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STEM-Talk

Dawn Kernagis and Ken Ford
STEM-Talk
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  • Episode 186: Mari Dezawa discusses her discovery of MUSE cells and the role of stem cells in regenerative medicine
    Today we have Dr. Mari Dezawa, one of the world’s leaders in stem-cell research and regenerative medicine. Mari is a pioneer in this emerging field and is known worldwide for her discovery of MUSE cells, a unique type of stem cell with exciting clinical potential. MUSE is short for Multilineage-Differentiating Stress-Enduring Cells. The discovery of the MUSE cell in humans has many biological and medical implications, and the human body may have a greater regenerative potential than we might have ever imagined. In collaboration with major national and international institutions, Mari and her colleagues are promoting research on MUSE cell-based regenerative medicine for diseases without definitive treatments. She and her team are also exploring the differences in regenerative capacity between less and more complex animals from the viewpoint of the stem-cell system. Mari is a professor and chair of the Division of Stem Cell Biology and Histology at Tohoku University School of Medicine. She has published more than 200 papers and is particularly known for her 2010 paper on the mechanisms of MUSE cells. In 2018, she was appointed a fellow of the U.S. National Academy of Inventors and has been the recipient of numerous awards, including the Japanese Government’s Prize for the Commendation for Science and Technology. Show notes: [00:04:10] Ken opens the interview by mentioning that although Mari was born in Japan, her family moved to the U.S. when she was only eight months old. Ken asks if it is true that Mari finds it difficult to answer the question of where her hometown is. [00:05:23] Ken asks Mari how she handled moving so much as a child. [00:05:52] Ken mentions that Mari’s father was a researcher and asks when she became passionate about research and science. [00:06:58] Ken mentions that Mari attended the Chiba University School of Medicine and asks what inspired her to go to medical school. [00:07:19] Ken explains that after Mari earned her medical degree, she attended Chiba University Graduate School of Medicine for her Ph.D. Ken mentions that while Mari was initially a cardiology resident, she later decided to focus on clinical research and became a stem-cell researcher. Ken asks what led her to shift from cardiology to stem-cell research. [00:08:25] Ken explains that Mari is well-known for her research into the role of stem cells in regeneration and functional recovery of nerve and muscle cells. Ken asks how and when she first became interested in stem cells. [00:09:56] Ken asks Mari to give a brief overview of stem cells and their significance. [00:11:18] Ken mentions that Mari remained at Chiba University as a research associate after earning her Ph.D in 1995. She then took a position as an associate professor at Yokohama City University Graduate School of Medicine before accepting a position at Kyoto University Graduate School of Medicine as an associate professor in 2003. Ken explains that while at Kyoto, Mari developed methods to induce bone marrow stromal cells to generate neuro and skeletal muscle cells, which play a crucial role in tissue repair and regeneration and are widely studied for their potential to serve as therapeutic agents. Ken asks Mari to give a quick primer on the crucial role these cells play in tissue repair. [00:13:25] Ken explains that in 2003, a member of Mari’s technical staff at Kyoto asked her whether they should discard some cultured adult rat and human bone marrow mesenchymal stem cells (MSCs) after she had noticed several strange cell clusters. Ken asks Mari to share what happened next and how this set her on the path to the discovery of Multilineage-Differentiating Stress-Enduring Cells. [00:16:03] Ken asks Mari to elaborate on this story and explain how a mistake led to this incredible discovery. [00:20:48] Ken explains that in 2008 Mari became professor and chair of the Department of Stem Cell Biology and Histology at Tohoku University Graduat...
