Intended for healthcare professionals

Book Book

Flu

BMJ 2000; 320 doi: https://doi.org/10.1136/bmj.320.7230.320 (Published 29 January 2000) Cite this as: BMJ 2000;320:320
  1. Christopher Martyn
  1. BMJ

    Embedded Image

    Gina Kolata

    Macmillan, £12.99, pp 400

    ISBN 0 333 75105 1

    Rating: Embedded ImageEmbedded ImageEmbedded Image

    If you think negative strand RNA viruses are giving us a bad time at the moment, read this book to recalibrate your perspective. It's about the influenza pandemic that gripped the world in 1918,killing more people in a few months than the armies of the first world war slaughtered on the battlefields of Flanders, northern France, and Gallipoli in four years. An estimated 25% of the world's population suffered a clinical infection, and global mortality may have been higher than 40 million. In England and Wales alone, official deaths from influenza numbered 200 000—more than the current annual number of deaths from heart disease.

    Influenza viruses weren't identified until 1933, and the nature of the agent that caused the 1918 pandemic has been a mystery until recently. Kolata tells the story of the various attempts to track it down. In the 1950s, the bodies of four flu victims were disinterred from graves in the Alaskan permafrost, but attempts to grow the virus from tissue samples were unsuccessful. A few years ago, a similar enterprise, this time in Spitzbergen, also failed. The bodies hadn't been buried deeply enough to keep them frozen. So far, the most fruitful source of material has turned out to be lung tissue embedded in paraffin wax that was taken by US army pathologists at postmortem examination of soldiers who had died at army camps during the pandemic. From these specimens, polymerase chain reaction allowed RNA sequences of a novel influenza A virus to be characterised.

    Kolata is good at not letting technical details get in the way of her narrative. Rather than explain methods, she invents metaphors for them. Primers for the polymerase chain reaction, for example, become fishhooks for catching genes. Only molecular biologists will object to that. But she can't shake off her background in science reporting for the New York Times. The book reads like a series of newspaper articles. There's no change of mood or pace. She writes at the top of her voice all the time. The journalist's technique of conveying authenticity by directly quoting the person being interviewed becomes clumsy when used too often.

    The murderer may have been identified, but questions remain about the weapon. What was the secret of its virulence? Why was mortality so high in young adults? How did it spread so fast? As more of the viral genes get sequenced, we may get some answers.