In West Africa, identification of nonmalarial acute febrile illness (AFI) etiologic pathogens is challenging, given limited epidemiologic surveillance and laboratory testing, including for AFI caused by arboviruses. Consequently, public health action to prevent, detect, and respond to outbreaks is constrained, as experienced during dengue outbreaks in several African countries. We describe the successful implementation of laboratory-based arbovirus sentinel surveillance during a dengue outbreak in Burkina Faso during fall 2017. We describe implementation, surveillance methods, and associated costs of enhanced surveillance during an outbreak response as an effort to build capacity to better understand the burden of disease caused by arboviruses in Burkina Faso. The system improved on existing routine surveillance through an improved case report form, systematic testing of specimens, and linking patient information with laboratory results through a data management system. Lessons learned will improve arbovirus surveillance in Burkina Faso and will
Efficient specimen transport systems are critical for early disease detection and reporting by laboratory networks. In Burkina Faso, centralized reference laboratories receive specimens from multiple surveillance sites for testing, but transport methods vary, resulting in potential delays and risk to specimen quality. The ministry of health and partners, under the Global Health Security Agenda implementation, piloted a specimen transport system for severe acute respiratory illness (SARI) surveillance in 4 Burkina Faso districts. A baseline assessment was conducted of the current specimen transport network structure and key stakeholders. Assessment results and guidelines for processing SARI specimens informed the pilot specimen transport system design and implementation. Monitoring and evaluation performance indicators included: proportion of packages delivered, timeliness, and quality of courier services (missed or damaged packages). Our baseline assessment found that laboratorians routinely carried specimens from the health center to reference laboratories, resulting in time away from laboratory duties and potential specimen delays or loss of quality. The pilot specimen transport system design engaged Sonapost, the national postal service, to transport specimens from SARI sites to the influenza national reference laboratory. From May 2017 to December 2018, the specimen transport system transported 557 packages containing 1,158 SARI specimens; 95% (529/557) were delivered within 24 hours of pickup and 77% (892/1,158) within 48 hours of collection. No packages were lost. This article highlights lessons learned that may be useful for other countries considering establishment of a specimen transport system to strengthen laboratory system infrastructure in global health security implementation.
The Global Health Security Agenda and the International Health Regulations (2005) recommend that countries strengthen the capacity of their national laboratory systems to comply with the International Health Regulations. To efficiently and effectively direct these efforts, the US Centers for Disease Control and Prevention—in collaboration with the Ministry of Health Directorate of Laboratories, the African Society for Laboratory Medicine, and Integrated Quality Laboratory Service—assessed Burkina Faso's national laboratory system using the World Health Organization Laboratory Assessment Tool . Based on gaps observed in biorisk management, the Biosafety and Biosecurity Laboratory Assessment Tool (BSS LAT) was developed to assess 10 public laboratories handling dangerous pathogens. This tool uses a specific scoring matrix with quantitative output. Composite assessment scores for the 9 primary modules (capacity areas) were reported, with the highest scores reported in cleaning, disinfection, sterilization, waste management (42%), and good laboratory practices (40%), and the lowest scores in biosecurity/biosafety (33%), documents/regulations (18%), emergency management (16%), and risk management (5%). To address challenges identified in the assessments, a set of activities was planned with a focus on biorisk management. Results from an evaluation conducted 1 year later, using the BSS LAT, showed an increase in the average score of all indicators from 25% to 45% and an increase in the biorisk management module score from 5% to 35%. This evaluation process was a decisive step toward strengthening the capacity of the laboratory system in Burkina Faso. Global Health Security Agenda investments and activities have made a lasting impact on improving biosafety and biosecurity in public health laboratories. To ensure sustainability, a strong laboratory quality management program based on a mentorship system is greatly needed.
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