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  • Episode 185: Andrew Koutnik discusses metabolic health, athletic performance and growing up with type-1 diabetes
    Today we have our good friend and colleague Dr. Andrew Koutnik on the show. Andrew is a research scientist who studies the influence of nutrition and metabolism on health, disease and performance. He specializes in Type 1 diabetes and works with a wide range of people to improve their metabolic health and athletic performance. Andrew is a visiting research scientist at IHMC and has worked with Harvard, Johns Hopkins, NASA, and the Department of Defense to develop evidence-based strategies for overcoming complex health challenges. He is a graduate of Florida State University and earned his Ph.D. in medical sciences at the University of South Florida, where he worked with another good friend of ours, Dr. Dominic D’Agostino, who has been a previous STEM-Talk guest. Show notes: [00:02:50] Dawn welcomes Andrew to the show and asks him about his website, andrewkoutnik.com, the quote on the site’s homepage “Demystifying complex science to help you thrive in your health journey,” and the tagline “Challenging the status quo of metabolic health, human performance, and the management of type1 diabetes.” [00:05:31] Ken asks Andrew how old he was when he first learned he had Type 1 diabetes. [00:08:32] Dawn asks why Andrew believes his Type 1 diabetes is one of his life’s ultimate assets? [00:12:51] Ken mentions that Andrew grew up in Tallahassee and that despite suffering from childhood obesity, he was relatively athletic as a child. Ken asks Andrew to talk about his childhood. [00:14:20] Dawn asks Andrew to talk about the weight-loss journey he underwent as a teenager. [00:17:25] Dawn shifts gears to ask Andrew about how he got into science, mentioning that when he was younger, he never saw himself becoming a scientist. [00:20:19] Dawn asks if it is true that Andrew was the sort of kid who would constantly asked questions. [00:22:11] Dawn asks Andrew if it is true that after enrolling at Tallahassee Community College, it took him a while to decide on his major. [00:22:58] Ken asks Andrew to talk about the impact that his undergraduate anatomy and physiology class and professor had on his journey. [00:24:44] Ken mentions that after graduating from FSU, Andrew went to the University of South Florida where he worked with Dominic D’Agostino, who is both a previous STEM-Talk guest and a current colleague of Andrew’s. Ken asks Andrew how he met Dom. [00:27:46] Dawn asks Andrew how he came to work in Dom’s lab. [00:29:00] Dawn asks Andrew if his wife is still in touch with her former roommate, who connected Andrew and Dom. [00:29:21] Ken asks Andrew to touch on some of the research he did with Dom while he was pursuing his Ph.D. [00:31:49] Dawn shifts gears to talk about Andrew’s work in metabolic health and Type 1 diabetes. Dawn explains that a study published by the University of North Carolina found only 12 percent of Americans were metabolically healthy. Additionally, researchers from the Friedman School of Nutrition Science and Policy at Tufts University found in 2022 that only 6.8 percent of Americans had good cardiometabolic health. Dawn asks Andrew how he works with people who want to improve their metabolic health. [00:34:19] Ken asks Andrew for his thoughts on the sentiment that a ketogenic diet is hard to sustain. [00:36:55] Ken mentions that  Andrew was part of a review that looked at carbohydrate restriction for diabetes, which is a practice that had been in use since the 1700s. It fell out of favor once insulin was discovered in the 1920s. Ken goes on to explain that carbohydrate restrictive diets, like the ketogenic diet, have regained popularity for the treatment and management of diabetes, weight-loss and a range of other health issues such as migraines, cancer and depression. Ken asks Andrew to first explain the history of carb-restrictive diets as a treatment of diabetes. [00:39:43] Ken asks Andrew to talk more about the aforementioned 2021 review and its argument...
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  • Episode 184: Ken and Dawn answer listener questions on AI, grip strength, ketamine, protein, digital twins, and more!
    It’s time for another episode of Ask Me Anything. Dawn and Ken answer listener questions that range from generative AI to whether grip strength is a biomarker for longevity and the potential of ketamine as a treatment for depression. Dawn also gives a brief overview of work she is doing with the deep-sea technology company Deep. As a special treat at the end of today’s episode, Dawn plays a recording of the commencement speech that Ken recently gave at the University of West Florida. As the saying goes, you don’t want to miss it. Show notes: [00:02:18] Ken starts off the episode with a listener question about whether Dawn and Ken read print books or digital, the reason being that a listener recently came across an article that claimed digital screens are rewiring our brains. [00:05:32] A listener asks about a paper titled “Grip Strength An Indispensable Biomarker for Older Adults” which claims that the ability to hang from a bar for 60 seconds for men, and 30 seconds for women, indicates that a person is likely to live longer. The paper claims that a decline in grip strength is associated with adverse health consequences, and the listener asks Ken what advice he has for developing