The Viral Storm: The Dawn of a New Pandemic Age

3.75 avg rating
( 1,612 ratings by Goodreads )
 
9780141046518: The Viral Storm: The Dawn of a New Pandemic Age
View all copies of this ISBN edition:
 
 

Dynamic young Stanford biologist Nathan Wolfe reveals the surprising origins of the world's most deadly viruses, and how we can overcome catastrophic pandemics.

In The Viral Storm, award-winning biologist Nathan Wolfe tells the story of how viruses and human beings have evolved side by side through history; how deadly viruses like HIV, swine flu, and bird flu almost wiped us out in the past; and why modern life has made our species vulnerable to the threat of a global pandemic.

Wolfe's research missions to the jungles of Africa and the rain forests of Borneo have earned him the nickname "the Indiana Jones of virus hunters," and here Wolfe takes readers along on his groundbreaking and often dangerous research trips—to reveal the surprising origins of the most deadly diseases and to explain the role that viruses have played in human evolution.

In a world where each new outbreak seems worse than the one before, Wolfe points the way forward, as new technologies are brought to bear in the most remote areas of the world to neutralize these viruses and even harness their power for the good of humanity. His provocative vision of the future will change the way we think about viruses, and perhaps remove a potential threat to humanity's survival.

"synopsis" may belong to another edition of this title.

About the Author:

Nathan Wolfe is the Lorry I. Lokey Visiting Professor in Human Biology at Stanford University and Director of Global Viral Forecasting, a pandemic early warning system which monitors the spillover of novel infectious agents from animals into humans. Wolfe has been published in or profiled by Nature, Science, The New York Times, The New Yorker, The Economist, Wired, Discover, Scientific American, NPR, Popular Science, Seed, and Forbes. Wolfe was the recipient of a Fulbright fellowship in 1997 and was awarded the National Institutes of Health (NIH) International Research Scientist Development Award in 1999 and the prestigious NIH Director's Pioneer Award in 2005.

Excerpt. Reprinted by permission. All rights reserved.:

Introduction

The village of Pang Thruk in the Kanchanaburi province of Thailand is like many in this part of the world—humid, lush, and spilling over with sounds of wildlife. Located in the west of the country near the border of Burma, Pang Thruk is home to about three thousand people whose livelihoods depend on the sugar and rice they grow. In December 2003, it was also home to Kaptan Boonmanuch, a six-year-old boy who would be among the first people to die of a brand-new human virus.

Kaptan loved riding his bicycle, climbing trees, and playing with his plastic toy Dalmatian that pulled three puppies in tiny brown wagons as it barked mechanically. Kaptan also enjoyed helping his family on the farm.

Nearly every family in Pang Thruk kept egg-laying chickens; some also kept roosters for cock fighting. Kaptan's aunt and uncle lived just down the road on their open-air farm of around three hundred chickens. Each winter in the village a few chickens would die from suspected infections or colds, but in December 2003 chicken deaths increased dramatically. That winter, as on many farms in this region, the chickens in Kaptan's uncle's farm suffered from severe diarrhea, strange behavior, and weakness. All of them either died naturally or were culled as a result of their illness—and Kaptan helped with the dead. A day or two before the New Year, according to reports, the boy carried one of the sick squawking chickens home. That walk home would have lasted no more than a few minutes.

A few days later Kaptan grew feverish. A clinic in the village diagnosed him with a cold, but after three days without improvement, his father, Chamnan, a rice farmer who worked part time as a driver, took him to a public hospital. X-rays revealed that the six-year-old had pneumonia, and he was kept in the hospital for observation. A few days more and Kaptan's fever spiked to a dangerous 105 degrees. His father paid the equivalent of thirty-six dollars for an ambulance to speed him to better care at Siriraj Hospital in Bangkok, more than an hour's drive away.

Upon arrival, Kaptan presented with shortness of breath and fever. Tests revealed that both lungs were affected with severe pneumonia, and the boy was transferred to the pediatric intensive care unit and put on a ventilator. A series of bacterial cultures tested negative, showing that the infection was likely caused by a virus. More detailed testing using a molecular technique called the polymerase chain reaction, or PCR, revealed that Kaptan was likely infected with an atypical type of influenza—perhaps one not yet seen (or seen widely) in humans.

