Zurich Brain Research Institute

The Brain Research Institute (“Hifo”) is a neuroscience research center in the medical faculty of the University of Zurich.

The four laboratories on neural circuit dynamics, neural plasticity, neuroepigenetics, and neural regeneration and repair focus on basic research topics ranging from molecular and cellular processes to network functions in the nervous system. The main areas of investigation concern the ability of the central nervous system to learn new information and to regenerate after injury, the mechanisms underlying synaptic transmission, plasticity and synapses formation.

Stanford Neurosciences Institute

The goal of the Stanford Neurosciences Institute is to understand how the brain gives rise to mental life and behavior.

The Institute’s interdisciplinary community of scholars will draw from a multiplicity of disciplines, including neuroscience, medicine, education, law and business. Their discoveries aim to remodel understanding of brain function, individuals, and society, enabling positive change and enhancing human potential. Current research themes: The Changing Brain, Cracking the Neural Code, Enhancing the Brain, Understanding Thought, and How We Learn.

Pierre and Marie Curie University

Pierre and Marie Curie University (UPMC) has more than 5,000 researchers and professors working in 100 laboratories across four divisions: Modeling & Engineering; Energy, Matter & the Universe; Living Earth & Environment; Life & Health.

The research ranges from fundamental to applied, with the aim to push the boundaries of knowledge and to explore major issues of sustainable development that preoccupy our society in the twenty-first century, including health, climate change, water, biodiversity, energy, and communications.

Yale Neuroscience

Yale University’s neuroscience research and academic programs are located in the Faculty of Arts and Science and the School of Medicine.

The interdisciplinary research programs of Yale neuroscience faculty are central to Yale’s Interdepartmental Neuroscience Program (INP). Other major groups are the Kavli Institute for Neuroscience which awards grants to Yale faculty to support new research initiatives and the Center for Neuroscience and Regenerative Research which is dedicated to molecular and cell-based discoveries.

Cornell University

Neuroscience at Cornell University, Ithaca campus, emphasizes an integrated and interdisciplinary approach. The Program in Neuroscience spans several graduate fields and includes faculty affiliated with many departments.

Faculty researcg encompasses neuroscience from human cognition to biophysics, including diverse experimental and computational approaches using a variety of model organisms. Graduate students acquire expertise in their primary disciplines while cultivating a broader understanding of the bigger picture.

MIT Neuroscience

MIT has numerous academic and research programs related to neuroscience. Key institutions include the Department of Brain and Cognitive Sciences, Department of Biological Engineering, and the MIT Media Lab.

Important neuroscience related centers include: Center for Neurobiological Engineering (CNBE); McGovern Institute Neurotechnology (MINT) program; Simons Center for the Social Brain (SCSB); Synthetic Biology Center;Picower Center for Learning and Memory; and the Martinos Imaging Center at MIT.

Helen Wills Neuroscience Institute

The Helen Wills Neuroscience Institute (HWNI) at UC Berkeley is an active, collaborative research community that investigates fundamental questions about how the brain functions.

Using approaches from many disciplines (including biophysics, chemistry, cognitive science, computer science, genetics, mathematics, molecular and cell biology, physics, and physiology), HWNI seeks to understand how the brain generates behavior and cognition, and to better understand, diagnose and treat neurological disorders.

Gray Matter Research

Gray Matter Research focuses on Microdrive Systems and Recording Chamber Systems. For the BRAIN Initiative, Goodell and his colleagues aim to develop optrodes, which are implantable columns of lights and wires for simultaneous electrical recording of neurons and delivery of light flashes to multiple brain areas.

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