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The WHO Global Antimicrobial Resistance and Use Surveillance System (GLASS) was launched in 2015 to foster AMR surveillance and inform strategies to contain AMR. The system started with
...
surveillance of AMR in bacteria causing common human infections and has expanded its scope to include surveillance of antimicrobial consumption (AMC), invasive fungal infections, and a One Health surveillance model relevant to human health. To meet future challenges, it is in continuous evolution to enhance the quality and representativeness of data to inform the AMR burden accurately. As of the end of 2022, 127 countries, territories and areas participate in GLASS.
The fifth GLASS report, produced in collaboration with Member States, summarizes 2020 data on AMR rates in common bacteria from countries, territories, and areas. The report brings new features, including analyses of population testing coverage or AMR trends. For the first time, the report presents 2020 data on AMC at the national level. A new interactive dashboard allow users to explore AMR and AMC global data, country profiles and download the data.
This report marks the end of the early implementation phase of GLASS. In addition to presenting data collected through the latest data call, this report provides a summary of five years of national AMR surveillance data contributed to GLASS from its initiation, presents AMR findings in the context of progress of country participation in GLASS and in global AMR surveillance coverage and laboratory quality assurance systems at (sub)national level.
Patterns of antimicrobial consumption are presented by country with a particular focus on antibacterials. The report also presents the antimicrobial consumption according to the WHO AWaRe antibiotic classification, for penicillins and cephalosporines. From a One Health perspective, the report presents antimicrobial consumption data in the human sector expressed in tons to allow a comparison with antimicrobial consumption from other sectors (not included in this report).
more
Recency assays use one or more biomarkers to identify whether HIV infection in a person is recent (usually within a year or less) or longstanding. Recency assays have been used to estimate incidence in representative cross-sectional surveys and in epidemiological studies to better understand the pat
...
terns and distributions of new and longstanding HIV infections.
This technical guidance outlines best practices regarding the appropriate use of HIV recency assays for surveillance purposes and updates 2011 technical guidance from the World Health Organization (WHO) and the Joint United Nations Programme on HIV/AIDS (UNAIDS) on the use of HIV recency assays.
more
Un comité OMS d’experts sur la trypanosomiase humaine africaine (THA) : lutte et surveillance, s’est réuni à Genève (Suisse), du 22 au 26 avril 2013. Le Dr H. Nakatani, sous-directeur général pour le VIH/SIDA, la tuberculose, le paludisme
...
et les maladies tropicales négligées, a ouvert la réunion au nom du Dr M. Chan, directeur-général de l’OMS.
La THA est une maladie qui afflige les populations rurales de l’Afrique, là où prolifère la mouche tsé-tsé (ou glossine), vecteur des trypanosomes qui en sont la cause. On distingue deux formes de THA : la forme à T. b. gambiense ou forme gambienne, endémique en Afrique de l’Ouest et en Afrique centrale et qui
représente actuellement 95 % des cas, et la forme à T. b. rhodesiense ou forme rhodésienne, endémique en Afrique de l’Est et en Afrique australe, à laquelle sont dus les 5 % restants.
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We developed an integrated vector surveillance (IVS) proposal for cutaneous leishmaniasis (CL) and visceral leishmaniasis (VL) in the Americas, based on eco-epidemiological studies conducted by researchers of the Leishmaniasis Research Network of Ar
...
gentina. For CL, the transmission was explained in the framework of the edge effect, the increase of vectors and risk of exposure at ecotones and environmental interfaces, and typified as ephemeral, transient, or permanent edges, supporting a cost-effective IVS strategy for early warning of CL outbreaks through an environmental modification alert network, which includes multiple sources of information and actors. In relation to VL, the earliest colonization sites and spatial distribution were explained by modeling and forecasting the most likely hotspots, persistent in time and space, and modulated by environmental variables. Therefore, for VL, a scalar strategy of critical site selection is proposed from a “city” scale based on secondary sources such as remote sensing for the definition of possible areas to monitor and intervene, a scale of restriction from possible to most likely areas through local knowledge, and a “focal site” scale of trap placement through field observation; in this way, IVS activities are carried out at a few sites of the urban landscape and allow a sustainable program.
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Antimicrobial resistance (AMR) represents a major threat to human health with significant global economic and security implications. In 2015, WHO Member States unanimously approved a Global Action Plan to tackle AMR (GAP-AMR). The goal of GAP-AMR is “to ensure, for as long as possible, continuity
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of successful treatment and prevention of infectious diseases with effective and safe medicines that are quality-assured, used in a responsible way, and accessible to all who need them”.