After eleven days of illness, the boy's fever finally began to cool off. However, despite intensive care, his respiratory distress worsened. Just before midnight on January 25, physicians took Kaptan off the respirator. His lungs drowning in fluids, he became Thailand's first known death from H5N1, which would soon become known around the world as "bird flu."

As sad as Kaptan's death was—and the reports go on to describe the boy's funeral and the family's mourning in tragic detail—the reality is that children in the developing world die from diseases like this all the time. And infectious diseases, which scientists in the 1960s predicted would be eliminated in short order, remain some of the most important killers today. But when it comes to global risk, all deaths are not equal. Most deaths from infectious diseases are localized events that, while dire for the victims and their families, present limited risk to the planet as a whole. But some, like Kaptan's, signal a potentially world-altering event: the first human infection by an animal virus that may wipe out millions, or hundreds of millions, of people throughout the planet—permanently changing the face of humanity.

The main objective of my work is to hunt down these events—the first moments at the birth of a new pandemic—and then work to understand and stop them before they reach a global stage. Because pandemics almost always begin with the transmission of an animal microbe to a human, it's work that takes me all around the globe—from rain forest hunting camps of central Africa to wild animal markets of east Asia. But it also takes me to cutting-edge laboratories at the US Centers for Disease Control and Prevention (CDC) and disease outbreak control centers at the World Health Organization (WHO). Tracking down these potentially devastating bugs has led me to study how, where, and why pandemics are born. I work to create systems that can accurately detect pandemics early, determine their likely importance, and, with any luck, crush those that have the potential to devastate us.

As I've lectured on this work around the world and taught undergraduates in my virology seminar at Stanford University, it's hard to ignore a growing general interest in these topics. Everyone recognizes the raw power that pandemics have to sweep through human populations and seemingly kill indiscriminately. Yet, given the importance of these events, large questions remain remarkably opaque:

How do pandemics start?

Why are we now plagued with so many pandemics?

What can we do to prevent pandemics in the future?

This book is my attempt to answer these questions—an effort to assemble the pieces of the pandemic puzzle.

Part I, "Gathering Clouds," introduces our main character, the microbe, [1] and delves into the history of our relationships with these organisms. It explores the vast world of microbes, putting those that threaten us in their proper perspective. It details some of the most significant events in the evolution of humans and our ancestors and works to develop the often-spotty historical data into a set of hypotheses on how the events influenced our interactions with microbes.

Part II, "The Tempest," examines how contemporary human populations have grown so exquisitely susceptible to pandemics and what the future years will hold for pandemic diseases. Part III, "The Forecast," describes the fascinating new world of pandemic prevention and introduces a new crop of scientists eager to help create a virtual global immune system that will stop pandemics before they become planetary nightmares. Along the way, we will journey to remote hunting villages in central Africa, investigate malaria in wild orangutans in Borneo, learn how cutting-edge genetic sequencing tools will change the way that we discover completely novel viruses, and see how Silicon Valley companies may forever transform the way that we conduct surveillance aimed at finding the next major outbreak.

At this point you may be asking yourself how someone ends up devoting his career to the study of plagues. Is it a desire to save the world? Or perhaps it's the scientific thrill of discovering completely unknown, invisible beings with the potential to wipe out large swaths of humanity. Maybe it's the desire to understand in detail one part of humans' intricate ecology. Or it's an urge to explore the exotic locations on Earth where these novel viruses often appear. But while my life is now consumed with trying to understand and stop pandemics, that's not how it's always been. My work with microbes actually started as a minor footnote to a study I wanted to conduct among wild chimpanzees in central Africa.

As a young child, I acquired what would become a lifelong interest in apes when I watched a National Geographic documentary explaining how humans are more closely related to apes than we are to monkeys. A family tree with humans and apes as siblings (and monkeys as distant cousins) was entirely inconsistent with my memories of seeing these creatures locked up together in the "monkey house" at the Detroit Zoo. We humans were outside the cages, and the rest of them were inside. The idea that apes and humans were closely related certainly struck a chord with me. According to my father, I spent some days after the documentary playing the part: walking around the house on all fours, trying to communicate without language, and otherwise working to bring out my inner ape.

