New Podcast: Jessica Malaty Rivera Talks Vaccine Hesitancy

New Podcast: Jessica Malaty Rivera Talks Vaccine Hesitancy
Virus image by Fusion Medical Animation on Unsplash

"Making Sense of Science" is a monthly podcast that features interviews with leading medical and scientific experts about the latest developments and the big ethical and societal questions they raise. This episode is hosted by science and biotech journalist Emily Mullin, summer editor of the award-winning science outlet Leaps.org.

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Emily Mullin
Emily Mullin is a science and biotech journalist whose work has appeared in The Washington Post, New York Times, Wall Street Journal, Scientific American, National Geographic and Smithsonian Magazine.
How dozens of men across Alaska (and their dogs) teamed up to save one town from a deadly outbreak

In 1925, health officials in Alaska came up with a creative solution to save a remote fishing town from a deadly disease outbreak.

Photo by Ugur Arpaci on Unsplash

During the winter of 1924, Curtis Welch – the only doctor in Nome, a remote fishing town in northwest Alaska – started noticing something strange. More and more, the children of Nome were coming to his office with sore throats.

Initially, Welch dismissed the cases as tonsillitis or some run-of-the-mill virus – but when more kids started getting sick, with some even dying, he grew alarmed. It wasn’t until early 1925, after a three-year-old boy died just two weeks after becoming ill, that Welch realized that his worst suspicions were true. The boy – and dozens of other children in town – were infected with diphtheria.

A DEADLY BACTERIA

Diphtheria is nearly nonexistent and almost unheard of in industrialized countries today. But less than a century ago, diphtheria was a household name – one that struck fear in the heart of every parent, as it was extremely contagious and particularly deadly for children.

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Sarah Watts

Sarah Watts is a health and science writer based in Chicago.

A new method could help the smallest of medicines hit their targets

Jacob Brenner and his partners at the University of Pennsylvania's Perelman School of Medicine are finding new ways to get nanomedicines to arrive at their targets.

Perelman School of Medicine, University of Pennsylvania

Its strength is in its lack of size.

Using materials on the minuscule scale of nanometers (billionths of a meter), nanomedicines have the ability to provide treatment more precise than any other form of medicine. Under optimal circumstances, they can target specific cells and perform feats like altering the expression of proteins in tumors so that the tumors shrink.

Another appealing concept about nanomedicine is that treatment on a nano-scale, which is smaller yet than individual cells, can greatly decrease exposure to parts of the body outside the target area, thereby mitigating side effects.

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Ray Cavanaugh
Ray Cavanaugh is a freelance writer from Massachusetts. He enjoys very long walks, stopping occasionally to indulge in his Kindle Paperwhite.