A tweak to our flu
vaccine resupply logistics could save thousands of lives
Georgia Institute of
Technology
More than 50 million
people died in the Spanish flu pandemic of 1918-1919. Its 100th anniversary
this flu season serves as a reminder to close flu vaccine supply gaps that may
be costing lives now and could cost many more when the next "big one"
strikes, researchers say.
U.S. flu vaccine
distribution logistics could use an update, according to Pinar Keskinocak.
The researcher at the Georgia Institute of Technology co-led a recent study that compared the current approach with a proposed allocation method calculated to save many more lives in a pandemic.
The researcher at the Georgia Institute of Technology co-led a recent study that compared the current approach with a proposed allocation method calculated to save many more lives in a pandemic.
The study's main recommendation, which applies to resupplying vaccine stocks during a running outbreak, boils down to this: To put a bigger dent in the spread of flu, replenish vaccine stocks in regions where they are being used up and don't replenish them in areas where vaccines are just sitting on shelves because few people are getting flu shots there.
A simple tweak
The tweak in the
supply chain could also save thousands of lives in a regular annual flu season
in the U.S., which can be plenty deadly. Reportedly 80,000 people died in the
2017-18 flu season. For comparison's sake, murder took about 19,300 lives in
2017 in the U.S.
"Even seasonal
flu kills thousands to tens of thousands of people each year, so we would
benefit immediately," said Keskinocak, who is William W. George Chair and
Professor in Georgia Tech's H. Milton Stewart School of Industrial and Systems
Engineering and Director for the Center of Health and Humanitarian Systems.
"In a pandemic, nearly no one would have natural immunity, so the death
toll could be significantly high if we don't improve vaccine coverage."
In a pandemic, the flu
virus represents a mutation that human immune systems may not have had a chance
to build prior resistance to, thus the lack of natural immunity. When the next
one strikes, in addition to the many lives saved, the researchers'
recommendations could massively prevent flu infections, secondary infections
like bronchitis, hospitalizations, and unnecessarily high medical costs.
Keskinocak,
co-principal investigator Julie Swann from North Carolina State University, and
first author Zihao Li of Georgia Tech published their results in the
journal Plos One in October 2018, around the start of the
2018-19 flu season. The research was supported by the Harold R. and Mary Anne
Nash Junior Faculty Endowment Fund.
A logic breakdown
When a pandemic hits,
vaccine supply may become limited but then catch up over time. When that
happens, the vaccine distributors commonly take what's called the
population-based approach.
"Areas with
larger populations get more vaccine, proportional to the population. It's a
straight-forward approach that seems fair," Swann said.
As more vaccine
becomes available over time, restocking follows the same principle, and that is
where distribution logic breaks down. In some regions, few people get
vaccinated, but under population-based allocation, resupply stocks go there
anyway and may go to waste.
Meanwhile, restocking may fall short of demand elsewhere, where people are lining up for inoculations.
Meanwhile, restocking may fall short of demand elsewhere, where people are lining up for inoculations.
A mathematical fix
As a result, in a
pandemic, people eager for a vaccination might not get one despite adequate
vaccine production, and the resulting additional unvaccinated people are more
likely to get the flu and also spread it to others. That intensifies the
outbreak for the entire population.
The wasted vaccine
stocks also drain medical finances.
"Production,
storage, and delivery of vaccine are costly, and unused inventory can't just be
thrown away. It costs money to dispose of," Keskinocak said.
Restocking doses where
they are actually being used would benefit the entire population by boosting
the total number of vaccinated individuals, who would then be less likely to
get sick and to infect other people. That would tamp down the flu wave for
everybody.
A data dearth
Leftover inventory
could be slashed to about 20 percent of current levels, saving considerable
costs, and the data about which areas were not resupplied could be used to
identify areas where more people need encouragement to get vaccinated.
"The data would
tell you where you need continued education about the importance of
vaccination, and some of the money saved from unnecessary resupplying could be
invested in public health campaigns," said Swann, who collaborated with
the Centers for Disease Control and Prevention during the 2009-2010 H1N1 Swine
flu pandemic.
But the needed data is
missing at present in the U.S. vaccine distribution system.
"Surprisingly few
states have systems in place that tell them how much vaccine has been
administered where and how much is still left in inventory at provider
locations," Swann said.
The "big
one"
The next "big
one" flu will sneak up on humanity someday.
The best way to reduce
its death toll by more than half and save possibly hundreds of thousands of
lives will be for virtually everyone to get vaccinated against influenza
annually. Currently, fewer than 50 percent of Americans do.
The 1918-19 outbreak,
which may have consisted of multiple concurrent influenzas, killed 678,000
people in the U.S. Other "big ones:" The 1957 "Asian flu"
killed 116,000 in the U.S.; the 1968 "Hong Kong flu" killed 100,000.
The 2009 bird flu pandemic, which was a less contagious virus, killed 12,500
people in the U.S. and hospitalized some 275,000.
The study was
supported by the Harold R. and Mary Anne Nash Junior Faculty Endowment Fund,
and by the following Georgia Tech benefactors: William W. George, Andrea
Laliberte, Joseph C. Mello, Richard "Rick" E. and Charlene Zalesky.
Any findings, conclusions or recommendations are those of the authors and not
necessarily of the funders.
