#CNSGrants | We are thrilled to announce that Corundum Neuroscience has awarded a research grant to Professor Yuval Nir at Tel Aviv University! Prof. Nir’s pioneering research will investigate the use of machine learning for the non-invasive detection of dementia associated-brain activity during sleep. "There is currently no objective tool available with the necessary sensitivity to non-invasively detect and quantify the brain activity signatures we are investigating," says Prof. Nir. "Our aim is to combine research on brain activity during sleep with machine learning, laying the groundwork for the measurement of abnormal brain states in dementia during sleep and, ultimately, to validate biomarkers for a wide range of neurological disorders." "We are at a unique time in neuroscience, in which our understanding of the brain from a cellular to a systems level is both contributing to and benefitting from the revolution in AI," notes CNS' Chief Scientist, Joshua Schulman, PhD. "This project represents that synthesis and is part of Corundum's long-term strategy to support research that serves as the basis for innovative approaches to brain health." 🔗 Learn more about the project here >> https://lnkd.in/dkkmGUPe Ramot - Tel Aviv University's Tech Transfer Company Sagol School of Neuroscience, Tel Aviv University #Neuroscience #ResearchGrant #Sleep #Dementia #ResearchFunding
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Ever wondered why our brains are so wrinkly? New research reveals a key player in brain development. Read on to unravel the mystery! 🧠🔍 Have you ever looked at a walnut and thought, "Hey, that looks kinda like my brain!"? Well, you're not far off! The wrinkles and folds in our brains, known as gyri and sulci, are essential for our complex cognitive abilities. But how do they form? A groundbreaking study published in Nature Communications sheds light on this intricate process. Researchers discovered that a protein called Cux2 and epigenetic marks (chemical tags on DNA) play a crucial role in brain folding. Cux2 acts as a master conductor, orchestrating the expression of thousands of genes that shape the brain's structure. Why is this research important? Understanding brain development: This study unravels a key mechanism behind the formation of gyri and sulci, advancing our knowledge of how the brain develops. Potential for treating brain malformations: By identifying the factors involved in brain folding, scientists may pave the way for new therapies for conditions like lissencephaly (smooth brain syndrome). Unraveling the mysteries of the mind: Understanding how the brain's structure influences its function could lead to breakthroughs in cognitive neuroscience. What's next? This research opens up exciting new avenues for exploration. Scientists can now delve deeper into the role of Cux2 and epigenetic marks in brain development, investigate their impact on cognitive function, and explore potential therapeutic applications. The future of brain research looks bright! #neuroscience #brainresearch #epigenetics #brainhealth #cognitivedevelopment #science #research #discovery #brainfacts #biology #genetics #neurology #medicalresearch #healthcare #innovation #sciencecommunication #stem #education #curiosity #knowledge
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Foundation Professor and Chair, Head of Teaching and Research in Physiology, University of Limerick School of Medicine, Limerick. Ireland.
