Influenza and influenza-like illnesses (ILI) are persistent public health problems due to seasonal influenza and other respiratory pathogens as well as emergency pandemic situations.
There are many questions about surveillance methods, estimates of the burden of influenza, the effectiveness of vaccines and other prevention strategies, and equitable delivery of services. Public health problems seen during flu season and in pandemics and their solutions relate to the mandates of all the National Collaborating Centres for Public Health (NCCPH), making influenza and influenza-like illness an important area for collaboration.
Influenza constantly evolves. Learn about the 2019-2020 recommendations for prevention and treatment of seasonal influenza. Speakers:Dr. Ian Gemmill and Dr. […]
Influenza constantly evolves. Join us, NACI and AMMI Canada on October 3, 2019 to learn about the 2019-2020 recommendations for […]
Summary of the National Advisory Committee on Immunization’s Seasonal Influenza Statement and the Association of Medical Microbiology and Infectious Disease Canada’s Treatment Recommendations for frontline healthcare practitioners and public health vaccine providers to help guide their practice.
Dr. Ian Gemmill presented on prevention of seasonal influenza, types of vaccines available and their effectiveness, new indications and available internet resources. Dr. Gerald Evans presented on the burden of seasonal influenza, the trends in recent years and the antiviral treatment recommendations.
Dr. Richard Schabas MD, MHP, CCMF, FRCPCDr. Joel Kettner MD, MSc, FRCSC, FRCPC (Scientific Moderator) An archived version of this webinar is now […]
Effectiveness of seasonal influenza vaccines against influenza A (H1N1) infection in post-pandemic seasons: Highlights of a systematic review
A systematic review of the literature to summarize the epidemiologic evidence on the effectiveness of seasonal influenza vaccines against A (H1N1) pdm09 infection in post-pandemic seasons.
According to Canada’s National Advisory Committee on Immunization (NACI), annual vaccination against influenza remains the best available strategy for reducing the risk of serious illness and death due to influenza. This systematic review summarizes epidemiologic evidence on the effectiveness of seasonal influenza vaccines against A (H1N1) pdm09 infection in post-pandemic seasons.
Identifying the Gaps
NCCID led a two-year collaborative project that brought together the expertise of the six NCCs to respond to recognized knowledge gaps regarding the prevention and control of influenza. Together, the NCCs developed a suite of new knowledge products to address these and other issues.
NCCID and its partners asked public health stakeholders, what are the priorities and what types of knowledge projects are most useful?
The themes and questions most often mentioned were Vaccines effectiveness, Primary prevention, Rapid diagnostics, Surveillance & burden of illness, Communication & messaging, and Equity. Learn more about each theme here.
The National Collaborating Centre for Infectious Diseases conducted several projects to strengthen the evidence-base and methods used to support public health decisions on when, among whom, and how best to intervene, particularly to avoid severe outcomes of influenza.
NCCID commissioned two reviews of evidence on the effectiveness of vaccines for seasonal influenza, as part of this collaborative project.
The first reviewed the mid-season results for vaccine during the 2013-14 flu season. Such a review may seem to be time-limited, but as Dr. Heejune Chang comments, there is considerable long-term value for public health personnel and decision-makers.
NCCID also commissioned Dr. Salah Mahmud and his team from the University of Manitoba’s Centre for Pharmacoepidemiology and Vaccine Research to conduct a systematic review of evidence on the effectiveness of seasonal influenza vaccines against influenza A (H1N1), post 2009-2010. The results of the systematic review (in press) have been submitted for review to the journal, Emerging Infectious Diseases. Here we provide you with the highlights of key findings.
Burden of Disease: Influenza
This project explores the conceptual and methodological groundwork to understand the true burden of disease, or of Influenza and ILI. As a first step, NCCID developed a primer on how burden is typically measured, as well as a Quick Reference on HALYS, DALYS AND QALYS.
Building on this work, NCCID developed ‘Framing Burden.’ We workshopped this exploration of a wider concept of ‘burden of disease,’ the scope of its application, and considerations for developing a broader, equity-informed framework for analysis at CPHA 2015.
A logical framework for modelling influenza and a review of terms used in this field are the starting points of this work aimed at improving communication and collaboration among modellers, infectious disease epidemiologists, and public health planners. In the fall of 2014, NCCID hosted a workshop with the Pan-InfORM team. The workshop was very successful and led to the development of an online discussion group, mod4PH, to build on the work and on the new links between public health and research modellers.
Public health decision makers regularly have to consider the possibility of closing schools during flu season or during a pandemic. NCCID conducted an updated evidence review on the effectiveness of school closures for the control of influenza. The review balances the evidence with the feasibility and ethical implications of the measure. NCCID also developed a policy summary of the findings, for quick reference.
Collaboration and Project Components
- NCCAH reviewed the academic literature describing the epidemiology of the 2009 influenza pandemic in First Nations, Inuit, and Métis populations, as well as the determinants of respiratory infection and ill health in these populations. Their project highlights distinct challenges and lessons learned from public health responses to the 2009 pandemic, showing the necessity of tailoring strategies to the unique circumstances of First Nations, Inuit and Métis people.
- NCCDH explored the roles of public health organizations and practitioners in integrating equity concerns into influenza prevention. They have published two case examples that highlight the strategies, collaborative processes, activities, and tools adopted by the Saskatoon Health Region and Manitoba Health, Healthy Living and Seniors to achieve a more equitable distribution of influenza prevention services.
- NCCEH summarized an overview of specific non-pharmaceutical measures to be used in community settings. This fact sheet includes the types of non-pharmaceutical measures used as well as their benefits, barriers to compliance, and information gaps.
- NCCMT summarized the evidence from systematic reviews to assess the effectiveness of strategies that aim to increase vaccination rates among healthcare workers.
You may also be interested in an earlier NCCID project that focused on pandemic influenza. The pH1N1 project critically assessed research evidence and consolidated practice-based lessons learned from Canada’s experience of pH1N1. A series of evidence reviews were published, covering a wide range of topics in both human and animal health.
- Effectiveness of School Closure for the Control of Influenza: A Review of Recent Evidence
- Is School Closure an Effective Strategy to Control Influenza? Summary Version
- A Logical Modelling Framework for Influenza Infection
- Understanding Summary Measures Used to Estimate the Burden of Disease: All about HALYs, DALYs and QALYs
- Understanding the Measurement of Global Burden of Disease
- Optimal Treatment Strategies for Remote and Isolated Communities
- Canadian Healthcare Workers’ Experiences Associated with Vaccination Against Pandemic H1N1 Influenza: A Review of the Qualitative Literature
- Key Informant Interviews: Challenges and opportunities for the prevention, early detection, and mitigation of zoonotic influenza at the swine-human interface in Canada
- Canadian Healthcare Workers’ experiences during pandemic H1N1 influenza: Lessons from Canada’s response
- Review of Terms Used in Modelling Influenza Infection