Molecular typing

Milestones

1. 2024

   January

   EFSA assesses the persistence of microbiological hazards in food and feed production and processing environments. EFSA’s experts identify Listeria monocytogenes, Salmonella enterica, and Cronobacter sakazakii as potential threats to public health due to their persistence Persistence refers to the ability of harmful organisms like bacteria to survive and thrive despite regular cleaning and disinfection efforts, potentially lingering in hidden places for months or even years. in food processing environments. Molecular typing techniques were applied to analyse the persistence of specific strains of these bacteria

2. 2022

   July

   EFSA launches a platform for the collection and analysis of Whole Genome The entire amount of genetic material found in the cells of living organisms. Sequencing (WGS) data on Salmonella, Listeria monocytogenes, and Escherichia coli in food and animals, following a request from the European Commission. The platform is accessible to national competent organisations in the field of food safety, which will be uploading data that come from the annual monitoring of foodborne diseases. It will interact with the equivalent ECDC data collection system.

   The platform will support the work of EFSA and ECDC on rapid outbreak assessments, and ultimately help protect European consumers.

3. 2019

   December

   Experts evaluate the possible use of whole genome sequencing and metagenomics to investigate foodborne outbreaks, in source attribution analysis and microbiological  risk assessment  A specialised field of applied science that involves reviewing scientific data and studies in order to evaluate risks associated with certain hazards. It involves four steps: hazard identification, hazard characterisation, exposure assessment and risk characterisation.. They also analyse the advantages and limitations of next generation sequencing-based methodologies for characterising Salmonella and STEC and detecting  antimicrobial resistance The ability of microbes to grow in the presence of substances specifically designed to kill them; for example, some human infections are now resistant to antibiotics, raising concerns about their widespread use. genes in bacteria.

4. May

   Following a request from the Commission, EFSA and the European Centre for Disease Prevention and Control (ECDC) provide technical support for the collection and analysis of whole genome sequencing (WGS) data. Experts assess the state of the art of existing tools and identify needs and requirements for the joint EFSA-ECDC data collection system.

5. 2018

   June

   The European Commission and EFSA, supported by the European Union Reference laboratories (EURLs), publish a report on a survey among the EU/EFTA laboratory networks for the main foodborne pathogens. The survey is aimed at gathering information on the WGS capacity of food safety/veterinary laboratories in the EU and associated countries (EFTA).

6. 2014

   August

   EFSA evaluates the requirements for the design of surveillance activities for foodborne pathogens when molecular typing methods are applied. Experts also review the requirements for harmonised data collection and analysis, which are needed to compare trends over time and geographical areas.

7. June

   About 90 leading scientists, risk assessors, policy makers and risk managers working in the field of foodborne zoonoses attend a scientific colloquium at EFSA to discuss the use of the WGS of food-borne pathogens for the protection of public health.

8. 2013

   December

   EFSA reviews molecular typing methods applied to Salmonella, Campylobacter, Shiga-toxin producing E. coli and Listeria monocytogenes.

   Experts assess the methods based on specific criteria: their discriminatory capacity (ability to distinguish between pathogens), reproducibility and suitability for international harmonisation. They also evaluate their appropriateness in different public health applications — such as outbreak detection and investigation, estimating the contribution of various sources to illnesses and predicting which strains may cause epidemics.