In the current issue of Critical Care, Rello and colleagues 1 describe their initial experience with severe swine influenza pneumonia in Spanish intensive care units (ICUs). The experience in Spain is similar to that reported from Mexico City 2 and the US 3, emphasizing an abrupt onset and severe hypoxemic illness, with acute respiratory failure developing often in young, previously healthy individuals (the median age in this study was 36 years). The World Health Organization declared swine flu a level 6 public health emergency soon after the emergence and worldwide spread of the influenza A/Mexico City/2009 (H1N1) virus 4. This novel swine influenza strain is highly transmissible person-to-person, although severe human disease occurs at low frequency. The currently estimated population mortality rate is 0.1%, but in the ICU patients reported in the study of Rello and colleagues 1, it is 18.8%. Although this virus lacks many of the features of the highly pathogenic influenza A H1N1 1918 strain 567 or the avian H5N1 strain 89, it could cause hundreds of thousands of deaths worldwide if an anticipated population attack rate of 10% to 50% is confirmed over the next year.

The influenza virus deploys a frontal attack strategy by rapidly invading the respiratory epithelium of susceptible individuals, where it induces diffuse necrosis, marked inflammatory changes, intra-alveolar hemorrhage, and a highly productive cough. The virus replicates exponentially in human cells and then is transmitted via respiratory aerosol to other susceptible human hosts. This process repeats itself throughout the human populations until such time as sufficient antibodies and perhaps other innate and acquired immune responses curtail further spread of the virus. The pathogenicity of this virus depends on rapid cleavage and activation of its primary attachment protein hemagglutinin (HA) and efficient release from cells by its neuraminidase enzyme 5. Other virulence factors, seen most prominently in the 1918 and avian H5N1 viruses, include polymerase basic-1 (PB1), PB2, and nonstructural 1 (NS1) proteins. The PB1-F2 protein primarily traffics influenza virus to the outer membrane of mitochondria, inducing cellular energy loss and eventual cell death 1011. The NS1 also promotes apoptosis and rapid loss of cell viability. Fortunately, the current swine flu pandemic strain lacks a number of these important virulence determinants 12. The virus is intrinsically resistant to amantadine and similar drugs but retains its susceptibility, for the most part, to the neuraminidase inhibitors oseltamivir and zanamivir. However, the risk of its developing oseltamivir resistance is real 13, and this demands caution against the profligate use of these anti-viral agents.

The current pandemic strain is a quadruple re-assortant virus with segments of its genome derived from Eurasian swine, North American swine, avian species, and human influenza virus strains. The HA from human-adapted strains binds primarily to sialic acids bound by alpha 2-6 linkages to galactose found on surface glycoproteins along the respiratory epithelium. Avian strains prefer alpha 2-3 binding sites, whereas swine influenza viruses usually bind to either alpha 2-3 or alpha 2-6 sialic acid-galactose linkages. This probably explains why swine are important as intermediate hosts for novel pandemic flu strains that periodically affect human populations 5.

In their report, Rello and colleagues 1 point out a disproportionately high frequency of severe pneumonia in pregnant women and obese patients. The risk of severe influenza in pregnant women during pandemics has been well known for decades 14. Less well characterized is the increased risk of severe influenza pneumonia in obese patients. This observation might not be mere coincidence; obese patients are more difficult to ventilate due to chest wall restriction, and adipocytes are immunologically active cells with fat tissue replete with macrophages 15. Adipose tissue generates proinflammatory cytokines and this may conspire with a systemic inflammatory response from influenza pneumonia to increase severity and mortality rates in obese patients. The events that have taken place in Spanish ICUs are likely to be repeated many times over in ICUs throughout the world.

Pandemic influenza generally occurs only once or twice during a professional career. How well, or how poorly, we respond as a global community will be judged for decades to come. How well prepared are we? Will the new H1N1 vaccines become available in time to protect susceptible human populations? Will supplies of anti-viral agents be sufficient and be equitably distributed throughout the world? The evidence so far suggests that there will be substantial shortfalls in supplies of both 101116, and these shortfalls will likely cause severe difficulties in developing countries 17.

Could we use our current knowledge of the immunology and host response to influenza to devise an effective approach to help patients with severe pneumonia? The pathologic series of events leading to death from influenza likely has hereditary 18, environmental 19, and inflammatory 79 components. Is there too much inflammation in primary influenza pneumonia, or is there insufficient inflammation resulting in poor viral clearance? How many of the fatalities from influenza pneumonia are attributable to secondary bacterial pneumonia? Individual variation in the host response to influenza virus infection is probably an important determinant of ultimate outcome. Could we intelligently determine specific patient needs and intervene appropriately in severely afflicted patients?

A number of currently available agents on the market might provide some benefit in managing severe, primary, influenza pneumonia 101120. Would corticosteroid administration benefit selected patients or worsen viral shedding and mortality in severe influenza? Should we give immuno-adjuvants or immune suppressive agents in combination with anti-viral agents? These clinical questions need to be studied expeditiously and conclusively answered. Will we move forward together with a rapidly expanding, evidence-based approach to understanding influenza and its optimal management and be willing to share our knowledge and financial assets equitably between richer and poorer nations? As this pandemic evolves, the answers to these and other questions will become starkly evident within the next 12 months.

Abbreviations

Competing interests