By super cooling a molecule on the surface of brain cells down to about minus 180 degrees Celsius—nearly twice as cold as the coldest places in Antarctica—scientists say they have determined how a widely-used epilepsy drug works to dampen the excitability of brain cells and help to control, although not cure, seizures. This study and more in the weekly roundup of #neuroscience #research
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The global cognitive neuroscience market is projected CAGR of 4.6% from 2021 to 2031. This surge is driven by the rising prevalence of neurological conditions like Alzheimer's disease, Parkinson's disease, and various dementias. This expanding market underscores the critical need for advanced research tools to understand, diagnose, and treat these complex brain disorders. Neuphony is proud to contribute to this vital field with our innovative EEG flex cap, specifically designed to address key challenges in cognitive neuroscience research. Our EEG flex cap offers researchers a powerful and user-friendly solution for cognitive neuroscience studies. It tackles several limitations often encountered in EEG research with the following advancements: – Multi-channel acquisition: The flex cap boasts 8 dedicated channels and strategically placed dry electrodes – Superior signal quality: Dry sensor technology eliminates the need for messy gels that can impede data quality – Enhanced user comfort: The flexible design and dry electrodes prioritize participant well-being By combining these features, Neuphony's EEG flex cap empowers cognitive neuroscientists to delve deeper into the complexities of the human brain. Do share your thoughts in the comments below. #mentalhealth #health #research #neuroscience
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What’s Happening Wednesday: more research supporting the idea that electrical fields generated by huge numbers of synchronized individual neurons may be more important for understanding how the brain functions than the chemical mechanisms of the individual neurons. This article states, “This suggests that there are other ways in which the waves are communicated than through chemical synapses, which are relatively slow.” Ephaptic coupling is a possible explanation. Ephaptic coupling is a means by which the local electrical fields generated by individual neurons (dipoles) influence the excitability of adjacent neurons and contribute to synchronous firing. The more synchronous the firing of clusters of neurons is, the higher the amplitude measured on an EEG as the neurons are now in phase. EEG and neurofeedback has been relegated to the dungeons of neuroscience for years as neurochemical mechanisms and pharmaceuticals have dominated. But the latest advances in neuroscience continue to point to the electromagnetic nature of the brain as a key to filling in the gaps in our understanding. The whole is always greater than the sum of its parts and the summative activity of local field potentials in the brain offer clues into its higher level meta activity beyond the chemical activity of its tissues. #neuroscience #neurofeedback #eeg
Psychedelics Sync Neurons: A Glimpse into Consciousness & Psychosis - Neuroscience News
https://neurosciencenews.com
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the pro neural program and photobiomodulation🌟 Exciting News in Neuroscience and Photobiomodulation! 🌟 I am thrilled to share with my LinkedIn network an incredible program called ProNeuro, which combines the power of neuroscience with the cutting-edge technique of photobiomodulation. This groundbreaking program has the potential to revolutionize the field of brain health and cognitive enhancement. So, what exactly is ProNeuro? It is a comprehensive whole body training program that utilizes the therapeutic effects of photobiomodulation, also known as low-level light therapy. By combining these two powerful approaches, ProNeuro aims to optimize brain function, enhance cognitive performance, and improve overall wellness. Photobiomodulation involves the use of specific wavelengths of light to stimulate cellular activity and promote healing in the brain. It has been scientifically proven to have a range of benefits, including increased blood flow, reduced inflammation, enhanced neural connectivity, and improved neuroplasticity. By harnessing the power of light, ProNeuro aims to unlock the full potential of our brain's capabilities. The ProNeuro program offers a personalized and holistic approach to brain health. Through neurofeedback training, individuals can gain a deeper understanding of their brain's functioning and learn techniques to optimize their mental performance. This program can be particularly beneficial for individuals looking to improve focus, memory, creativity, and overall cognitive function. Moreover, ProNeuro is not limited to enhancing cognitive abilities. It also holds promise in the field of mental health and neurorehabilitation. It has shown great potential in treating conditions such as anxiety, depression, traumatic brain injuries, and neurodegenerative diseases. As a professional in the field of neuroscience, I am thrilled to see such innovative advancements that have the potential to positively impact countless lives. The ProNeuro program's integration of photobiomodulation with neurofeedback training opens up new possibilities for brain health and cognitive enhancement. I encourage all my connections to explore the ProNeuro program further and discover the immense potential it holds. Together, let's spread the word about this groundbreaking approach that combines neuroscience and photobiomodulation to unlock our brain's full potential. #ProNeuro #Photobiomodulation #BrainHealth #CognitiveEnhancement #Neuroscience #Innovation
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National Academy of Medicine Change Maker NC Art Educator of the Year, Emeritus Division, Designer of 56 Hearts Project, Joy of Creativity Project, and 43 Trees Project. Now creating: Guests and Duets 2024 Series
This is interesting. I wonder how stress induced forgetfulness and trauma stored in non- language areas factor in? Looking forward to learning more!
