There are about 140 clinical studies being (or have been) conducted in Mozambique. 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.
A double blinded, placebo-controlled, multicenter trial to evaluate effectiveness of azithromycin prophylaxis on mortality in advanced HIV.
The study aims to compare the accuracy of the lateral flow test to detect HPV at the POC with commercially available HPV test and to determine the diagnostic accuracy and reliability of a multimodal optical imaging system to detect cervical dysplasia, with the gold reference standard of histopathology.
Three complementary activities will be implemented:1) Baseline and repeat census of the catchment population; described in a separate protocol (IVI-ECOVA-03-WS1); 2) Enhanced surveillance for COVID-19 disease, and 3) AEFI-enhanced surveillance. The mass vaccination campaign will be conducted by the Government and is not part of this protocol.
Mozambique is among the ten countries with the highest burden of malaria worldwide, with an estimated 9.3 million cases in 2018, and constitutes a core target for the World Health Organization (WHO) and the Roll Back Malaria Partnership to End Malaria's country-led 'high burden to high impact' initiative. At the same time, the National Malaria Control Program (NMCP) of Mozambique seeks to accelerate elimination in the south, where transmission is lowest. NMCP is currently working with partners (Malaria Consortium, PMI, Global Fund) to set up a high-resolution surveillance system that can drive decision-making across all transmission strata through strengthening of routine data quality, data use and data to action packages. However, decisions become more complex as control reveals heterogeneity and better tools are required for a strategic use of information to drive impact. The overall objective of the study is to operationalize a functional malaria molecular surveillance (MMS) system that generates reliable and reproducible genomic data over time for programmatic decisions. The integration of genomic data into routine surveillance activities has the potential to increase the actionable intelligence for making programmatic decisions on the optimal mix of control and elimination measures in Mozambique by: 1. Informing drug and diagnostic choices through the monitoring of antimalarial drug resistance and diagnostic resistance (hrp2/3 deletions); 2. Targeting the reservoirs sustaining transmission through the use of transmission network models to quantify parasite importation, identify sources and characterize local transmission in near-elimination settings; 3. Improving stratification, monitoring and impact evaluations in different epidemiological and health system contexts through the use of measures of P. falciparum genetic diversity (routinely from positive cases) to supplement traditional surveillance, especially where it is sparse; 4. Using alternative, cost-effective, approaches targeting easy-access populations (e.g. pregnant women at antenatal care clinics) to monitor transmission and antimalarial/diagnostic resistance.
A multicenter, randomized, stratified, open-label, phase IV trial among HIV-positive persons (PLHIV) on antiretroviral therapy (ART), or HIV-negative household contacts of patients with rifampicin-sensitive pulmonary tuberculosis (TB), who do not have evidence of active TB.
The purpose of this study is to test the effectiveness of a multicomponent implementation strategy entitled the Systems Analysis and Improvement Approach for mental health (SAIA-M) using a cluster randomized trial at the health facility level. SAIA-MH focuses on improving the mental health treatment cascade in primary outpatient mental healthcare. The mental health treatment cascade is a model that outlines the sequential, linked treatment steps that people with mental illness must navigate, from initial diagnosis to symptom/function improvement. This study will also assess the potential mechanisms by which the SAIA-MH implementation strategy works, or does not work, along with the cost and effectiveness of scaling-up SAIA-MH in Mozambique.
