90. NeuroNudge: The Science Behind Brain Manipulation with Dr. Guosong Hong
The Convergence - An Army Mad Scientist Podcast - A podcast by The Army Mad Scientist Initiative - Joi
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[Editor’s Note: Regular readers of the Mad Scientist Laboratory are familiar with the potentially disruptive effects of cognitive and neurowarfare. As guest blogger Robert McCreight observed, “Most non-kinetic threats — or the NKT spectrum — consist of silent, largely undetectable technologies capable of inflicting damaging, debilitating, and degrading physical and neural effects on its unwitting targets… A determined and patient covert enemy can inflict strategic damage non-kinetically before we can recognize the attack, resist it, or recover from it.” Overmatch in the Land, Air, Sea, Space, and Cyber Domains is irrelevant if our adversaries can harness and unleash capabilities that manipulate the brains of our Leaders. In our latest episode of The Convergence podcast, we sit down with Dr. Guosong Hong, Assistant Professor of Materials Science and Engineering at Stanford University, to explore emergent research behind one such NKT — brain manipulation. Dr. Hong discusses neuro-engineering tools, controlling brains from a distance, and how the Army might one day need to protect our Soldiers and Leaders against mind control — Read on!] Dr. Guosong Hong is Assistant Professor of Materials Science and Engineering at Stanford University. His research aims to bridge materials science and neuroscience, and blur the distinction between the living and non-living worlds by developing novel neuro-engineering tools to interrogate and manipulate the brain. Specifically, the Hong lab is currently developing ultrasound, infrared, and radiofrequency-based in-vivo neural interfaces with minimal invasiveness, high spatiotemporal resolution, and cell-type specificity. Dr. Guosong Hong received his PhD in chemistry from Stanford University in 2014, and then carried out postdoctoral studies at Harvard University. Dr. Hong joined Stanford Materials Science and Engineering and Neurosciences Institute as an assistant professor in 2018. He is a recipient of the NIH Pathway to Independence (K99/R00) Award, the MIT Technology Review ‘35 Innovators Under 35’ Award, the Science PINS Prize for Neuromodulation, the NSF CAREER Award, the Walter J. Gores Award for Excellence in Teaching, and the Rita Allen Foundation Scholars Award. Army Mad Scientist sat down with Dr. Hong to discuss neuro-engineering tools, controlling brains from a distance, and how the Army might one day need to protect Soldiers against mind control. The following bullet points highlight key insights from our conversation: During Dr. Hong’s pursuit of his PhD at Stanford University, he createda method using short wave infrared light to non-invasively observe rodent brains without removing the scalp and skull, which was traditionally necessary. During his post-doctoral studies, he created ultra-small devices that can be loaded into a syringe and injected directly into the subject’s brain to stimulate and observe neural activity. As a faculty member at Stanford, Dr. Hong developed nano particles to inject into the bloodstream which convert ultrasound into local light emission. This allows for optogenetic