and maintaining grip strength. [00:10:20] A listener asks a question inspired by our recent interview with Dr. Frank Butler. The listener asks if Ken has heard about the FDA approved depression therapy, esketamine, which is a derivative of ketamine and is a long-standing therapy for depression. [00:12:37] A listener asks Ken about a 2023 paper in the journal Age and Aging titled “Higher Dietary Protein Intake is Associated with Sarcopenia in Older British Twins” [00:16:13] A listener asks Ken about “Whisper,” which is a transcription product from OpenAI. The listener explains that OpenAI disclaims that Whisper should not be used in high-risk domains. However, according to a story by the Associated Press titled “Researchers Say an AI Powered Transcription Tool Used in Hospitals Invents Things No One Ever Said,” medical centers have already begun to use the tool to transcribe physician consultations. The listener explains that, according to the article, the use of Whisper in these contexts has led to numerous ‘hallucinations’ from the AI tool and the listener asks Ken what his thoughts are on how tools like Whisper should be integrated into various industries. [00:20:21] A listener asks for Ken’s thoughts on a series of articles by Kevin Roose in The New York Times claiming that there is no reason to learn how to code and program because very soon AI will take over all coding. Mr. Roose also asserts that the time is soon approaching when we need to have discussions on what rights to grant sentient AI. [00:21:57] A listener asks Ken if he concurs with a report from the National Academy of Medicine titled “Generative Artificial Intelligence in Health and Medicine – Opportunities and Responsibilities for Transformative Innovation,” which notes that large language models (LLMs) hold huge promise for patient care and healthcare system workflows, as well as risks. The listener asks if Ken agrees with the report’s claims that two areas in which we could see near term applications of LLMs are patient education and synthesis of information of electronic medical records. [00:23:35] As a follow up question, Ken is asked about the aforementioned report’s discussion of the “digital twin” concept. A digital twin is a computational representation of a patient or disease that could be used to speed up virtual experiments or subgroup analysis of investigational agents that carry risk for real patients. [00:26:26] A listener asks for Ken’s thoughts on a paper published in the journal of Nutrition Health and Aging titled “Effects of Vitamin D3 Omega 3 Fatty Acids and a Simple Home Exercise Program on Change in Physical Activity Among Generally Healthy and Active Older Adults.” The paper claims that among generally healthy,
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  • Episode 183: Michael Schmidt on the challenges of building a space-faring civilization
    Today we have the second installment of our interview with Dr. Michael A. Schmidt, the founder, CEO, and Chief Scientific Officer of Sovaris Aerospace, a company focused on assessments and solutions applied to humans in space and extreme environments on Earth. In today’s interview, we talk to Michael about NASA’s plans to send humans to Mars and build permanent colonies on the Moon and Mars. We also talk to Michael about his recent book, “Building a Space-Faring Civilization,” which addresses the challenges of civilian spaceflight and the construction of space settlements. In part one of our interview, Episode 182, we talked with Michael about his pioneering work in the field of precision medicine and how he has used it to improve the cognitive and physical performance of astronauts as well as NBA, NFL players and Special Operations forces. In addition to his work with Sovaris, Michael also is a professor of aerospace medicine at the University of Central Florida College of Medicine, one of the few programs in the U.S. that offers a medical residency in aerospace medicine. Show notes: [00:03:00] Dawn picks up our interview from where we left off in part one, discussing the Human Research Program for Civilian Spaceflight. She goes on to mention that Chris Mason at Cornell University has a biobank of 1,500 samples across 22 astronauts and seven missions, and that these samples will lead to deeper insights on the effects of spaceflight on humans. Dawn switches gears to ask Michael about the cognitive and physical challenges of spaceflight over long duration missions. [00:13:03] Following up on the cognitive challenges of long duration spaceflight, Ken mentions that the hippocampus, the primary memory center of the brain, has a relatively low radiation threshold compared to other tissues in the brain. Ken asks Michael to touch on the vulnerability of specialized brain tissues to radiation, particularly in the context of a long duration spaceflight to Mars. [00:21:53] Ken mentions that it is understood that the APOE4/4 genotype is associated with impaired cognitive performance under certain circumstances and an elevated risk of dementia. While it is currently unknown whether APOE4/4 has any correlation of increased risk associated with cognitive impact resultant from environmental exposure due to spaceflight, Ken highlights the concern with sending APOE4/4-positive astronauts on long duration spaceflights without knowing the risks. [00:29:26] Ken notes the worsened cognitive impacts resultant from medical radiation, and while therapeutic radiation