but on the other hand these weren’t academic questions,” Fukuda recounted. “If there really was a change going on, we really wanted to try to come to grips with that as quickly as possible.”
For two days, the experts cloistered in Manila and sifted the evidence. Afterward the agency issued a report that cited the shifting patterns of infection in northern Vietnam, including a wider age range of victims, more and larger clusters involving cases over a longer period of time, cases without symptoms, and a declining mortality rate. The document said this was all consistent with the possibility of human transmission and greater infectiousness.
It also detailed genetic changes in viruses isolated in northern Vietnam. One mutation involved the place on the virus where it binds to either human or animal cells and could make it easier for the pathogen to infect people. Another change was near a site related to the lethality of the virus. The report also revealed that a sample from Nguyen Thi Ngoan, the mischievous teen from Thai Binh, showed a mutation that could cause resistance to the antiviral drug Tamiflu. If that change became widespread, it could rob doctors of a vital weapon.
“While the implications of these epidemiological and virological findings are not fully clear,” the report concluded, “they demonstrate that the viruses are continuing to evolve and pose a continuing and potentially growing pandemic threat.”
In the United States concern was mounting. Just three days after the Manila conference, the Central Intelligence Agency sponsored an exercise to model the global impact of a pandemic strain erupting out of an unnamed Southeast Asian country. Participants were drawn from five federal departments, including Defense and Commerce. The conclusions were sobering: economic downturns, international tension, and political instability.
On May 26, two weeks after Nguyen Sy Tuan was finally discharged from Bach Mai Hospital, WHO’s senior communicable disease officer in East Asia, Hitoshi Oshitani, got an alarming e-mail. It was from an epidemiologist in the agency’s Hanoi office. Vietnamese researchers at NIHE had been testing specimens taken randomly at health-care facilities in Thai Binh province. The sampling had not specifically targeted suspected bird flu cases. But 10 percent of the 170 specimens had come back positive for the virus, an exceptionally high proportion.
The results seemed to underscore the frightening scenario mooted in Manila. Even worse, the data lent credibility to separate tests conducted by Canadian scientists in Vietnam, which Oshitani had been hearing about.
Without a word to WHO headquarters in Geneva, he flew to Hanoi to see the Canadian microbiologist responsible for the research, Dr. Yan Li. WHO’s flu hunters in Asia were trying to keep the startling information from leaking out prematurely. “We didn’t want a huge panic with unverified information,” explained Peter Horby, the agency’s lead flu investigator in Vietnam.
Based on their briefings in Hanoi, Oshitani and Horby drafted a confidential report and on Tuesday, June 7, shared its contents with Geneva. They reported that Li, a Beijing-born scientist based at the Canadian health department’s National Microbiology Laboratory in Winnipeg, had begun a project earlier in the spring to help train Vietnamese scientists responsible for flu research in testing and laboratory techniques. As part of the work, the Canadians had sent in their own mobile lab. They began testing nearly two hundred samples previously collected by the Vietnamese. These were blood samples, or more accurately serum, the clear liquid that remains in blood once red and white cells and platelets are removed. The Canadians were using a technique called Western blot that could detect the antibodies that the human immune system produces in response to a bird flu infection. Though the Western blot technique was not entirely reliable, it did not require advanced lab safeguards like other antibody tests and could be done under local conditions in Vietnam.
According to the confidential report, the researchers tested 86 specimens from people with suspected cases of bird flu. About two-thirds came back positive for the telltale antibodies, indicating the patients had caught the bug. Another 101 samples were from people who had had contact with confirmed cases or infected birds. Nearly as many of these, about three-fifths, were also positive.
Separately, the Vietnamese had run tests using a different technique on the samples from the Thai Binh health facilities. Scientists at NIHE had established that 10 percent were positive by using a method that looked for genetic evidence of the virus itself rather than for antibodies. This technique, called polymerase chain reaction or PCR for short, uses special strands of highly sensitive genetic material called primers. Scientists would combine these with the sample and, if they matched, the primers would cause the virus’s own genetic material to rapidly reproduce until there was enough of it to identify.