My fascination with apes evolved from a childish curiosity to an intellectual interest in what our closest relatives had to tell us about ourselves. What began as a broad interest in apes as animals became a more specific interest in chimpanzees and their less acknowledged brethren, the bonobos—the two ape species that share our own particular branch of the tree of life. How did the years of separation since our last common ancestor with these two kindred ape species shape our minds, our bodies, and our worlds? What features remained the same in all of us?

Along with the intellectual interest, I had a growing desire to see these apes living in their natural environment. This desire required tracking them down in the rain forests of central Africa to see for myself what they were really like. So when choosing among doctoral programs, I settled on one at Harvard where I would work with Richard Wrangham and Marc Hauser, two prominent primatologists. I would spend many months during my first year of doctoral work arguing why they should let me study the troops of wild chimpanzees that Wrangham had worked with for years in the Kibale Forest in southwest Uganda.

I proposed a study to document self-medicating behavior of the Kibale chimpanzees. The idea that these animals consumed plants with specific medicinal chemicals as a way of fighting against their own infectious diseases was still just an hypothesis at the time, and an intriguing one. I'd explored this idea the previous year while studying at Oxford and working on an exhibit about animal self-medication at the Oxford University Museum of Natural History.

The Oxford University Museum is a magnificent nineteenth-century building constructed in the architectural style of a Gothic cathedral but with massive iron supports mimicking the skeleton of a mammal, emphasizing that it was a church of natural history rather than religion. It houses unique collections, including some of the beetles collected by Charles Darwin on his celebrated voyage on the Beagle. It had been home to the famous Huxley-Wilberforce debate on natural selection in 1860 seven months after the publication of Darwin's pivotal book On the Origin of Species. It's a perfect location to ponder the place of humans in the natural world. The work I did under the supervision of the eminent evolutionary biologist W. D. Hamillton and his colleague Dale Clayton, an expert in behaviors animals used to rid themselves of parasites, revealed that self-medication was widespread in the animal kingdom. Animals as disparate as wasps and Kodiak bears utilized the chemical defenses of plants to help rid themselves of their natural pests.

As I began my work in Uganda to study chimpanzees, my professors cautioned me that any convincing proof that chimpanzees were medicating themselves with plants would require an understanding of the infectious diseases they were treating. Unless I could show that the use of the purported medicines decreased the burden of disease, my results would be speculative at best. I needed to understand what infectious diseases plagued the chimpanzees. I knew little about microbes, so I approached Andy Spielman, a professor at Harvard's School of Public Health and one of the few people at the time focused on understanding the ecology of microbes in nature. Despite his lab full of fellows and students and his focus on North America rather than the wilds of Africa or Asia, he kindly took me under his wing. Thus began my research on what was known about the infections of chimpanzees. Once I began thinking about microbes I never looked back. And central to my studies would be the viruses.

Viruses evolve more rapidly than any organism on the planet, yet we understand less about them than any other form of life. [2] The study of viruses provides a scientist with the opportunity to discover new species and catalog them in a way reminiscent of the world of the nineteenth-century naturalist, which had so fascinated me during my time at Oxford. A scientist can productively spend an entire career looking for new species of primate and never find one, but new viruses are discovered every year. They also have exceedingly short generations, so we can watch them evolve in real time—an ideal system for someone interested in understanding the process of evolution. Perhaps best of all from the perspective of a young scientist, there was important and urgent low-hanging fruit in this discipline: some of these viruses kill us. Thus new discoveries need not only lead to an improved understanding of nature, but they can also have important and rapid applications for controlling human disease.

Controlling the spread of human disease was at the forefront of public health efforts in early 2004 when the news broke of Kaptan's death from H5N1. His death was the first confirmed mortality from this virus, the so-called bird flu, in Thailand. The truth is that while they may jump to us via other animals, all human influenza viruses ultimately originate in birds, so the popular designation of the virus as "bird flu" can irritate scientists. Yet within a month that name would become a mainstay of news shows and a topic of discussion for people throughout the world.