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It is impossible to address the many complex needs of respiratory virus surveillance with a single surveillance system. Multiple systems, investigations and studies must each be fit-for-purpose to s
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pecific priority surveillance objectives, and only together can they provide essential information to policy-makers. In essence, each surveillance approach fit together as “tiles in a mosaic” that provides a complete picture of respiratory viruses and the impact of associated illnesses and interventions at the country level. This mosaic framework demonstrates how surveillance approaches may be implemented as coordinated and collaborative systems, well-matched to specific priority objectives.
more
En 2014, la soixante-septième Assemblée Mondiale de la Santé a exprimé sa préoccupation croissante au sujet de la situation
de la RAM, et elle a exhorté les pays membres à renforcer leurs programmes d’action nationale ainsi que la collaboration
internationale. Dans sa résolution WHA67.25
...
l’Organisation Mondiale de la Santé (OMS) a recommandé que soit développé
un Plan d’Action Mondial pour lutter contre la RAM. Ce Plan a été adopté en mai 2015 et recommande notamment la mise en
place d’un système mondial de surveillance de la RAM (GLASS, Global Antimicrobial Résistance Surveillance System). L’objectif
de GLASS est de permettre la collecte, l’analyse et l’échange avec les pays de données standardisées, validées, comparables
sur la résistance aux antimicrobiens.
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Antimicrobial resistance (AMR) is impacting our health, economies and development. Up to 5.2 million people may die because of resistant bacterial infections across the Western Pacific Region from 2020-2030. Childbirth, surgery, cancer treatment and other interventions will become impossibly d
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angerous if bacterial infections no longer respond to available antibiotics.
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interim guidance, 25 November 2024
Trachoma is the leading infectious cause of blindness worldwide. In April 2023, it was a public health problem
in approximately 40 countries, with an estimated 116 million people at risk and 1.5 million people affected
by the late blinding stage of the disease (1). About 84% of those at risk of tr
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achoma are in the World Health
Organization (WHO)’s African Region; about 52% of those at risk of trachoma live in Ethiopia
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The Malaria Elimination Guide to Targeted Surveillance and Response in High-Risk Populations (HRP Guide) provides practical operational guidance to identify and characterize populations at highest risk of malaria and design and implement data-driven
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and targeted surveillance and response activities for these populations. This guide is designed for national malaria program managers and their implementing partners, including non-governmental organizations and researchers.
The HRP Guide is available in English, French, Portuguese, and Spanish.
more
In response to the growing necessity for accurate and timely information regarding deaths categorized by age, sex, and cause of death, underscored by the profound impact of the COVID-19 pandemic, the Africa Centres for Disease Control and Prevention (Africa CDC) developed the Continental Framework d
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esigned to fortify mortality surveillance within the African Union Member States. This Operational Guide is a comprehensive companion, delineating specific activities harmonized with the framework.
more
The paper “Artificial Intelligence for Public Health Surveillance in Africa: Applications and Opportunities” examines how artificial intelligence (AI) can improve public health systems across Africa, particularly in low-resource settings. It exp
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lores how machine learning and other AI techniques are being used for disease detection, outbreak prediction, real-time surveillance, and health resource management.
The authors focus on major public health challenges such as HIV, cholera, Ebola, measles, tuberculosis, malaria, COVID-19, and mental health. Through numerous case studies, the paper shows that AI can enhance the accuracy and speed of disease detection, predict outbreaks more effectively than traditional methods, support vaccination strategies, and optimize healthcare resource allocation. At the same time, it discusses important barriers to implementation, including limited data quality, infrastructure constraints, ethical concerns, and shortages of technical expertise.
Overall, the paper highlights AI’s strong potential to strengthen disease surveillance and health outcomes in Africa while emphasizing the need for careful integration, improved data systems, and supportive policy frameworks.
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A crucial element in accelerating progress is the development of improved surveillance systems and tools that provide decision-makers with timely, high-quality data and actionable insights. The investments made to establish genomic platforms for COV
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ID-19 surveillance have catalyzed a genomic revolution—one that can now be leveraged to strengthen the surveillance of endemic diseases such as malaria.
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Fiche Technique Ebola no.2
The WHO Cholera Rapid Diagnostic Test (RDT) Target Product Profile outlines the key requirements for developing improved cholera RDTs. It highlights the need for fast, accurate, and easy-to-use tests for early outbreak detection in resource-limited settings. The document sets desired and acceptable
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performance criteria, including high sensitivity and specificity, rapid results (under 15 minutes), and usability by non-laboratory personnel. The tests should be affordable, stable in extreme conditions, and require minimal training. The goal is to enhance cholera surveillance and outbreak response, ensuring quick containment and improved public health outcomes.
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Research Article
BMC Infectious Diseases 2012, 12:262; doi:10.1186/1471-2334-12-262
