Bioelectric networks as targets for regenerative medicine.
John Hopfield, one of this year’s winners of the Nobel Prize in Physics, is a true polymath.
John Hopfield has had a varied career and delights in working in the cracks between disciplines.
An exploration of the unsettling possibility we live in a universe of ancient galactic wars, ruins, relics, and leftover war machines scattered across the cosmos.
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Dr. Alexander Rosenberg is the R. Taylor Cole Professor of Philosophy at Duke University. He has been a visiting professor and fellow at the Center for the Philosophy of Science, at the University of Minnesota, as well as the University of California, Santa Cruz, and Oxford University, and a visiting fellow of the Philosophy Department at the Research School of Social Science, of the Australian National University. In 2016 he was the Benjamin Meaker Visiting Professor at the University of Bristol. He has held fellowships from the National Science Foundation, the American Council of Learned Societies, and the John Simon Guggenheim Foundation. In 1993, Dr. Rosenberg received the Lakatos Award in the philosophy of science. In 2006–2007 he held a fellowship at the National Humanities Center. He was also the Phi Beta Kappa-Romanell Lecturer for 2006–2007. He’s the author of both fictional and non-fictional literature, including The Atheist’s Guide to Reality, The Girl from Krakow, and How History Gets Things Wrong.
In this episode, we focus on Dr. Rosenberg’s most recent book, How History Gets Things Wrong, and also a little bit on some of the topics of The Atheist’s Guide to Reality. We talk about the theory of mind, and how it evolved; the errors with narrative History, and the negative consequences it might produce; mind-brain dualism; what neuroscience tells us about how our brain and cognition operate; social science, biology, and evolution; the role that evolutionary game theory can play in explaining historical events and social phenomena; why beliefs, motivations, desires, and other mental constructs might not exist at all, and the implications for moral philosophy; if AI could develop these same illusions; and nihilism.
Time Links:
“This research marks the first time that we have been able to identify a specific chemical change that is unique to the development of Huntington’s disease, which opens the possibility of developing new tests to study the early changes of the disease before irreversible damage occurs.”
U.K. and German researchers are hopeful that their discovery of a key biochemical change involved in the development of Huntington’s disease could lead to its early detection and treatment.
Alzheimer’s disease, fronto temporal dementia and progressive supra nuclear palsy. Using this study design, the investigators found four genes that marked vulnerable neurons across all three disorders, highlighting pathways that could be used to develop new therapeutic approaches.
The discovery of genes that marked vulnerable neurons could open options for therapeutic approaches.
New Research Suggests Various Parts Of The Brain Work Together To Come Up With Creative Ideas, Not Just One Specific Region
Posted in biotech/medical, health, neuroscience | Leave a Comment on New Research Suggests Various Parts Of The Brain Work Together To Come Up With Creative Ideas, Not Just One Specific Region
At some point in your life, you must’ve experienced a lightbulb moment when an amazing idea just popped into your head out of nowhere. But what is your brain doing during these brief periods of creativity?
Researchers from the University of Utah Health and Baylor College of Medicine looked into the origin of creative thinking in the brain. They found that different parts of the brain work together to produce creative ideas, not just one particular area.
“Unlike motor function or vision, they’re not dependent on one specific location in the brain,” Ben Shofty, the senior author of the study and an assistant professor of neurosurgery at the Spencer Fox Eccles School of Medicine, said. “There’s not a creativity cortex.”
Few drugs are available to treat heavy metals that enter the body, either from lead poisoning or nuclear fallout. A UC Berkeley startup hopes to change that.