The new study, published in Lancet Respiratory Medicine, is a part of the NIHR-funded project to assess the "impact of COVID vaccination to prevent long COVID" led by Professor Daniel Prieto Alhambra and Dr Annika Jödicke. Using data from Estonia, Spain and the UK including 20 million patients, the first pieces of work were published in the Lancet Respiratory Medicine and Heart. Both studies showed that COVID-19 vaccination reduced the risk of long COVID and post-acute complications. The analyses were done using federated analytics (analysis that is performed on multiple, often geographically, separated datasets) on the the Observational Medical Outcomes Partnership (OMOP) Common Data Model (CDM). This approach is adopted by the European Medicines Agency-funded Data Analysis and Real-World Interrogation Network (DARWIN EU®).
The research team in Norway led by Professor Hedvig Nordeng and Dr Nhung Trinh have recently mapped data from several nationwide linked health registries covering primary and secondary care events, vaccinations, and communicable disease notifications into OMOP CDM as part of the European Health Data and Evidence Network. They applied the publicly available scripts and successfully replicated the findings from Estonia, Spain and UK. COVID-19 vaccines reduced the risk of developing long COVID symptoms across all study cohorts by 36%. Although post COVID-19 thromboembolic and cardiovascular complications were rare, they also found a reduced risk for post-COVID ATE (arterial thrombosis) during the acute phase and for heart failure and VTE (venous thromboembolism) during the post-acute phases in older people following vaccination.
Dr Annika Jödicke commented "We are very excited to see that the Norwegian vaccine effectiveness results are supporting our previous findings of a reduction in risk of long COVID, and post-COVID cardiac and thromboembolic complications."
Nhung Trinh, Researcher at PharmaSafe research group, at the University of Oslo, said: 'We are glad that our study provides reassuring evidence on the COVID-19 vaccination effectiveness. I really believe that OMOP Common Data Model and federated analytics are the future of real-world evidence research. Extensive efforts are required at the harmonisation phase but once the data are in OMOP format, several studies relying on multinational data can be conducted very efficiently.'
Professor Daniel Prieto Alhambra added: 'This work demonstrates the value of federated analytics based on the OMOP CDM to make real world evidence realiable and reproducible.'
Hedvig Nordeng, head of the Pharmacoepidemiology and Drug Safety research group at the University of Oslo, concurs: 'This study showcases the efficiency of our data analytical pipeline at the University of Oslo using the OMOP common data model. It marks an exciting milestone, opening avenues for our involvement in a new era of rapid and robust federated real-world studies on disease history, drug utilisation, drug safety, and vaccine effectiveness. This study is an excellent start of this collaboration!'
This study strengthens the findings on the effectiveness of COVID-19 vaccination in preventing long COVID and post-acute complications. It also confirmed the usefulness of federated analytics and OMOP CDM that can be easily applied across national borders.