The scientific name for the virus that killed Kaptan, HPAIA (H5N1), is quite descriptive for virologists. It signifies that the virus is a highly pathogenic avian influenza A-type virus and provides the particular hemagglutinin (H) and neuraminidase (N) protein variants particular to this virus strain. But its true significance is actually much more straightforward.

H5N1 is important because it kills remarkably effectively. The virus's case fatality rate, or the percentage of infected individuals that die, is around 60 percent. For a microbe, that's incredibly deadly. As a comparison, we can look back to the devastating 1918 influenza pandemic. While estimates for the 1918 pandemic are imperfect, it is thought around fifty million people died. That's the equivalent of 3 percent of the entire human population at that time, an almost unimaginable catastrophe. To put this in context, more people died from the 1918 influenza pandemic than the total number of soldiers thought to have died in battle during all twentieth-century wars combined. More deaths caused by a simple virus, less than one hundred nanometers in diameter and with only a paltry eleven genes, than were caused by all the battles in WWI, WWII, and all of the other wars in our last war-riddled century. Despite the enormity of the 1918 plague, the highest estimates for its case fatality rate are in the range of 20 percent, and it was almost certainly much lower than that; more careful estimates suggest around 2.5 percent. [3] Recall that H5N1 had a 60 percent fatality rate, far greater than that of the influenza virus that caused the 1918 pandemic.

But while deadliness is an important, dramatic, and ongoing obsession of the media, it is only one piece of the puzzle for microbiologists. In fact, some microbes kill virtually all people they infect: a perfect 100 percent mortality rate. And yet such microbes do not necessarily represent critical threats to humanity. Viruses like rabi...

"About this title" may belong to another edition of this title.

Top Search Results from the AbeBooks Marketplace

1.

Nathan D. Wolfe
Published by Penguin Books Ltd, United Kingdom (2013)
ISBN 10: 0141046511 ISBN 13: 9780141046518
New Paperback Quantity Available: 10
Seller:
The Book Depository
(London, United Kingdom)
Rating
[?]

Book Description Penguin Books Ltd, United Kingdom, 2013. Paperback. Condition: New. Language: English . Brand New Book. In The Viral Storm award-winning biologist Nathan Wolfe - known as the Indiana Jones of virus hunters for his work in jungles and rain forests across the world - shows the threat of a global pandemic is greater than we have ever imagined. The Viral Storm examines how viruses like HIV, swine flu, and bird flu have almost wiped us out in the past - and may do so in the future. It explores why modern life makes us so vulnerable to global pandemics, and what new technologies can do to prevent them. Wolfe s provocative vision may leave you feeling distinctly uncomfortable - but it will reveal exactly what it is we are up against. Nathan Wolfe is the Lorry I. Lokey Visiting Professor in Human Biology at Stanford University and Director of Global Viral Forecasting, a pandemic early warning system which monitors the spillover of novel infectious agents from animals into humans. Wolfe has been published in or profiled by Nature, Science, The New York Times, The New Yorker, The Economist, Forbes and many others. Wolfe was the recipient of a Fulbright fellowship in 1997 and was awarded the National Institutes of Health (NIH) International Research Scientist Development Award in 1999 and the prestigious NIH Director s Pioneer Award in 2005.Reviews: An excellent piece of scientific gothic, rich in descriptions of the threat we face from emerging viruses Nature Part autobiography, part warning . enthralling BBC Focus Quietly terrifying . It s hard not to feel a bit feverish at times while reading Boston Globe Wolfe has an important story to tell and as a virologist at the forefront of pandemic forecasting, he is the perfect person to tell it. He explains the science clearly and never stoops to sensationalism - the evidence of our increasing vulnerability to pandemics speaks for itself Guardian The plague-ridden future imagined by this authoritative, measured, yet gripping book is extremely alarming Sunday Times Nathan Wolfe is saving the world from near-inevitable pandemic . a kick-ass book Mary Roach, author of Stiff The world s most prominent virus hunter New Yorker A good place to start preparing for what might come New Humanist. Seller Inventory # APG9780141046518

More information about this seller | Contact this seller

Buy New
US$ 11.23
Convert Currency

Add to Basket

Shipping: FREE
From United Kingdom to U.S.A.
Destination, Rates & Speeds

2.

