哈佛大学Guosong Hong博士7月31日下午学术报告
发布时间:2018-07-25 点击:139

报告人: Dr. GuosongHong, Harvard University

报告题目:New Windows to Understanding the Brain: From Non-Invasive Optical Brain Imaging Through Intact Scalp to Stable Long-Term Brain Mapping at the Single-Neuron Level

报告时间:3:00 PM, July 31st (Tuesday)



A major challenge in understanding the brain is the spatiotemporal dilemma of neuroengineering: many important brain functions and cognitive processes occur in multiple regions and depths of the whole brain over months and years, but involve cellular electrophysiological changes that have to be quantified on the millisecond and micrometer scales of individual neurons. In this seminar, I will present two strategies to address this major challenge in neuroengineering: First, in the Dai lab at Stanford, we developed a new fluorescence-based in-vivo deep-tissue imaging technique by collecting photons in a previously unexplored sub-region of the optical spectrum, the second near-infrared window (NIR-II window, 1,000-1,700 nm) that offers balanced tissue scattering and absorption. In-vivo NIR-II cerebrovasculature imaging in live mouse brain allows visualization of sub-10 μm cerebral vessels through intact scalp and skull and quantification of fast cerebral hemodynamics to detect onset of stroke. Second, in the Lieber lab at Harvard, we have achieved stable long-term in-vivo brain and retina mapping at the single-neuron level using syringe-injectable mesh electronics. Tissue-like mesh electronics blurs the distinction between biological and electronic systems by forming gliosis-free and 3D interpenetrated electronic and neuronal networks, enabling chronically stable tracking of the same individual neurons over >8 months. Both efforts have opened up new windows to understanding the brain with greatly expanded spatiotemporal ranges to achieve long-term interrogation and manipulation of the brain.


Dr. Guosong Hong obtained his B.S. in chemistry from Peking University in Beijing, China in 2008. He then carried out graduate studies with Prof. Hongjie Dai at Stanford University, where his research focused on the development of in-vivo second near-infrared (NIR-II) fluorescence imaging using biocompatible fluorophores such as carbon nanotubes, quantum dots, conjugated polymers and small organic molecules with long-wavelength emissions in the 1,000-1,700 nm NIR-II window. Upon receiving his Ph.D. in chemistry in 2014, Dr. Hong began postdoctoral studies with Prof. Charles M. Lieber at Harvard University, where he has been working on the development and application of syringe-injectable mesh electronics for stable long-term in-vivo electrophysiology at single-neuron resolution in rodent and primate brain and retina for understanding neural circuit evolution involved in visual perception, learning/memory, and neurodegeneration during aging. Dr. Hong has received recognitions such as the Stanford Graduate Fellowship, William S. Johnson Graduate Fellowship, Materials Research Society (MRS) Graduate Student Award, the International Union of Pure and Applied Chemistry (IUPAC) Honorable Mention Award for Young Chemists and the American Heart Association Postdoctoral Fellowship. He is currently supported by the NIH Pathway to Independence Award (K99/R00). He will join the faculty of Stanford Department of Materials Science and Engineering and Stanford Neurosciences Institute in September 2018.

Contact: Prof. Zhuang Liu


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