The Great Influenza (43 page)

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Authors: John M Barry

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But now the city did not need laboratory breakthroughs that deepened understanding. It needed instant successes. Lewis had reached his conclusions about polio with tremendous speed (roughly a year) and they had been both sound and pioneering conclusions. But now he had only weeks, even days. Now he was watching bodies literally pile up in the hospital morgue at the Navy Yard, in the morgues of civilian hospitals, in undertaking establishments, in homes.

He remembered Flexner's work on meningitis during an epidemic of that disease. Flexner had solved that problem and the success had made the reputation of the Rockefeller Institute. Knowing that Flexner had succeeded then made a solution to this seem possible. Perhaps Lewis could do the same.

He considered whether a filter-passing organism caused influenza. But to look for a virus Lewis would have to look in darkness. That was science, the best of science (at least to look into the gloaming was) but he was not now engaged only in science. Not right now. He was trying to save lives
now.

He had to look where there was light.

First, light shone on a kind of blunt-force use of the immune system. Even if they could not find the pathogen, even if they could not follow normal procedures and infect horses with the pathogen and then prepare the blood from horses, there was one animal that was suffering from the disease that was scorching its way across the earth. That animal was man.

Most people who contracted the disease survived. Even most people who contracted pneumonia survived. It was quite possible that their blood and their serum held antibodies that would cure or prevent disease in others. Lewis and Flexner had had some success using this approach with polio in 1910. In Boston, Dr. W. R. Redden at the navy hospital also remembered, as he reported, 'the experimental evidence presented by Flexner and Lewis with convalescent serum from poliomyelitis.' Now Redden and a colleague drew blood from those who had survived an influenza attack, extracted the serum, and injected it into thirty-six pneumonia patients in a row, beginning October 1. This was not a scientific experiment with controls, and in a scientific sense the results proved nothing. But by the time they reported the results in the October 19
JAMA,
thirty patients had recovered, five were still undergoing treatment, and only one had died.

Experiments began in Philadelphia using both the whole blood and serum of survivors of influenza as well. These too were not scientific experiments; they were desperate attempts to save lives. If there was any sign this procedure worked, the science could follow later.

Lewis let others conduct that blunt-force work. It took no truly special skills, and others could do it as well as he. He spent his time on four things. He did not do these things sequentially. He did them simultaneously, moving down different paths (setting up experiments to test each hypothesis) at the same time.

First, he tried to develop an influenza vaccine using the same methods he had used against polio. This was a more sophisticated version of the blunt-force approach of transfusing the blood or serum of influenza survivors. For he at least suspected a virus might cause influenza.

Second, he stayed in the laboratory following a shimmer of light. As Park had reasoned, so Lewis reasoned. Research could find bacteria. Pfeiffer had already pointed an accusing finger at one bacillus. Lewis and everyone in his laboratories were working hours and days without relief, taking only a few hours off for sleep, running procedure after procedure - agglutination, filtration, transferring culture growths, injecting laboratory animals. His team too searched for bacteria. They took more swabs from the throats and noses of the first victims, exposed the medium to it, and waited. They worked intensively, twenty-four hours a day in shifts, and then they waited, frustrated by the time it took bacteria to grow in the cultures, frustrated by the number of cultures that became contaminated, frustrated by everything that interfered with their progress.

In the first fifteen cases, Lewis found no
B. influenzae.
Ironically, the disease had exploded so quickly, spreading to hospital staff, that Lewis had little except sputum samples to work with: 'The hospitals were so depleted [of staff]' I have had no autopsy material' except from four 'badly decomposed' bodies, almost certainly too long dead to be of any use.

Then, like Park and Williams, Lewis adjusted his techniques and did begin to find the bacillus regularly. He gave this information to Krusen, the health commissioner. The
Inquirer
and other newspapers, desperate to say something positive, declared that he had found the cause of influenza and 'armed the medical profession with absolute knowledge on which to base their campaign against the disease.'

Lewis had no such absolute knowledge, nor did he believe he had it. True, he had isolated
B. influenzae.
But he had also isolated a pneumococcus and a hemolytic streptococcus. Some instinct pointed him another direction. He began third and fourth lines of inquiry. The third involved shifting his dye experiments from trying to kill tuberculosis bacteria to trying to kill pneumococci.

But death surrounded him, enveloped him. He turned his attention back to helping produce the only thing that might work
now.
After the emergency, if anything seemed to work he could always return to the laboratory and do careful, deliberate experimentation to understand it and prove its effectiveness.

So he chose as his targets the bacteria he and others had found. From the first instant he had seen the dying sailors, he had known he would have to begin work on it
now.
For even if he had guessed right, even if what he was doing could succeed, it would take time to succeed. So, in his laboratory and in other laboratories around the city, the investigators no longer investigated. They simply tried to produce. There was no certainty that anything they produced would work. There was only hope.

He started by preparing medium using beef peptone broth with blood added, and then growing cultures of the pathogens they had isolated from cases
B. influenzae,
Types I and II of the pneumococcus, and hemolytic streptococcus. He personally prepared small batches of vaccine including these organisms and gave it to sixty people. Of those sixty, only three people developed pneumonia and none died. A control group had ten pneumonias and three deaths.

This seemed more than just promising. It was not proof. Many factors could explain the results, including random chance. But he could not wait for explanations.

His laboratory had no ability to produce the immense quantities of vaccine needed. It required an industrial operation. They needed vats to grow these things in, not petri dishes or laboratory flasks. They needed vats like those in a brewery.

He handed off this task to others in the city, including those who ran the municipal laboratory. It would take time to grow enough for tens of thousands of people.

The whole process, even in its most accelerated state, would take at least three weeks. And it would take time once they made the vaccine to administer it to thousands and thousands of people in a series of injections of increasing doses spaced several days apart. In all that time, the disease would be killing.