Finally, the Canadians and their Vietnamese counterparts had conducted an analysis of thirty-eight samples and found that many had specific mutations in the surface proteins of the virus, strongly suggesting it was becoming less deadly. These mutations could help explain some of the milder and asymptomatic cases in Thai Binh and elsewhere in northern Vietnam, such as those of Nguyen Sy Tuan’s sister and grandfather.
The report concluded that the disease could be spreading among people more readily than anyone had thought. Moreover, if most cases were mild or lacked symptoms altogether, identifying those who were infected would prove nearly impossible. Even in hospitals, it would be challenging to recognize bird flu patients and segregate them from others. “Extinguishing a pandemic strain by early identification and targeted use of anti-viral [drugs] and public health measures is not going to be successful,” the document warned.
Klaus Stohr, the influenza chief, was taken aback. But at the same time, there was something about the results that struck him as not quite right. If the virus was already racing across Vietnam, shouldn’t the hospitals be flooded with patients? They weren’t. “It should stick out like a sore thumb,” he thought.
Calling his staff into his fourth-floor office at WHO headquarters on the morning of Thursday, June 9, Stohr said he planned to urgently convene an outside panel of experts to evaluate the information. “We’ll never have perfect data,” responded one of his lieutenants, but added, “We have data sufficient to consider raising the pandemic alert level.”
Stohr began drafting a memo to Lee Jong Wook, the agency’s director general, outlining the arguments pro and con for sounding the global alarm. Raising the alert level would immediately activate steps to contain the outbreak. Stockpiles of antiviral drugs could be rushed to Vietnam and the surrounding region. A warning against travel to Vietnam and nearby countries might follow. Every day mattered. Any delay could hand the disease an even larger head start, potentially costing the lives of untold masses of people.
But what if it’s a false alarm? “If you raise the level and you’re wrong,” Stohr thought, “you’ll be blamed.” The Vietnamese would be stigmatized. Their economy damaged. The move would spark waves of unnecessary panic worldwide, and WHO’s own credibility would suffer. Future warnings might be ignored.
“You make the decision based on the data you have in a responsible way,” he later explained. “You need to get ready to defend it. You need to get ready to take the blame.”
At that moment in mid-2005, the alert level was at level three, meaning the virus had succeeded in achieving no more than very limited human transmission. Based on the new information, WHO could hike the level to four or five, signifying greater human transmission and alerting the world that a full-blown pandemic, level six, was imminent.
An internal document written that same day suggested the situation might be even graver: “If the results are correct… this could be the signal that an influenza pandemic has begun.”
“Good morning, good afternoon, and good evening to everyone,” Stohr said as he opened the conference call at ten minutes past noon on Friday, June 10. His greeting was familiar to those who had sat in on his previous calls but the setting was not. He had summoned his staff to the WHO bunker, and they gathered around the large, circular conference table in the mezzanine overlooking the main floor of the SHOC. The command center offered a sophisticated communications network that could handle the large call while its secure doors assured that access to the session was kept strictly limited.
On the call were WHO officers from the Hanoi office and Manila regional headquarters. Also invited to participate were Dr. Nancy Cox, chief of CDC Atlanta’s influenza division, Dr. Roy Anderson, a senior epidemiologist at London’s Imperial College and chief science advisor to the British defense ministry, Dr. John Horvath, the Australian government’s chief medical officer, Dr. Masato Tashiro, head of virology at Japan’s National Institute of Infectious Diseases, and Dr. Kiyosu Taniguchi, chief of infectious-disease intelligence at NIID. Dr. Yan Li, the Canadian scientist, was also on the line.
They had all been supplied copies of the report detailing the test results from Vietnam. Now Stohr wanted
