Can stem cell therapy be the key to stroke recovery? Pardes Habib’s NPIL Neuroimaging Pilot Grant project explores using human neural stem cells (hNSCs) to treat chronic ischemic stroke in rats. This study employs advanced MRI techniques to map microstructural and metabolic changes in the brain. Supported by the Neurosciences Preclinical Imaging Lab (NPIL) at Wu Tsai Neuro, this research aims to identify biomarkers and enhance treatments for future clinical trials. Dive into the research here ?? https://lnkd.in/gmDzmD_u
Wu Tsai Neurosciences Institute
研究服务
Stanford,California 4,797 位关注者
Dedicated to understanding how the brain gives rise to mental life and behavior, in health and in disease.
关于我们
Neuroscience is at an inflection point in its history. New technologies are transforming scientists’ abilities to explore the brain — yielding more detailed images of its cells, more accurate measurements of its activity, and more precise ability to mimic its functions than ever before. With these new approaches have come astounding new insights about the exquisite complexity of the brain. The Wu Tsai Neurosciences Institute is at the forefront of this exploration. Our research community draws from and informs multiple disciplines, including neuroscience, medicine, engineering, psychology, education and law. The discoveries that arise from these collaborations will transform our understanding of the human brain, provide novel treatments for brain disorders, and promote brain health throughout the lifespan. And the creative, cross-disciplinary mindset we foster in our trainees is cultivating the next generation of neuroscience research. The future of neuroscience is profoundly interdisciplinary, and our community includes more than 500 Stanford faculty affiliates, hailing from all 7 Stanford schools and more than 50 departments. We have hired six exceptional interdisciplinary faculty scholars whose work transcends traditional disciplinary boundaries and continue to grow our institute’s faculty. We are Stanford's hub for neuroscience discovery, engineering, and translational health research and welcome researchers of all backgrounds to join us to learn, collaborate, and advance our understanding of the brain. We are cultivating the next generation of interdisciplinary neuroscience leaders. Through our training programs, the Institute supports research fellowships for undergraduates, graduate students and postdoctoral scholars who will be the standard bearer for the future of the field. We believe diversity, inclusion, equity and belonging are essential to the advancement of science and to the development of a vibrant intellectual community.
- 网站
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https://neuroscience.stanford.edu/
Wu Tsai Neurosciences Institute的外部链接
- 所属行业
- 研究服务
- 规模
- 11-50 人
- 总部
- Stanford,California
- 类型
- 教育机构
- 创立
- 2013
- 领域
- Neuroscience、Neurology、Psychiatry、Psychology和Bioengineering
地点
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主要
获取路线
318 Campus Drive
US,California,Stanford,94305
Wu Tsai Neurosciences Institute员工
动态
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Dopamine and serotonin work in opposition, like the accelerator and brakes on a car, to help the brain learn from rewards, according to new research by Robert Malenka and Daniel Cardozo Pinto. This study, published in?Nature Magazine, is part of the NeuroChoice Initiative at the Wu Tsai Neurosciences Institute. It reveals, for the first time, how dopamine and serotonin work together to balance one another's influence to shape behavior. Learn more: https://lnkd.in/gd9ASRcN
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Wu Tsai Neurosciences Institute转发了
Kenneth T. Norris Professor at Stanford & Uytengsu Family Director of Stanford Brain Organogenesis
Deeply honored to receive the Schaller Award in Translational Neuroscience, made even more special by sharing it with the brilliant Professor Maria Pennuto Grateful for all the students, postdocs and staff in the lab who made this work possible. https://lnkd.in/gtGQpwJc
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In the last decade, we’ve set the stage for groundbreaking advances in neuroscience. The technologies and discoveries we’ve developed are primed for the next chapter: unlocking the brain’s secrets and transforming how we understand and treat neurological diseases. Hear from our founding director, Bill Newsome, on why this next chapter matters more than ever in our latest episode: https://lnkd.in/gRKfVNge
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Ketamine, opioids, and the power of placebo—what do they reveal about mental health treatment? In this episode of From Our Neurons to Yours, Boris Heifets and Theresa Lii discuss how ketamine interacts with the brain’s opioid system, raising important questions about the role of hope, expectation, and psychoactive drugs in healing. Listen here: https://lnkd.in/gDQHk-sn
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Wu Tsai Neurosciences Institute转发了
Kenneth T. Norris Professor at Stanford & Uytengsu Family Director of Stanford Brain Organogenesis
Applications are open for our Stanford Brain Organogenesis course in 2025! This has gotten more and more competitive and we generally get many hundreds of applications for the 20 or so spots. Please note that the committee gives a lot of attention to the motivation letter!
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Your brain makes cannabinoids, and we’re only just uncovering why. Neuroscientist Ivan Soltesz shared some eye-opening insights about how this ‘endocannabinoid’ system works. Here are some key takeaways from the podcast conversation: 1?? THC and CBD hijack an ancient brain system that evolved millions of years ago, long before humans ever discovered cannabis. 2?? These natural cannabis-like compounds in the brain (endocannabinoids) appear to fine-tune signaling across the brain, from memory and navigation systems to appetite and mood networks. 3?? Unlike other neurotransmitters, endocannabinoids communicate in reverse, sending ‘bounce-back’ signals from active neurons to quiet their local network of inputs, which Soltesz likened to a “Hush, I’m talking now” signal. 4?? Endocannabinoids are finely tuned, affecting nearby neurons for only a few milliseconds. THC and CBD flood the brain with much larger doses for a longer time, impacting multiple brain systems in ways scientists still don’t fully understand. 5?? New tools are allowing scientists to observe the endocannabinoid system in real-time, opening up an exciting frontier of brain research. Want to learn more? ?? Tune in to the entire episode: https://lnkd.in/gbTgeGdZ #Neuroscience #BrainResearch #BrainScience
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Wu Tsai Neurosciences Institute转发了
In this study by Stanford University School of Medicine and Wu Tsai Neurosciences Institute, Aquabluer Solution was leveraged in research to develop a model of oxidative stress in the human inner ear, which has the potential to be a significant tool for ototoxicity research. #Ototoxicity #StemCellResearch #Neuroscience See Aquabluer on our website here: https://lnkd.in/deStkeM8 https://lnkd.in/exNjUnZH
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With support from the Koret Pilot Grant, Todd Coleman and his team have the opportunity to study how external senses influence our internal bodily signals. The Koret Human Neurosciences Community Lab has supported the team through their research, providing them with the resources needed for their exciting study. #Stanford #Neuroscience #Research
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We're happy to announce that our podcast, From Our Neurons to Yours, has won a Bronze Signal Award in the science category!?Thank you to Signal Awards, our incredible host Nicholas Weiler, and podcast producer Michael Osborne for making this possible. Check out the podcast: https://lnkd.in/eMNVHbMU
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