Duke researchers are providing fresh insights on how our brains remember. Based on brain images and memory tests, the Duke study, published in the Journal of Neuroscience, uncovers a finely tuned memory dance orchestrated by the hippocampus. Understanding cortical-hippocampal communication is crucial for addressing memory decline, such as in Alzheimer’s disease. The study reveals the intricate interplay shaping memory processes. "What is exciting about this study is that it shows that the details supporting memory processes are fundamentally driven by the interaction between the hippocampus and the cortex, but not by each region independently,” said senior author of the study Simon W. Davis, PhD, an assistant professor in the Duke Department of Neurology and a member of the Center for Cognitive Neuroscience. #Neuroscience #MemoryResearch #BrainHealth https://lnkd.in/gyEnEW-J
Hippocampus Takes the Lead in Brain's Memory Dance
medschool.duke.edu
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In a recent study published in Nature Human Behaviour led by Josh Jacobs at Columbia University, monitored neural activity in 93 individuals recalling and forming memories. They discovered a previously unrecognized brainwave phenomenon called traveling waves, which move across the brain's cortex in various directions during memory tasks. The direction of these waves correlates with #memory processes: moving from back to front during encoding and front to back during recall. This dynamic understanding of #brainwaves challenges previous notions of static brain activity and opens avenues for predicting behavior and developing diagnostic and therapeutic tools for memory-related disorders. The study also hints at understanding other cognitive functions beyond memory. #brainwaves #cognitive #neuroscience Link: https://lnkd.in/euVjFEeV Link to original study in comments.
Brain waves travel in one direction when memories are made and the opposite when recalled
eurekalert.org
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🧠 How Our Brain Deciphers Gaze Direction Source: University of Geneva By Neuroscience News 🔷 A new study reveals the precise moment the hashtag #brain detects gaze direction, enhancing our understanding of hashtag #social hashtag #interactions and disorders like hashtag #autism and hashtag #Alzheimer’s. Researchers used EEG and machine learning to analyze brain activity when participants viewed avatars with varying head and eye directions. 🔷 They found hashtag #brain first processes hashtag #head hashtag #orientation before eye direction, with task context influencing gaze perception accuracy. This breakthrough could aid early diagnosis and treatment of hashtag #autism and hashtag #Alzheimer’s. Key Facts: 🔹Hierarchical Processing: Brain first detects hashtag #head hashtag #orientation at 20ms, then hashtag #eye hashtag #direction at 140ms. 🔹Task Influence: Accuracy in detecting gaze direction improves when attention is focused on the gaze. 🔹Diagnostic Potential: Findings may aid hashtag #early hashtag #diagnosis and treatment for autism an Alzheimer’s 👉https://lnkd.in/e3XsBPd7 hashtag #neuroscience hashtag #visualneuroscience hashtag #neurotech hashtag #eeg hashtag #vision hashtag #healthtech hashtag #digitalhealth hashtag #healthcare hashtag #futureofhealth Photo credit: Neuroscience News
🧠 How Our Brain Deciphers Gaze Direction Source: University of Geneva By Neuroscience News 🔷 A new study reveals the precise moment the #brain detects gaze direction, enhancing our understanding of #social #interactions and disorders like #autism and #Alzheimer’s. Researchers used EEG and machine learning to analyze brain activity when participants viewed avatars with varying head and eye directions. 🔷 They found #brain first processes #head #orientation before eye direction, with task context influencing gaze perception accuracy. This breakthrough could aid early diagnosis and treatment of #autism and #Alzheimer’s. Key Facts: 🔹Hierarchical Processing: Brain first detects #head #orientation at 20ms, then #eye #direction at 140ms. 🔹Task Influence: Accuracy in detecting gaze direction improves when attention is focused on the gaze. 🔹Diagnostic Potential: Findings may aid #early #diagnosis and treatment for autism an Alzheimer’s 👉https://lnkd.in/e3XsBPd7 #neuroscience #visualneuroscience #neurotech #eeg #vision #healthtech #digitalhealth #healthcare #futureofhealth Photo credit: Neuroscience News
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