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Researchers Find More Effective Way to Administer Tuberculosis Vaccine

JoAnne Flynn

Breakthrough findings on tuberculosis by researchers at the 51精品视频 have attracted national scientific acclaim.

Worldwide, 听(TB) than any other infectious disease, despite the majority being vaccinated鈥攖he current vaccine just isn鈥檛 that reliable. But听a 听found that simply changing the way the vaccine is administered could dramatically boost its protective power.

Researchers at the听51精品视频 听and the听National Institute of Allergy and Infectious Diseases听(NIAID) discovered that intravenous TB vaccination is highly protective against the infection in monkeys, compared to the standard injection directly into the skin, which offers minimal protection.听

In the media

Read JoAnne Flynn鈥檚 take on the findings in The Conversation: 鈥.鈥

And find coverage of the study in:

The New York Times, 鈥溾

NPR, 鈥溾澨

The Associated Press, 鈥溾

STAT News, 鈥溾

鈥淭he effects are amazing,鈥 said senior author听, distinguished professor of microbiology and molecular genetics and a member of 51精品视频鈥檚听. 鈥淲hen we compared the lungs of animals given the vaccine intravenously versus the standard route, we saw a 100,000-fold reduction in bacterial burden. Six of the animals had no tuberculosis bacteria in their bodies and nine out of 10 animals showed no inflammation in their lungs.鈥

Flynn鈥檚 team tested several routes and doses of the only commercially available human TB vaccine,听听(BCG), which is made of a live, weakened form of TB bacteria found in cattle.听

The BCG vaccine has been around for 100 years and is among the most widely used vaccines in the world, but听its efficacy varies widely.

The idea for an intravenous TB vaccination came from earlier experiments by the other senior author on the study,听Robert Seder, at the听NIAID鈥檚 Vaccine Research Center. Seder showed in both听animals听and听humans听that the malaria vaccine is more effective when delivered intravenously.

To test whether the method of administration matters for TB, Flynn and colleagues separated their colony of monkeys into six groups: unvaccinated, standard human injection, stronger dose but same injection route, mist, injection plus mist, and finally, the stronger dose of BCG delivered as a single shot directly into the vein.

Six months later, the researchers exposed the animals to TB and monitored them for signs of infection.

Monkeys are extremely susceptible to TB. All of the animals who received the standard human dose had persistent lung inflammation, and the average amount of TB bacteria in their lungs was only slightly less than in the monkeys who received no vaccine at all. The other injected and inhaled vaccines offered similarly modest TB protection.听

The intravenous vaccine, on the other hand, offered nearly full protection. There was virtually no TB bacteria in the lungs of these animals, and only one monkey in this group developed lung inflammation.

鈥淭he reason the intravenous route is so effective,鈥 Flynn explained, 鈥渋s that the vaccine travels quickly through the bloodstream to the lungs, the lymph nodes and the spleen, and it primes the T cells before it gets killed.鈥澨

Flynn鈥檚 team found BCG and activated T cells鈥攚hich are听important to the body鈥檚 immune response鈥攊n the lungs of all the intravenously vaccinated animals at one month after vaccination. Among the other groups, BCG was undetectable in the lung tissue and T cell responses were relatively meager.听

In future studies, the researchers plan to test whether lower doses of intravenous BCG could offer the same level of protection without the side effects, which mostly consist of temporary inflammation in the lungs.听

But before this method can be translated to humans, researchers need to know that it鈥檚 not only safe, but also practical. An intravenous vaccine requires more skill to administer and carries a higher risk of infection.听

鈥淲e鈥檙e a long way from realizing the translational potential of this work,鈥 Flynn said. 鈥淏ut eventually we do hope to test in humans.鈥

This research was supported by the听Bill and Melinda Gates Foundation, the听National Institutes of Health听and the听NIAID Intramural Research Program.听