In the near future, birth defects, traumatic injuries, limb loss and perhaps even cancer could be cured through bioelectricity—electrical signals that communicate to our cells how to rebuild themselves. This innovative idea has been tested on flatworms and frogs by biologist Michael Levin, whose research investigates how bioelectricity provides the blueprint for how our bodies are built—and how it could be the future of regenerative medicine. 

Levin is professor of biology at Tufts University and director of the Tufts Center for Regenerative and Developmental Biology.

How We Could Regrow Limbs And Organs, with Michael Levin

Translating groundbreaking research into digestible brain food. Big Brains, little bites. Produced by the University of Chicago Podcast Network & Winner of CASE "Grand Gold" award in 2022, Gold award in 2021, and named Adweek's "Best Branded Podcast" in 2020.

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We've all heard the phrase "Manifest Your Destiny" when it comes to wanting that new promotion, figuring out a new career path or just trying to achieve that long-term goal. It turns out that the act of manifestation is not merely pseudoscience—it actually has a body of research in neuroscience to back it up. Dr. James Doty has been exploring this topic throughout his career; and offers scientific research as well as tools on how to manifest your goals in his new book, Mind Magic: The Neuroscience of Manifestation and How It Changes Everything.

James Doty is a clinical professor of neurosurgery at Stanford University, where is also the founder and director of the Center for Compassion and Altruism Research and Education. He explores how manifestation is not only a tool to achieve what we want, but it is also fundamentally about being selfless and caring for others in order to activate our deep internal happiness.

Link to the advertised Chicago Booth Review Podcast: https://www.chicagobooth.edu/review/podcast?source=cbr-sn-bbr-camp:podcast24-202405/02

How To Manifest Your Future Using Neuroscience, with James Doty

They’re perhaps the oldest questions in the science: Why do we die? And could we find a way to live forever? But for decades, anti-aging research was a “backwater” of the scientific community, consider too fanciful and unrealistic. That is until the last few years. Modern advances in biology have taught us a lot about how we age and why we die—could that knowledge help us turn back the clock?

In his new book, “Why We Die: The New Science of Ageing and the Quest for Immortality”, Nobel Prize-winning scientist Venki Ramakrishnan delves into the latest science of aging and investigates the nearly $30 billion dollar longevity industry to separate fact from fiction in our modern quest for immortality.

Why We Die—And How We Can Live Longer, with Nobel Laureate Venki Ramakrishnan

Every dog owner has faced the hard realization that their dog won’t live as long as they do, but we’ve all probably wondered: Why do some dogs live longer than others? It turns out that several factors are at play, according to the largest research study of dogs, known as The Dog Aging Project.

Prof. Daniel Promislow of the University of Washington is co-director of the project, which examines how biology, lifestyle and environment can increase both the health and lifespan of more than 50,000 dogs. We spoke with Promislow about whether we can help our dogs live longer—and what their research could actually teach humans about aging.

Link to the advertised Chicago Booth Review Podcast:  https://www.chicagobooth.edu/review/podcast?source=cbr-sn-bbr-camp:podcast24-20240404

What Dogs Are Teaching Us About Aging, with Daniel Promislow

For more than a century, scientists have been studying Alzheimer’s disease and developing theories about its underlying cause. The leading theory for decades has been that abnormal amyloid plaques in the brains of those who suffer from the disease are the central cause. But, according one renowned Alzheimer’s researcher, this myopic focus is not only flawed, but may be holding back our search for a cure. 

Neurobiologist Karl Herrup argues that we need to go back to the drawing board, redefine the disease and understand the many factors that could cause it before we can race for a cure. A professor of neurobiology and an investigator in the Alzheimer’s Disease Research Center at the University of Pittsburgh School of Medicine, Herrup is the author of How Not to Study a Disease: The Story of Alzheimer’s.

Where Has Alzheimer’s Research Gone Wrong? with Karl Herrup

Mosquito-borne diseases are one of the greatest global health threats, infecting around 700 million people every year with Zika virus, dengue fever, malaria and yellow fever — which can all be deadly if left untreated. Unfortunately, the mosquito population is not slowing down, and factors like climate change and increased global travel are broadening the mosquito's range. The effort to stop the mosquito is not an easy task; insecticides and vaccines can't completely stop the spread of these diseases. But instead of trying to kill mosquitoes, one nonprofit is taking a unique approach.

Scientist Scott O'Neill is founder and CEO of the World Mosquito Program, a nonprofit group with the goal of eliminating mosquito-borne diseases. The program is implementing a new method of inoculating the wild population of mosquitoes with a bacteria called Wolbachia, which is resistant to diseases. So far, the program has been rolled out in countries like Brazil, Colombia, Indonesia, Australia and Mexico – and has already seen success in reducing rates of disease.

Link to the advertised Chicago Booth Review Podcast:  https://www.chicagobooth.edu/review/podcast?source=cbr-sn-bbr-camp:podcast24-20240307

How We Could Regrow Limbs And Organs, with Michael Levin

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