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Space Conditions Make All Creatures Age Extremely Fast w/ Sonja Schrepfer #27
In This Episode
Join us as we explore the fascinating intersection of space research and biology with our guest, Dr. Sonya Schrepfer, a scientific co-founder of Sonya Biotechnology and an adjunct professor at UCSF. With her extensive background in surgery and stem cell immunology, Dr. Schrepfer shares groundbreaking insights on how space conditions can accelerate aging in living organisms.
Throughout the conversation, Dr. Schrepfer reveals key insights, including the critical role of stem cells in healing and regeneration, particularly in the context of long-duration spaceflight. She discusses how spaceflight serves as a model for understanding aging processes on Earth, highlighting the implications for both astronauts and terrestrial medicine.
The discussion takes unexpected turns as Dr. Schrepfer addresses the immune system's impact on aging and wound healing in space, emphasizing the need for further research to unlock potential solutions for health challenges faced by astronauts and patients on Earth alike. The episode ultimately connects these scientific inquiries to broader societal implications, showcasing the infinite possibilities that arise from understanding biology in extreme environments.
Episode Outlines
Biography of the Guest
Dr. Sonya Schrepfer is a scientific co-founder of Sonya Biotechnology and an adjunct professor at UCSF, specializing in surgery and stem cell immunology. With a rich academic background, she founded a transplant and stem cell immunobiology lab at Stanford University.
Dr. Schrepfer's significant career achievements include pioneering research on the effects of microgravity on biological systems and contributing to advancements in regenerative medicine. She has authored numerous publications that bridge the gap between space biology and terrestrial health applications.
Currently, she is involved in innovative projects aimed at understanding how space conditions affect aging processes, with a focus on translating these findings into practical solutions for health challenges both in space and on Earth.
The themes in today’s episode are just the beginning. Dive deeper into innovation, interconnected thinking, and paradigm-shifting ideas at www.projectmoonhut.org—where the future is being built.
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By David Goldsmith
4.3
66 ratings
In This Episode
Join us as we explore the fascinating intersection of space research and biology with our guest, Dr. Sonya Schrepfer, a scientific co-founder of Sonya Biotechnology and an adjunct professor at UCSF. With her extensive background in surgery and stem cell immunology, Dr. Schrepfer shares groundbreaking insights on how space conditions can accelerate aging in living organisms.
Throughout the conversation, Dr. Schrepfer reveals key insights, including the critical role of stem cells in healing and regeneration, particularly in the context of long-duration spaceflight. She discusses how spaceflight serves as a model for understanding aging processes on Earth, highlighting the implications for both astronauts and terrestrial medicine.
The discussion takes unexpected turns as Dr. Schrepfer addresses the immune system's impact on aging and wound healing in space, emphasizing the need for further research to unlock potential solutions for health challenges faced by astronauts and patients on Earth alike. The episode ultimately connects these scientific inquiries to broader societal implications, showcasing the infinite possibilities that arise from understanding biology in extreme environments.
Episode Outlines
Biography of the Guest
Dr. Sonya Schrepfer is a scientific co-founder of Sonya Biotechnology and an adjunct professor at UCSF, specializing in surgery and stem cell immunology. With a rich academic background, she founded a transplant and stem cell immunobiology lab at Stanford University.
Dr. Schrepfer's significant career achievements include pioneering research on the effects of microgravity on biological systems and contributing to advancements in regenerative medicine. She has authored numerous publications that bridge the gap between space biology and terrestrial health applications.
Currently, she is involved in innovative projects aimed at understanding how space conditions affect aging processes, with a focus on translating these findings into practical solutions for health challenges both in space and on Earth.
The themes in today’s episode are just the beginning. Dive deeper into innovation, interconnected thinking, and paradigm-shifting ideas at www.projectmoonhut.org—where the future is being built.