is different than radiation experienced by astronauts, these results give some indication of the effects astronauts might experience. [00:33:27] Dawn mentions that we recently had planetary scientist and director of NASA’s Haughton-Mars project, Pascal Lee, on the podcast, who explained his view that since there are so many engineering and biological challenges with going to Mars, we should take a more measured approach to a Mars mission, perhaps even beginning with a roundtrip to Mars rather than landing on our first visit. Dawn asks Michael what his thoughts are on this approach. [00:37:29] Ken shifts the discussion to the subject of one of Mars’ moons, Phobos, and its potential role in a Mars mission. [00:40:30] Dawn pivots to talk about Michael’s Book “Building a Space-Faring Civilization: Advancing the Renaissance of Science, Medicine and Human Performance in Civilian Spaceflight.” Dawn asks Michael to talk about the chapter concerning the question of space radiation from the standpoint of precision medicine. [00:55:12] Dawn asks Michael to talk about the lack of appreciation people have for the fact that a Mars mission would be the most dangerous thing we’ve ever done. [00:59:06] Ken mentions that Michael has worked with a lot of organizations, including Space X, which has a program, the Space X Mars Colonization Program,
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  • Episode 182: Michael Schmidt on what precision medicine means to human spaceflight
    Today we have Dr. Michael A. Schmidt, the founder, CEO, and Chief Scientific Officer of Sovaris Aerospace, a company focused on assessments and solutions applied to humans in space and extreme environments on Earth.  Michael is also a professor of aerospace medicine at the University of Central Florida College of Medicine, one of the few programs in the U.S. that offers a medical residency in aerospace medicine. Michael is known for his work pioneering the field of precision medicine. He uses molecular analytics, coupled with physiologic and behavioral assessments, to facilitate human performance and resilience on Earth as well as in the extreme environment of space. His work covers a spectrum from NASA, the NFL, the NBA, U.S. Olympic teams, Nike, SpaceX, Axiom Space, NASCAR, Special Operations, the Naval Submarine Medical Research Lab, the Mayo Clinic, and others. We had a long and fascinating conversation with Michael and decided to break the interview into two parts. This episode focuses on Michael’s background and the cognitive and physical challenges astronauts experience in spaceflight. We also dive into the many ways that precision medicine is facilitating human performance and resilience here on Earth. In part two of our conversation, Michael talks about his work with NASA and SpaceX on the challenges of civilian spaceflight and the future of Mars exploration, including the construction of permanent colonies on the Moon and Mars. You won’t want to miss that conversation. Show notes: [00:03:59] Dawn opens our interview mentioning that Michael grew up in Minnesota in a small farming community, asking if it’s true that he sometimes had to do chores in 20- to 30-degree weather. [00:06:50] Dawn asks if it is true that Michael fell in love with science at a young age, even building telescopes at the age of 11. [00:08:00] Dawn asks Michael what it was that led him to become so fascinated with space specifically. [00:08:58] Dawn asks if Michael ever thought about becoming an astronaut. [00:10:09] Ken asks if it is true that Michael was a big reader as a child. [00:11:21] Dawn asks Michael to talk about his childhood athletic interests. [00:11:55] Dawn asks how it was that a high school quarterback from a small town in Minnesota ended up at university in the United Kingdom. [00:13:38] Ken asks Michael what years he worked at NASA Ames Research Center. [00:14:51] Ken mentions that when Michael was at NASA Ames, he did work collecting molecular and physiologic assessments of humans using NASA’s 20-G centrifuge. Ken asks Michael to talk about the centrifuge and how he used it in his studies of hypergravity. [00:17:49] Ken comments on the fact that pieces of equipment like NASA’s 20-G centrifuge are a precious scientific resource, and when they cease functioning, unfortunately, they are unlikely to be replaced. [00:19:40] Ken and Michael discuss the fact that microgravity, despite being one of the most pressing effects on astronaut health, is the one of the least addressed problems in human spaceflight. [00:21:48] Ken explains that Michael is the founder, CEO and Chief Scientific Officer of a company called Sovaris Aerospace, which is focused on assessments and solutions applied to humans in space and extreme environments on Earth. Ken asks Michael where the idea came from to found this company. [00:24:35] Dawn explains that since the human genome was first sequenced, there has been an acceleration of genome-based technologies that have made it possible to consider a person’s genetic makeup, both in healthcare and optimizing performance. Dawn asks Michael to talk about the work he does applying genomics to human spaceflight. [00:28:52] Dawn asks about Michael’s direction of the molecular profiling and precision medicine efforts for the Golden State Warriors during their record-breaking 73-9 season [00:32:57] Dawn mentions that Michael published a review in the journal Meta...
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