Joe Palca

Joe Palca is a science correspondent for NPR. Since joining NPR in 1992, Palca has covered a range of science topics — everything from biomedical research to astronomy. He is currently focused on the eponymous series, "Joe's Big Idea." Stories in the series explore the minds and motivations of scientists and inventors. Palca is also the founder of NPR Scicommers – A science communication collective.

Palca began his journalism career in television in 1982, working as a health producer for the CBS affiliate in Washington, DC. In 1986, he left television for a seven-year stint as a print journalist, first as the Washington news editor for Nature, and then as a senior correspondent for Science Magazine.

In October 2009, Palca took a six-month leave from NPR to become science writer in residence at The Huntington Library, Art Collections, and Botanical Gardens.

Palca has won numerous awards, including the National Academies Communications Award, the Science-in-Society Award of the National Association of Science Writers, the American Chemical Society's James T. Grady-James H. Stack Award for Interpreting Chemistry for the Public, the American Association for the Advancement of Science Journalism Prize, and the Victor Cohn Prize for Excellence in Medical Writing. In 2019, Palca was elected to the American Academy of Arts and Sciences for outstanding achievement in journalism.

With Flora Lichtman, Palca is the co-author of Annoying: The Science of What Bugs Us (Wiley, 2011).

He comes to journalism from a science background, having received a Ph.D. in psychology from the University of California at Santa Cruz, where he worked on human sleep physiology.

There are many approaches to making a vaccine against COVID-19. Some use genetic material from the coronavirus, some use synthetic proteins that mimic viral proteins and some use disabled versions of the virus itself.

But before any of these approaches can generate the antibodies to the coronavirus that scientists say are essential to protecting people from getting sick, the immune system has to be primed to make those antibodies.

That's the job of something called an adjuvant.

The COVID-19 vaccine candidate made by the U.S. biotech company Moderna and developed in collaboration with the National Institutes of Health starts its final phase of testing Monday.

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Approximately 200 COVID-19 vaccines are being actively developed. All vaccines have one main goal: to prepare a person's immune system to fight off an invading organism should the body encounter it.

It turns out, cows may play an important role in responding to the COVID-19 pandemic.

SAB Biotherapeutics is in the business of making what are known as polyclonal antibodies. These are a collection of different antibodies that a body makes to ward off a specific invading organism.

The company has made polyclonal antibodies to treat influenza and MERS. Now it's making them with the aim of treating or even preventing COVID-19. To make them, SAB uses cows.

A low-cost anti-inflammatory drug appears to reduce the risk of death in patients with COVID-19.

The drug is called dexamethasone. It's been used for decades to treat conditions such as arthritis and asthma. Because patients with advanced COVID-19 disease can have severe lung inflammation, scientists wanted to see if dexamethasone could treat that condition.

It was one of the drugs studied in a large clinical trial in the United Kingdom known as RECOVERY, or Randomized Evaluation of COVID-19 Therapy.

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Turns out that cows may be helpful to us in the pandemic. There's a biotech company in South Dakota using cows to make antibodies for treating human disease. And lately, they've been making antibodies for COVID-19. Here's NPR's Joe Palca.

Right now, there is only one drug shown by rigorous scientific testing to be helpful for treating COVID-19. That drug is the antiviral medication called remdesivir, made by Gilead Sciences. But remdesivir's proven benefits are modest: reducing hospital stays from 15 to 11 days.

Once upon a time, developing a new vaccine was a step-by-step process that went from concept, to design, to tests in humans, to regulatory approval, to manufacturing.

It was a process that could take a decade or more.

But the urgent need for a COVID-19 vaccine has radically changed all that. Now, the hope is the entire process can be completed in a year or less.

Taking hydroxychloroquine after being exposed to someone with COVID-19 does not protect someone from getting the disease.

That's the conclusion of a study published Wednesday involving 821 participants. All had direct exposure to a COVID-19 patient, either because they lived with one, or were a health care provider or first responder.

A vaccine manufacturer is reporting preliminary data suggesting its COVID-19 vaccine is safe, and appears to be eliciting in test subjects the kind of immune response capable of preventing disease.

Moderna, Inc., of Cambridge, Mass., developed the vaccine in collaboration with the National Institute of Allergy and Infectious Diseases. The results reported Monday come from an initial analysis of a Phase I study primarily designed to see if the vaccine is safe.

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Most health experts agree that the need for a vaccine to prevent COVID-19 is clear.

"To return to a semblance of previous normality, the development of SARS-CoV-2 vaccines is an absolute necessity" is how a perspective in Science magazine puts it.

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The global race for a coronavirus vaccine is on. And around the world, hopes for a vaccine are high.

(SOUNDBITE OF MONTAGE)

Most public health experts agree that widespread testing will be needed to bring the COVID-19 pandemic under control. But for now, most coronavirus tests require specialized laboratories and high-tech equipment to process them.

Researchers at the McGovern Institute for Brain Research at MIT hope to change that with a simpler test that could conceivably be done in someone's kitchen.

The pharmaceutical giant Pfizer has begun testing a new coronavirus vaccine in the United States. The initial trial will involve 360 volunteers, and the first subjects have already received injections.

The vaccine was developed in a partnership between Pfizer and the German biotech company BioNTech. In addition to the U.S. trials, there will be some 200 patients enrolled in trials in Germany.

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A panel of experts convened by the National Institute of Allergy and Infectious Diseases recommends against doctors using a combination of hydroxychloroquine and azithromycin for the treatment of COVID-19 patients because of potential toxicities.

"The combination of hydroxychloroquine and azithromycin was associated with QTc prolongation in patients with COVID-19," the panel said.

QTc prolongation increases the risk of sudden cardiac death.

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Being able to test for coronavirus infections is a critical component to reopening society — even a little bit — after the initial wave of COVID-19. So there is an urgent need for faster, cheaper tests than the ones available at present.

Two of the world's largest vaccine manufacturers are joining forces to develop a new vaccine to prevent COVID-19.

Usually, the pharmaceutical behemoths GlaxoSmithKline and Sanofi are competitors, but in a conference call with reporters, GSK CEO Emma Walmsley said the coronavirus pandemic represented "an unprecedented global health threat," and, therefore, required new ways of doing business.

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Tonight, a European space probe will fly past the Earth on its way to Mercury, the planet closest to the sun. That mission will ping around the inner solar system before getting to its destination. Here's NPR's Joe Palca.

JOE PALCA, BYLINE: Normally, when a mission milestone like a fly-by occurs, scientists gather at Mission Control to monitor the spacecraft's progress - not this time.

JORN HELBERT: We will all be at home. We all do this from our living rooms, kitchens - wherever we are.

When our bodies are invaded by a virus, our immune systems make particular proteins called antibodies to help fight off infection.

Scientists working to quell the COVID-19 pandemic think it will be possible to figure out which antibodies are most potent in quashing a coronavirus infection, and then make vast quantities of identical copies of these proteins synthetically.

In an unusual move, the Food and Drug Administration today announced that is making it easier for doctors to try an experimental treatment for COVID-19 patients that uses plasma from people who had the disease and recovered.

There is scant evidence it works in people infected with the coronavirus, but the approach has been tried for other illnesses.

The federal government is now adding supercomputers to its tool set in the hunt for ways to stop COVID-19.

While health officials in the United States wait to see just how bad a public health challenge COVID-19 will pose, they still have to deal with an all-too-familiar challenge: flu.

It's been a bad flu season. Not the worst ever, but bad.

"It started very early this year," says Emily Martin, associate professor of epidemiology at the University of Michigan School of Public Health. She works with the Centers for Disease Control and Prevention collecting statistics about flu.

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