Wolfe, Nathan D.
Published by Penguin (2012)
ISBN 10: 0141046511 ISBN 13: 9780141046518
New Paperback Quantity Available: 1
Seller:
The Monster Bookshop
(Fleckney, United Kingdom)
Rating
[?]

Book Description Penguin, 2012. Paperback. Condition: New. BRAND NEW ** SUPER FAST SHIPPING FROM UK WAREHOUSE ** 30 DAY MONEY BACK GUARANTEE. Seller Inventory # mon0000731729

More information about this seller | Contact this seller

Buy New
US$ 11.09
Convert Currency

Add to Basket

Shipping: US$ 2.68
From United Kingdom to U.S.A.
Destination, Rates & Speeds

3.

Nathan D. Wolfe
Published by Penguin Books Ltd, United Kingdom (2013)
ISBN 10: 0141046511 ISBN 13: 9780141046518
New Paperback Quantity Available: 10
Seller:
Book Depository International
(London, United Kingdom)
Rating
[?]

Book Description Penguin Books Ltd, United Kingdom, 2013. Paperback. Condition: New. Language: English . Brand New Book. In The Viral Storm award-winning biologist Nathan Wolfe - known as the Indiana Jones of virus hunters for his work in jungles and rain forests across the world - shows the threat of a global pandemic is greater than we have ever imagined. The Viral Storm examines how viruses like HIV, swine flu, and bird flu have almost wiped us out in the past - and may do so in the future. It explores why modern life makes us so vulnerable to global pandemics, and what new technologies can do to prevent them. Wolfe s provocative vision may leave you feeling distinctly uncomfortable - but it will reveal exactly what it is we are up against. Nathan Wolfe is the Lorry I. Lokey Visiting Professor in Human Biology at Stanford University and Director of Global Viral Forecasting, a pandemic early warning system which monitors the spillover of novel infectious agents from animals into humans. Wolfe has been published in or profiled by Nature, Science, The New York Times, The New Yorker, The Economist, Forbes and many others. Wolfe was the recipient of a Fulbright fellowship in 1997 and was awarded the National Institutes of Health (NIH) International Research Scientist Development Award in 1999 and the prestigious NIH Director s Pioneer Award in 2005.Reviews: An excellent piece of scientific gothic, rich in descriptions of the threat we face from emerging viruses Nature Part autobiography, part warning . enthralling BBC Focus Quietly terrifying . It s hard not to feel a bit feverish at times while reading Boston Globe Wolfe has an important story to tell and as a virologist at the forefront of pandemic forecasting, he is the perfect person to tell it. He explains the science clearly and never stoops to sensationalism - the evidence of our increasing vulnerability to pandemics speaks for itself Guardian The plague-ridden future imagined by this authoritative, measured, yet gripping book is extremely alarming Sunday Times Nathan Wolfe is saving the world from near-inevitable pandemic . a kick-ass book Mary Roach, author of Stiff The world s most prominent virus hunter New Yorker A good place to start preparing for what might come New Humanist. Seller Inventory # APG9780141046518

More information about this seller | Contact this seller

Buy New
US$ 13.79
Convert Currency

Add to Basket

Shipping: FREE
From United Kingdom to U.S.A.
Destination, Rates & Speeds

4.

Nathan D. Wolfe
Published by Penguin (2012)
ISBN 10: 0141046511 ISBN 13: 9780141046518
New Softcover Quantity Available: 1
Seller:
Rating
[?]

Book Description Penguin, 2012. Condition: New. Seller Inventory # GH9780141046518

More information about this seller | Contact this seller

Buy New
US$ 11.90
Convert Currency

Add to Basket

Shipping: US$ 3.52
From Germany to U.S.A.
Destination, Rates & Speeds

5.

Nathan D. Wolfe
Published by Penguin Books Ltd
ISBN 10: 0141046511 ISBN 13: 9780141046518
New Softcover Quantity Available: 3
Seller:
Kennys Bookstore
(Olney, MD, U.S.A.)
Rating
[?]

