Improving Detection and Reporting of Antimicrobial Resistance in Brazil to Guide Prevention and Response Efforts
Posted On: May 2023
- As part of the Global Antimicrobial Resistance Laboratory and Response Network (Global AR Lab & Response Network), CDC and partners are working to help laboratories in Brazil better detect critical antimicrobial resistance (AR) threats and report them rapidly to staff at local and national levels.
- Improving detection and reporting of AR threats helps infection prevention and control (IPC) and public health experts understand which pathogens are present and where potential hotspots for transmission are.
- This information guides actions to respond to AR threats and prevent them from spreading to other healthcare facilities, other regions, and around the world.
As part of CDC’s Global AR Lab & Response Network, CDC, in partnership with the Oswaldo Cruz Foundation (FIOCRUZ) through the Foundation for Scientific Technological Development in Health (FIOTEC), is supporting Brazil’s National Public Health Laboratory Network to strengthen AR detection and reporting in Brazil, the largest country in South America. Enhanced AR detection and reporting will help guide treatment choices, inform AR prevention and response actions, support AR public health policies at the State Secretariats of Health, the National Health Surveillance Agency, and the Ministry of Health, and contribute to national and global AR surveillance efforts.
With the success of the first year of collaboration, CDC is supporting FIOTEC to expand participation in the network to an additional 10 hospitals across all 5 regions in Brazil. Partnerships like this help CDC and collaborators better understand the spread of AR threats globally and help coordinate efforts to prevent and control them. Learn more about what CDC and partners are doing around the world to detect, prevent, and respond to AR.
Building Lab Capacity for AR Data Collection
FIOCRUZ in collaboration with the Brazilian Ministry of Health, the state public health laboratory in Paraná (LACEN-PR), and the National AR Laboratory (LAPIH-FIOCRUZ) have worked with 15 hospitals across Brazil and 5 regional reference laboratories to survey current lab capacity, procure needed supplies for detection of AR genes, implement standardized procedures for lab testing, and train staff.
To date, 218 participants at 42 laboratories in 25 of Brazil’s 27 states, located at local, state, and regional levels have received training on pathogen identification, testing for identification of antimicrobial resistance profile and mechanism of resistance, and integration of data into the National Antimicrobial Resistance Monitoring System of Brazil (BR-GLASS). Ten participants from regional reference labs will receive molecular methods and whole-genome sequencing training at LACEN-PR and LAPIH-FIOCRUZ.
An online bacteriology training series was also created. The series provides 56 hours of training covering topics ranging from basic microbiology to whole-genome sequencing. This series, given in Portuguese, allows expanded access to training within the network and for other lab capacity building activities in Brazil. It may also serve as a model for other countries in the region.
Using Data for Action
The participating labs integrate their data into BR-GLASS, a system that collects AR data from across Brazil. As reporting to BR-GLASS grows, experts will have a clearer picture of what types of AR pathogens are a problem in the country and where these pathogens are found.
These data will help refine the algorithm of the SMART-CDSS app, which can inform clinicians making decisions about antimicrobial use for patients. It will also guide the Brazilian Health Regulatory Agency (ANVISA) in the development and implementation of IPC activities to prevent the spread of AR in healthcare facilities.
Strengthening BR-GLASS supports global AR monitoring efforts as well. Brazil joined the World Health Organization’s Global Antimicrobial Surveillance System (GLASS) in 2017, and BR-GLASS contributes data to this global system.
Training laboratorians to interpret results from the IR Biotyper – a machine used to identify antimicrobials to which bacteria might be resistant.
Laboratorians prepare strains to test for AR.
DNA from multi-drug resistant bacteria being prepared for qPCR.