Insulin 'Pill' Could Replace A Shot Someday, Researchers Say : Shots - Health News A lot of vaccines and some medications need to be delivered by injection. Two groups of researchers are designing ways of delivering these medications by putting them in pill form.

Avoiding The Ouch: Scientists Are Working On Ways To Swap The Needle For A Pill

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Many vaccines and even a few medicines have to be delivered by injection, and that is a pain both for patients - obviously - and for health care providers. Teams of scientists, doctors and engineers want to find an end run around the pain. NPR's Joe Palca has this report on two of those efforts, one for vaccines and another delivering insulin that swapped the needle for a pill.

JOE PALCA, BYLINE: Actually, the system gastroenterologist Giovanni Traverso and his colleagues at Harvard and MIT developed to deliver insulin still uses a needle, but it's tiny. You can swallow it, and the injection doesn't hurt. Let me explain. Traverso and his colleagues built a tiny device...

GIOVANNI TRAVERSO: The size of a pea.

PALCA: ...That's easy to swallow. Sealed inside is a spring that can inject a tiny dart of solid insulin, about a quarter of an inch long. And it's one you wouldn't feel because it's injected into the wall of the stomach.

TRAVERSO: We chose the stomach as the side of delivery because we recognized that the stomach is a thick and robust part of the GI tract.

PALCA: Once the device gets into the stomach, the humidity in the stomach allows the spring to launch the insulin dart. So far so good. But Traverso says there was a problem they had to overcome.

TRAVERSO: How do we get these devices to self-orient such that the end that is doing the injecting part is in direct contact with the tissue?

PALCA: To get the device to roll into the right position all on its own, they turned to nature.

TRAVERSO: Leopard tortoises happened to - have evolved a way of doing this.

PALCA: The shape of the tortoise shell helps the tortoise flip over if it happens to wind up on its back. And Traverso says there was another source of inspiration.

TRAVERSO: We took a page from, obviously, their shape, but then also the experience from a toy - the Weeble wobble (ph).


UNIDENTIFIED PERSON: Hey, hey, look at me - Weebles. Weebles wobble, but they don't fall down.

PALCA: Weebles are toy creatures that flip upright no matter which way they land. As they report in Science, the device works in pigs, and Traverso hopes it'll be ready for human tests in a few years. Nanoengineer Ronnie Fang at the University of California, San Diego, and his colleagues have a different delivery system. Theirs is a kind of micro rocket about the size of a grain of sand. You could package thousands of them into a pill that would be easy to swallow. The tiny rocket is designed to sail through the stomach.

RONNIE FANG: It actually propels using bubbles and a reaction of magnesium with biological fluids.

PALCA: Once the micro rockets exit the stomach, they're supposed to bury into the wall of the small intestine and release their payload - in this case, a vaccine protein. Fang says, like Giovanni Traverso's design inspired by the shape of the tortoise shell, their bubble-propelled micro rockets were also inspired by nature.

FANG: If you have bacteria that invade your gut, they're not just going to be sitting around statically. They're going to be swimming around. And they're actually going to make it to the intestinal wall.

PALCA: As Fang and his colleagues report in the journal Nano Letters, their delivery system works in mice. Human testing is probably many years off. Joe Palca, NPR News.

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