The complexity of the human brain is unparalleled. Fortunately, thanks to constant progress in neuroscience over the past decades, we have started to make some sense of the human brain. For instance, ...
Synaptic plasticity—the ability of neural connections to adapt in strength and efficacy—is fundamental to learning, memory and emotional regulation. At the molecular level, long-term potentiation (LTP ...
Synaptic plasticity, the ability of synapses to strengthen or weaken over time in response to changes in their activity, is a central foundation of learning and memory. At synapses, presynaptic cells ...
Scientists from the Nencki Institute and the Max Planck Florida Institute for Neuroscience have revealed a key mechanism in how our brains change when we learn new information or form memories. A new ...
Summary: Researchers compiled emerging evidence to prove that astrocytes, traditionally dismissed as passive, structural ...
Q | Write a brief introduction to yourself including the lab you work in and your research background. I am Kishore Kumar S Narasimhan, a neuroscientist passionate about understanding synaptic ...
Original story from the Salk Institute (CA, USA). Scientists use new 3D reconstructions and computer simulations to reveal previously unmeasurable changes in synaptic structure during key learning ...
In December of 1993, former World Boxing Champion John Famechon (who had sustained severe incapacitating brain injuries in August 1991) began a new, complex multi-movement therapy and rehabilitation ...
A groundbreaking peer-reviewed Thought Leaders Invited Review article in Brain Medicine (Genomic Press, New York) explores how CD2-associated protein (CD2AP) contributes to Alzheimer's disease (AD), ...
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