Researchers have found evidence that an intense immune response known as a cytokine storm played a role in the demise of 50 people infected with pandemic H1N1 in 2009

Study shows cytokine storm in fatal 2009 H1N1 cases

H1N1 2009 Pandemic Influenza

Robert Roos | News Editor | CIDRAP News

Aug 16, 2013

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Researchers who studied lung tissue samples from 50 people who died of pandemic H1N1 (pH1N1) influenza infections in 2009 say they found clear evidence that the intense immune response known as a cytokine storm played a role in their demise.
The scientists found that the peak levels of virus in the victims' lungs correlated with "remarkably" high levels of certain cytokines in the same tissues, according to their report, which was released ahead of print this week in the American Journal of Pathology.
Cytokines and chemokines are messenger proteins that promote inflammation in response to infections. When respiratory infections like flu cause the immune system to produce cytokines in excessive quantities, they can cause too much fluid buildup in the lungs, making the illness worse. That happens in H5N1 avian flu cases and is believed to have contributed to the high death rate in the 1918 flu pandemic.
The new study was conducted by a team from the Chinese Center for Disease Control and Prevention and the US Centers for Disease Control and Prevention (CDC). The authors say the role of the immune response in causing severe lung damage in pH1N1 patients has had little attention.
The researchers analyzed 50 autopsy specimens that were collected from confirmed pH1N1 patients and submitted to the CDC between May 2009 and February 2010. The patients' median age was 38. Fourteen of them (28%) had a bacterial co-infection, and 34 (68%) had underlying medical conditions, of which asthma was most common.
The team found "remarkably high expression" of 7 out of 27 cytokines and chemokines they looked at (IL-1 receptor antagonist protein, IL-6, tumor necrosis factor-alpha, IL-8, monocyte chemoattractant protein-1, macrophage inflammatory protein 1-beta, and interferon-inducing protein-10).
Their results also indicated that the viral load in the lungs peaked on the seventh day of illness and persisted for as long as 17 days, and that the increased cytokine and chemokine levels correlated with the peak viral load. In particular, the team found that high levels of viral components and three specific cytokines (IL-6, IL-8, and IP-10) were located in similar areas of the lung.


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