There are about 211 clinical studies being (or have been) conducted in Burkina Faso. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
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.
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 1. The proportion of patients with early treatment failure, late clinical failure, late parasitological failure or adequate clinical and parasitological response. 2. The frequency and nature of adverse events. 3. The blood concentration of lumefantrine on day 7
This trial will investigate the supplementation of azithromycin distribution to the "Child Health Days" platform in Burkina Faso for child mortality reduction. This distribution will pair door-to-door administration of vitamin A and azithromycin or placebo with acute malnutrition screening among children 1-11 months old.
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.
The purpose of this study is to identify the safe and effective dose of intravenous cipargamin in participants with moderately severe and severe malaria. The study also intends to evaluate clinical treatment success using a novel clinical endpoint for drug development in severe malaria. Severe malaria is a medical emergency and is affecting primarily young children in Africa. Injectable artesunate is the standard of care for the treatment of severe malaria and is highly efficacious. However, the spread of artemisinin-resistance in Plasmodium falciparum in Asian countries poses a threat for future treatment of patients with this life-threatening disease. To mitigate this risk, there is a need of another drug in malaria endemic countries. Cipargamin treatment results in rapid clearance of parasites including artemisinin resistant parasites.
This purpose of this study is to assess effects of iron and folic acid supplementation and multiple micronutrient supplementation on anemia status, school performance/attendance and development outcomes among adolescents in Burkina Faso.
Background: Malaria is a disease that affects many people in Burkina Faso. It is caused by germs that are spread by mosquito bites. A vaccine that blocks the spread of malaria is important to get rid of the disease. To see if a vaccine works, researchers need to find out how many malaria infections are happening in the community. Objective: To learn how often people of all ages who live in Sabou, Burkina Faso, get malaria. Eligibility: Healthy people ages 6 months to 65 years who reside in Sabou in a household with adults and children. Design: Participants will be screened with questions about their health. They will have a physical exam. Participants will be asked about any malaria symptoms they are having. They will be asked about the use of bed nets. Their vital signs, like blood pressure and temperature, will be measured. They will have blood taken from their arm with a needle. Participants who have a fever will have a malaria test. Those who test positive for malaria will be referred to the local health facility for treatment. Participants will have monthly study visits. Blood will be taken from a finger. Participants may be invited to take part in 2 mosquito feeding experiments. Mosquitos that do not carry malaria will bite their arm. And a small amount of blood will be fed to mosquitos in a laboratory. Participants' homes will be examined for mosquitoes. Researchers will remove all mosquitoes they collect. Participants' homes will be sprayed with a chemical to kill mosquitoes and other insects. Participation will last for 12 months.
The BLOOMy study is a longitudinal prospective cohort study of healthy children to assess the incidence of clinical malaria over the main transmission season. Participants will undergo baseline clinical and biological assessments then will receive a curative dose of either artesunate or dihydroartemisinin-piperaquine to clear any existing parasitemia. Clearance of parasites will be confirmed 3 weeks later by Polymerase chain reaction (PCR) and only participants with negative PCR will be definitively enrolled for the longitudinal follow up. Both active and passive case detection will be used to ensure that capture of a high proportion of infections in the cohort is achieved. Blood samples for immunological assessments will be obtained at Day 0 of each positive blood smear episode before treatment and at Weeks 4 post treatment. Participants will be followed for a minimum of six months throughout the malaria peak transmission season.
This study is a Phase I/II clinical study in healthy adults designed to assess the safety, tolerability, and immunogenicity of receiving 2 IM injections of Covigenix VAX-001/-1b, 28 days apart. Covigenix VAX-001/-1b is a plasmid DNA vaccine that expresses key antigenic determinants from SARS-CoV-2 and uses Entos Pharmaceuticals' Fusogenix PLV platform. The phase I part of this study was completed in Canada. The phase II part of the study will be completed in Burkina Faso, Senegal and South Africa.
The Integrated Management of Childhood Illness (IMCI) guideline has been implemented in Burkina Faso and is used across primary health facilities to assess children under the age of 5 years. A part from a rapid diagnostic test (RDT) for malaria, no other point of care in vitro diagnostic tests are widely used to improve disease diagnosis and inform treatment decisions. Dengue fever has been reported in Burkina Faso since 1925 and the recent epidemics in 2016 and 2017 have prompted the government to validate and deploy a clinical management algorithm for Dengue and a case reporting process to support surveillance for a targeted response. The organisation Terre des hommes has digitalised IMCI and implemented the module through its Integrated electronic Diagnosis Approach (IeDA) programme across primary health care centers (PHCs) in the country with proven impact on clinical care and proven reduction in antibiotic prescriptions. Many recognize the need to update the IMCI guideline with current evidence. However this is challenging and may require large clinical trials. The advantage of electronic clinical decision support systems is plural: they improve quality of care through increased adherence and feedback information to the system; they strengthen surveillance systems by connecting relevant patient related data and provide geo-tagged coordinates for targeted responses; and they can become evidence-adaptive. An electronic module of the Burkina Faso Dengue clinical management guideline accompanied with dengue rapid diagnostic tests has the potential to improve the diagnosis of non-malaria fevers in particular during "dengue seasons" and improve the efficiency of surveillance for this disease. In this study, the investigators aim to assess the usability and the performance of the dengue module for patient management in primary health care facilities.