As efforts to control malaria are stalling, and the disease is particularly severe in children under the age of two, it is imperative for countries in sub-Saharan Africa, with areas of moderate-to-high transmissions, to implement Perennial Malaria Chemoprevention (PMC) delivered through the Expanded Program on Immunization (EPI), which is the only feasible, sustainable and cost-effective strategy to reach this high-risk group. PMC is a full therapeutic course of antimalarial medicine (with sulfadoxine-pyrimethamine, SP) delivered to infants in the context of routine immunisation services during the first two year of life. PMC has been shown to be safe, efficacious in reducing clinical malaria, anaemia and hospital admissions, and to be highly cost-effective; for all these reasons, the World Health Organization (WHO) recommended in 2010 Intermittent Preventive Treatment for Infants (IPTi) for malaria prevention. Only one African country - Sierra Leone -put IPTi into policy and practice. Concerned with this slow adoption, WHO in 2019 recommended adaptations be urgently tested through pilots assessing impact, operational feasibility and cost effectiveness. In 2022, WHO expanded that recommendation to cover children through the age of two because of studies documenting the value in children aged 12 to 24 months. The name for this preventive treatment has consequently changed to Perennial Malaria Chemoprevention (PMC) as the updated recommendation is no longer just for infants. MULTIPLY is the pilot implementation of PMC in selected districts in Mozambique, Sierra Leone and Togo to maximise the delivery and uptake of PMC, to achieve the full potential of this intervention. Working with the ministries of health in Mozambique, Sierra Leone and Togo, MULTIPLY will give up to 6 doses of PMC in the first two years of life. PMC will be given at health facilities and EPI mobile outreach clinics using a paediatric dispersible formulation of SP, alongside routine vaccinations and vitamin A supplementation.
Stool4TB aims to evaluate an innovative stool-based qPCR diagnostic platform (with the capacity to become a POC diagnostic tool) in the high TB and HIV burden settings of Mozambique, Eswatini and Uganda, under the hypothesis that it will narrow the extremely large TB case detection gap by improving TB confirmation rates in children and people living with HIV (PLHIV).
Undiagnosed and untreated hypertension is a main driver of cardiovascular disease, affecting disproportionately low and middle-income countries, where guidelines to screen and manage hypertension are poorly used. More than 13% of Mozambique adults are infected with HIV, and over 900,000 are on anti-retroviral therapy. HIV clinics are the only services within primary care providing continued care, and can be used to standardize and scale the hypertension care cascade. Hypertension affects 40% of Mozambican adults, and thus HIV and HTN often coexist in the same person. The investigators propose to use low-cost tools that improve service performance, promote routine hypertension diagnosis and management, and ameliorate flow through the hypertension cascade, thus improving patients outcomes. Building on a current project some districts of two provinces of central Mozambique, the investigators will establish scientific evidence on the effectiveness of a tool that uses cycles of evaluation and improvement of health system, to address the hypertension care cascade in HIV-infected people. The investigators will strengthen the framework currently in use (based on nurses) setting a novel modality delivered by district health supervisors, and will expand the geographic study area by adding 6 districts of one additional province in southern Mozambique (Maputo Province), to create a foundation for national scale-up. The Project planning phase (two years) will develop a multi-sectoral partnership of key stakeholders, establish national technical working groups with the participation of the provinces, and identify key facilitators and barriers that could affect uptake of the results, integration of high blood pressure and HIV services, scale-up to the entire country, and sustainability of the tested framework. Additionally, the investigators will i) conduct a six-months pilot study to assess feasibility and acceptability of the district supervisor-led intervention in one primary care facility; and, ii) redesign tools and standard operating procedures, as necessary. During the implementation phase (last three years) the investigators will deploy the district-based dissemination and implementation randomized trial in 18 health facilities - using an intervention that involves assessment, effectiveness evaluation, promotion of local uptake, implementation and maintenance - and determine the costs of the hypertension care cascade optimization, by estimating the total incremental costs.
This is a cluster-randomized trial designed to compare the effectiveness of the CombinADO strategy versus optimized standard of care (SOC) on viral suppression, antiretroviral therapy (ART) adherence and retention in HIV care among adolescents living with HIV (ALHIV) ages 10 to 24 years attending participating health facilities. Clinics are the units of intervention allocation and randomization. The control condition will be implemented at all facilities (n=12) participating in the trial. The enhanced intervention condition will be superadded to this at a randomly selected half (n=6) of facilities. The goal of this study is to learn whether an enhanced, tailored intervention helps AYAHIV do better with their HIV care (take their medications, stay in care) than the usual care that they receive.