offer malaria diagnostic testing to customers who wish to purchase one. Information for the primary and secondary outcomes will be collected during exit interviews with eligible customers. The primary outcome will be the proportion of ACTs sold to customers with a positive diagnostic test. The main secondary outcome will be the proportion of suspected malaria cases presenting to the retail outlet that are tested. Other secondary outcomes include adherence to the RDT result amongst those tested (defined as taking a quality-assured ACT following a positive test and refraining from taking an ACT following a negative test) and appropriate case management for all suspected malaria cases (proportion tested and adhered among all suspected cases).

Start: March 2021

Optimal Chemopreventive Regimens to Prevent Malaria and Improve Birth Outcomes in Uganda

This trial tests the hypothesis that intermittent preventive treatment in pregnancy (IPTp) with sulfadoxine-pyrimethamine (SP) + dihydroartemisin-piperaquine (DP) will significantly reduce the risk of adverse birth outcomes compared to IPTp with SP alone or DP alone. This double-blinded randomized controlled phase III trial of 2757 HIV uninfected pregnant women enrolled at 12-20 weeks gestation will be randomized in equal proportions to one of three IPTp treatment arms: 1) SP given every 4 weeks, or 2) DP given every 4 weeks, or 3) SP+DP given every 4 weeks. SP or DP placebos will be used to ensure adequate blinding is achieved in the study and follow-up will end 28 days after giving birth.

Start: December 2020

Boosting the Impact of SMC Through Simultaneous Screening and Treatment of Roommates

Malaria represents a major public health concern in sub-Sahara Africa. Seasonal malaria chemoprevention (SMC) is one of the largest preventive measures. It consists to administer Amodiaquine+Sulfadoxine-Pyrimethamine to children aged 3-59 months on a monthly basis during the peak malaria transmission season. Despite its implementation, the burden of malaria is still very high in children under five years old in Burkina Faso. This raises questions about other hidden factors that can negatively affect the effectiveness of SMC intervention. Huge effort aiming at preventing human-vector contact were deployed such as the large-scale distribution of insecticide treated bed nets. Healthy humans are only infected via mosquitos if there are parasites reservoir around. Yet, there is no strategy aiming at protecting healthy humans from parasites reservoir. Under these circumstances, multiples humans sharing the same habitat could continually entertain the transmission cycle despite adequate existing measures. This would obviously jeopardize the expected impact of the SMC and the global effort to control the disease. In such context, we postulate that screening and treating malaria SMC-children's roommates could greatly improve the impact of SMC intervention and reduce malaria transmission in endemic settings. The goal of our study is to improve the impact of SMC intervention in terms of reducing malaria morbidity and mortality in children under five years. Primary objectives include assessing whether SMC + children's roommates screening and treatment with Dihydro-artemisinin-piperaquine (DHAPPQ) is more effective than current routine implementation of SMC alone as well as the assessment of the tolerance and safety of AQSP and DHAPPQ. Secondary objectives include the assessment of the impact of the new strategy on the circulating parasite population in terms of selection of resistant strains and the assessment of determinants such as adherence and acceptability of the strategy. Methodology: The study will be carried out in the Nanoro health district catchment area in Burkina Faso. This will be a randomized superiority trial. The unit of randomization will be the household and all eligible children from a household will be allocated to the same study group to avoid confusion. Households with 3 - 59 months old children will be assigned to either (i) control group (SMC alone) or (ii) intervention (SMC+ roommates screening with standard HRP2-RDT and treatment if positive) or (iii) intervention (SMC+ roommates screening with highly sensitive RDT and treatment if positive). The sample size will be 789 isolated households per arm, i.e. around 1,578 children under CPS coverage and 2,630 roommates expected. They will be followed-up for 24 months to fully cover two consecutive malaria transmission seasons and then two SMC cycles. Children will be actively followed-up during the malaria transmission seasons while in the dry seasons the followed-up will be passive. Conclusion: The project will respond to a major public health concern by providing evidence of the efficacy of a new strategy which should necessarily complement the existing ones to achieve best impact in malaria control and elimination. The project is lifesaving and could be scaled up easily at country and regional level in case of promising results. In addition, if successful, the project will reinforce the capacity of the IRSS/CRUN by offering training opportunities to young researchers.

Start: July 2021

Attractive Targeted Sugar Bait Phase III Trial in Zambia

The trial will evaluate the efficacy of ATSB deployment plus universal coverage of a WHO core vector control (VC) interventions over two transmission seasons on a minimum 30% reduction in cohort clinical disease incidence, confirmed case incidence, and parasite prevalence, as compared with VC alone. Measurement of entomological outcomes, assessment of acceptability and barriers to uptake and consistent use of ATSB, safety and adverse event monitoring and estimation of the cost and cost-effectiveness of ATSB will also occur.

Start: December 2020

Spatial Repellents for Vector Control

The primary objective of the study is to demonstrate and quantify the protective efficacy of a single SR product, in reducing malaria infection in a human cohort. The study design will be a prospective cluster Randomized Control Trial (cRCT).

Start: April 2021

Anti-malaria MAb in Mali

The purpose of this study is to evaluate the safety, tolerability, and efficacy of VRC MALMAB0100-00-AB (CIS43LS), a human monoclonal antibody, against naturally occurring Plasmodium falciparum (Pf) infection.