Book Description Penguin Books Ltd. Condition: New. 2012. Paperback. Examines how viruses like HIV, swine flu, and bird flu have almost wiped us out in the past - and may do so in the future. This title explores why modern life makes us so vulnerable to global pandemics, and what new technologies can do to prevent them. Num Pages: 320 pages, Illustrations. BIC Classification: MBN; MJCJ; PDZ. Category: (G) General (US: Trade); (P) Professional & Vocational; (U) Tertiary Education (US: College). Dimension: 197 x 131 x 19. Weight in Grams: 240. . . . . . Books ship from the US and Ireland. Seller Inventory # V9780141046518

More information about this seller | Contact this seller

Buy New
US$ 15.62
Convert Currency

Add to Basket

Shipping: FREE
Within U.S.A.
Destination, Rates & Speeds

6.

Nathan D. Wolfe
Published by Penguin Books Ltd (2012)
ISBN 10: 0141046511 ISBN 13: 9780141046518
New Softcover Quantity Available: 3
Rating
[?]

Book Description Penguin Books Ltd, 2012. Condition: New. 2012. Paperback. Examines how viruses like HIV, swine flu, and bird flu have almost wiped us out in the past - and may do so in the future. This title explores why modern life makes us so vulnerable to global pandemics, and what new technologies can do to prevent them. Num Pages: 320 pages, Illustrations. BIC Classification: MBN; MJCJ; PDZ. Category: (G) General (US: Trade); (P) Professional & Vocational; (U) Tertiary Education (US: College). Dimension: 197 x 131 x 19. Weight in Grams: 240. . . . . . . Seller Inventory # V9780141046518

More information about this seller | Contact this seller

Buy New
US$ 15.67
Convert Currency

Add to Basket

Shipping: FREE
From Ireland to U.S.A.
Destination, Rates & Speeds

7.

NATHAN D. WOLFE
ISBN 10: 0141046511 ISBN 13: 9780141046518
New Quantity Available: 1
Seller:
Speedy Hen LLC
(Sunrise, FL, U.S.A.)
Rating
[?]

Book Description Condition: New. Bookseller Inventory # ST0141046511. Seller Inventory # ST0141046511

More information about this seller | Contact this seller

Buy New
US$ 16.65
Convert Currency

Add to Basket

Shipping: FREE
Within U.S.A.
Destination, Rates & Speeds

8.

Nathan D. Wolfe
Published by Penguin (2012)
ISBN 10: 0141046511 ISBN 13: 9780141046518
New Softcover Quantity Available: 1
Seller:
Ria Christie Collections
(Uxbridge, United Kingdom)
Rating
[?]

Book Description Penguin, 2012. Condition: New. book. Seller Inventory # ria9780141046518_rkm

More information about this seller | Contact this seller

Buy New
US$ 11.75
Convert Currency

Add to Basket

Shipping: US$ 5.22
From United Kingdom to U.S.A.
Destination, Rates & Speeds

9.

Nathan D. Wolfe
Published by Penguin Books Ltd
ISBN 10: 0141046511 ISBN 13: 9780141046518
New Paperback Quantity Available: 1
Seller:
THE SAINT BOOKSTORE
(Southport, United Kingdom)
Rating
[?]

Book Description Penguin Books Ltd. Paperback. Condition: New. New copy - Usually dispatched within 2 working days. Seller Inventory # B9780141046518

More information about this seller | Contact this seller

Buy New
US$ 8.03
Convert Currency

Add to Basket

Shipping: US$ 9.35
From United Kingdom to U.S.A.
Destination, Rates & Speeds

10.

Nathan D. Wolfe
Published by Penguin Books Ltd (2012)
ISBN 10: 0141046511 ISBN 13: 9780141046518
New Quantity Available: > 20
Seller:
Books2Anywhere
(Fairford, GLOS, United Kingdom)
Rating
[?]

Book Description Penguin Books Ltd, 2012. PAP. Condition: New. New Book. Shipped from UK in 4 to 14 days. Established seller since 2000. Seller Inventory # CP-9780141046518

More information about this seller | Contact this seller

Buy New
US$ 7.18
Convert Currency

Add to Basket

Shipping: US$ 12.13
From United Kingdom to U.S.A.
Destination, Rates & Speeds

There are more copies of this book

View all search results for this book