Where Are the Lab-Grown Replacement Organs?

Where Are the Lab-Grown Replacement Organs?

A futuristic rendering of a scientist holding a pair of lungs in a glass dish.

(© Sergey Nivens/Fotolia)


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Jacqueline Detwiler-George
Jacqueline Detwiler is a contributing editor to Popular Mechanics and former host of The Most Useful Podcast Ever. She writes about science, adventure, travel, and technology. For stories, she has embedded with high school students in Indianapolis, jumped out of a plane with a member of the Red Bull Air Force, and travelled the country searching for the cure for cancer. Most recently, she trailed the Baltimore Police Department's Crime Scene Investigation team for a book for Simon & Schuster's Masters at Work series.
Scientists fight to avoid a perfect storm of fungal infections

Doctors worry that fungal pathogens may cause the next pandemic.

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Bacterial antibiotic resistance has been a concern in the medical field for several years. Now a new, similar threat is arising: drug-resistant fungal infections. The Centers for Disease Control and Prevention considers antifungal and antimicrobial resistance to be among the world’s greatest public health challenges.

One particular type of fungal infection caused by Candida auris is escalating rapidly throughout the world. And to make matters worse, C. auris is becoming increasingly resistant to current antifungal medications, which means that if you develop a C. auris infection, the drugs your doctor prescribes may not work. “We’re effectively out of medicines,” says Thomas Walsh, founding director of the Center for Innovative Therapeutics and Diagnostics, a translational research center dedicated to solving the antimicrobial resistance problem. Walsh spoke about the challenges at a Demy-Colton Virtual Salon, one in a series of interactive discussions among life science thought leaders.

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Gail Dutton
Gail Dutton has covered the biopharmaceutical industry as a journalist for the past three decades. She focuses on the intersection of business and science, and has written extensively for GEN – Genetic Engineering & Biotechnology News, Life Science Leader, The Scientist and BioSpace. Her articles also have appeared in Popular Science, Forbes, Entrepreneur and other publications.
New elevators could lift up our access to space

A space elevator would be cheaper and cleaner than using rockets

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Story by Big Think

When people first started exploring space in the 1960s, it cost upwards of $80,000 (adjusted for inflation) to put a single pound of payload into low-Earth orbit.

A major reason for this high cost was the need to build a new, expensive rocket for every launch. That really started to change when SpaceX began making cheap, reusable rockets, and today, the company is ferrying customer payloads to LEO at a price of just $1,300 per pound.

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Kristin Houser
Kristin Houser is a staff writer at Freethink, where she covers science and tech. Her written work has appeared in Business Insider, NBC News, and the World Economic Forum’s Agenda, among other publications, and Stephen Colbert once talked about a piece on The Late Show, to her delight. Formerly, Kristin was a staff writer for Futurism and wrote several animated and live action web series.