Start: February 2021

A Study of Blood-stage Controlled Human Plasmodium Falciparum Malaria Infection in Tanzania

This will be a single-centre, open label trial to determine the safety and feasibility of CHMI model using Plasmodium falciparum-infected cryopreserved erythrocytes administered to healthy Tanzanian adults with varying prior exposure to P. falciparum.

Start: August 2021

Evaluation of Three Artemisinin-based Combinations for the Treatment of Uncomplicated Malaria in Childreen in Burkina Faso (CHIMIO2)

Bakground In Burkina Faso, since the adoption of this new malaria treatment policy in 2005, several studies evaluating the efficacy and tolerance of ACTs have been carried out by different research teams at different sites according to an irregular chronology and according to different methods. Studies conducted in children 6 to 59 months with supervised use of ACTs indicate adequate clinical and parasitological response rates varying between 93% to 98% after correction to the PCR at day 28. With the introduction of seasonal malaria chemoprevention (SMC) by the Sulfadoxine-Pyriméthamime/amodiaquine combination in almost all health districts of Burkina Faso, ASAQ is no longer recommended for the treatment of uncomplicated malaria in the areas covered by this intervention. In 2017, DHA-PPQ was added to the national treatment guidelines as a first-line treatment option. The therapeutic efficacy study carried out in 2017-2018 by the CNRFP showed a PCR-corrected treatment failure rate of over 10% with the AL combination. However, molecular analyzes have not shown the presence of mutations at position 580 on the PfK-13 gene which is associated with resistance to artemisinin derivatives. The combination artesunate-pyronaridine (As-Pyr) was recently added to the WHO Prequalified Medicines List and Essential Medicines List. In 2019, it received regulatory marketing authorization to be used as a treatment for malaria in Burkina Faso. Burkina Faso (along with the Niangoloko and Bobo Dioulasso centers) was one of the countries where clinical trials p ar the As-Pyr association were led. This combination has been found to be effective and well tolerated in Burkina Faso. The combinations of AL and DHA-PPQ were observed to be well tolerated in previous efficacy studies. The combinations DHA-PPQ and As-Pyr could potentially replace AL as first-line treatment in Burkina Faso if the results of these planned therapeutic efficacy studies continue to show a high rate of failures with AL. The herein study aims to assess the efficacy and safety of AL, DHA-PPQ and As-Pyr in the treatment of uncomplicated malaria in children in three health districts in Burkina Faso, namely the health districts of Banfora, Nanoro and de Gourcy. This study will provide PNLP and the Ministry of Health with additional data and evidence on the safety and efficacy of these treatments against malaria in Burkina Faso. Primary objective The primary objective is to assess the clinical and parasitological efficacy of AL, DHA-PPQ and AS-Pyr in the treatment of uncomplicated P. falciparum malaria in children aged 6 months to 12 years, corrected by PCR on day 28 (AL) or 42 (DHA-PPQ & AS-Pyr). Study settings The study will be conducted at the medical center (CMA of Niangoloko, the Clinical Research Unit of Nanoro (URCN) and the medical center with surgical antenna (CMA) of Gourcy. Populations Febrile patients of both sexes aged between 6 months and 12 years with confirmed uncomplicated P. falciparum mono-infestation who wellcome for an outpatient visit to the health facilities. Procedures It will be a multicenter, randomized, open-label, three-arm study involving three sites representing the three epidemiological facies of malaria in Burkina Faso. The three therapeutic combinations (AL, DHA-PPQ and As-Pyr) will be tested in different sites with different characteristics of transmission and resistance of malaria. Children with uncomplicated malaria who meet the criteria for inclusion in the study will be recruited and treated with the combination of AL or DHA-PPQ or As-Pyr. They will be monitored for 28 days for the AL group and 42 days for the DHA-PPQ and AS-Pyr arm. The follow-up will consist of scheduled control visits during which clinical examinations and laboratory tests will be carried out. A total of 1050 children will be enrolled in the study. Main results The proportion of patients with early treatment failure, late clinical failure, late parasitological failure or adequate clinical and parasitological response. The frequency and nature of adverse events. The blood concentration of lumefantrine on day 7

Start: June 2021

The ASAP Study - Therapeutic Efficacy of Atovaquone-proguanil vs. Artesunate-atovaquone-proguanil in Cambodia

This is a two-arm, randomized, open label Treatment Study evaluating the therapeutic efficacy, safety, tolerability and pharmacokinetics of a three-day course of Atovaquone-Proguanil (AP) or a three-day course of Atovaquone-Proguanil combined with 3 days of Artesunate (ASAP) in patients with uncomplicated Plasmodium falciparum malaria at selected sites in Cambodia. Atovaquone-proguanil, soon to adopted as a first line antimalarial agent by the National Malaria Control Program (CNM) in Cambodia in provinces with confirmed multidrug resistance, will be given with or without artesunate (AS) as a directly observed, standard three-day fixed dose combination treatment to all volunteers enrolled. The efficacy and safety of both drug combination as well as evidence for in vivo and in vitro resistance to their components will be monitored during the treatment period. All volunteers will receive a single dose of 15mg of primaquine as recommended by WHO with the first dose of AP or ASAP to block the transmission of malaria to mosquitoes. Resistance to AP and ASAP will be assessed by a combination of clinical, pharmacologic, and parasitological parameters including genomic signatures of selection during careful weekly follow-up visits for 6 weeks. Investigators will also be able to evaluate the effects of primaquine on the sexual stages of malaria (gametocytes).

Start: December 2014