Meanwhile, Lewis began work on still a fifth line of inquiry, making a serum that could cure the disease. This work was trickier. They could make a vaccine with a shotgun approach, combining several organisms and protecting against all of them. (Today vaccines against diphtheria, pertussis, whooping cough, and tetanus are combined in a single shot; a single shot protecting against measles, mumps, and rubella is routinely given to children; and today's flu shots contain vaccines against both the influenza virus and pneumococci) and the pneumococcal vaccine is a descendant of the work done at Rockefeller Institute in 1917.)

A serum had to aim at only one specific target; if it worked at all, it would work only against a single organism. To make a serum that worked, Lewis would have to pick a single target. If he had to aim at a single target, he had to choose the bacillus Pfeiffer had discovered,
B. influenzae.
It was still by far the most likely cause of the disease.

Developing a serum against this organism would likely be difficult. While Lewis was still at the Rockefeller Institute, Flexner himself had tried to do this in collaboration with Martha Wollstein. Wollstein (a fine scientist, although Flexner never treated her with the respect he gave to others) had experimented with
B. influenzae
almost continuously since 1906. But Flexner and she had made no progress whatsoever. They had not only failed to develop a serum that could help man; they had failed to cure any laboratory animals.

Lewis never understood precisely where Flexner had gone wrong in that attempt, although it certainly would have been the subject of many talks in the famous lunchroom where solutions to so many scientific problems were suggested. Now he had no opportunity to think deeply about the problem, think all the way through it, come up with a hypothesis with explanatory power, and test it.

Lewis could only hope that Flexner failed because his technique was faulty. That was quite possible. Flexner had sometimes been a little sloppy in the laboratory. He had once even conceded, 'Technically, I am not well-trained in the sense of meticulous and complete accuracy.'

So now Lewis hoped some technical error (perhaps in the preparation of the medium, perhaps in too rough a usage for the killed bacteria, perhaps somewhere else) accounted for Flexner's problems. It might have. For example, many years later a young graduate student entered a laboratory and saw a renowned Harvard professor at the sink washing glassware while his technician was perfoming a complex task at the workbench. The student asked him why the technician was not washing the glassware. 'Because,' the professor replied, 'I always do the most important part of the experiment and in this experiment the most important thing is the cleanliness of the glassware.'

Lewis turned all his attention in effect to washing the glassware, to the most mundane tasks, making certain there would no mistakes in the work itself, at the same time applying any knowledge about Pfeiffer's bacillus that had been learned since Flexner's failure.

Lewis knew full well that little of what he was doing was good science. It was all, or nearly all, based on informed guesswork. He only worked harder.

As he worked, the society about him teetered on the edge of collapse.

CHAPTER TWENTY-FIVE

W
HEN
W
ELCH
had first seen autopsies of victims at Devens he had walked out of the morgue and made three calls: to a Harvard pathologist, asking him to conduct further autopsies; to Gorgas's office, warning of the coming of an epidemic; and to Oswald Avery at the Rockefeller Institute, asking him to get on the next train from New York. He hoped Avery could identify the pathogen killing the men at Devens.

Avery immediately left his own lab, walked the few blocks home for a change of clothes, then went to Pennsylvania Station, that magnificent and uplifting building. For the length of his train ride through the Connecticut countryside, through the teeming train stations of New Haven, Providence, and Boston, up to Devens, he began to prepare, reviewing the best approaches to this problem.

Welch had told him of his concern that, despite clinical symptoms that looked like influenza, this might be a new disease. Avery's first step would still be to look for the presence of
B. influenzae,
everyone's chief suspect as the cause of influenza. Avery knew a fair amount about Pfeiffer's bacillus, including that it was exceptionally difficult to grow and that its chemistry made it difficult to stain and hence see in a smear under the microscope. The chemistry and metabolism of the bacteria interested him. He wondered how to make it grow better, how to make it easier to find, how to make it easier to identify. For he always did everything, down to washing the glassware, with precision and discipline.

Late that afternoon Avery arrived at the camp and immediately began laboratory tests. He was all but impervious to the chaos about him, impervious to the bodies of young men lying naked or in bloody sheets he had to step over (as Welch, Cole, Vaughan, Russell, and the others of that party had) to reach the autopsy room.

From the first he encountered difficulties, getting puzzling results from the Gram test. In this test, bacteria are stained with crystal violet, treated with iodine, washed with alcohol, and then stained again with a contrasting dye. Bacteria retaining the violet color are called 'Grampositive.' Those that do not are 'Gram-negative.' The result of the Gram test is comparable to a witness identifying an assailant as white or black; the answer simply eliminates some possible suspects.

Unlike other investigators, Avery found no Gram-negative bacteria.
B. influenzae
is Gram-negative. The test eliminated
B. influenzae
as even a possibility. It eliminated all Gram-negative bacteria as possibilities. He repeated the experiment; again he found no Gram-negative bacteria, none at all.

Avery soon solved this particular puzzle. He discovered that all the liquid in the laboratory bottles labeled 'alcohol' was actually water. Soldiers had apparently drunk the alcohol and replaced it with water. When he got alcohol, the test results came in as expected. He found Gram-negative bacteria.

Now he began his hunt in earnest. He began it with dead bodies, those of the men who had died most recently, some of whom so recently that their bodies remained warm to the touch. He felt the soggy sponginess of the still-warm lungs and respiratory tract with his gloved hands, seeking out areas of the most obvious infection from which to cut tissue samples, dipping into pockets of pus, seeking the organism responsible for the killing. Perhaps he was a little afraid, this tiny man surrounded by dead young soldiers, but he had courage and he was not hunting rabbits. He had no interest in hunting rabbits.

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