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Results for "Neuron analysis"

Groundbreaking study improves understanding of brain function

KAUST ·

KAUST researchers collaborated with the Blue Brain Project to study astrocytes, brain cells crucial for memory and learning. Dr. Corrado Calì produced 3D models of astrocytes using serial block-face electron microscopy to understand their structure. The study, published in Progress in Neurobiology, reveals how lactate transfer from astrocytes to neurons contributes to brain energy usage. Why it matters: Understanding astrocyte function could lead to new drugs for treating conditions like stroke and Alzheimer's disease by improving brain cell function.

Peeking inside the brain

KAUST ·

KAUST Discovery highlights the contributions of Magistretti to the field of neuroenergetics. His research explores the cellular and molecular basis of brain energy metabolism and brain imaging. Magistretti's group discovered mechanisms underlying the coupling between neuronal activity and energy consumption, revealing the role of astrocytes. Why it matters: Understanding brain energy metabolism and the role of glial cells can advance brain imaging techniques and our understanding of neuronal processes.

KAUST researcher Corrado Calì awarded at Italian neuroscience conference

KAUST ·

KAUST researcher Corrado Calì won an award at the Brainstorming Research Assembly for Young Neuroscientists (BraYn) in Italy for his work on glycogen modulation and synapse stabilization. Calì presented research in collaboration with KAUST Professor Andrea Falqui and Dr. Elena Vezzoli from the University of Milan, investigating the lactate shuttle's involvement in synaptic plasticity. Calì and KAUST colleagues are also collaborating with the Blue Brain Project to produce a computer simulation of astrocyte-neuron coupling, using 3D virtual reality to investigate brain cell morphologies at the nanoscale. Why it matters: This award recognizes KAUST's contribution to neuroscience research and highlights the university's collaborative efforts in understanding brain plasticity and developing advanced tools for studying brain structures.

The forgotten half of the brain

KAUST ·

Dr. Yves Agid from the ICM Paris Institute of Translational Neuroscience lectured at KAUST's 2018 Winter Enrichment Program about the role of glial cells in brain function and behavior. He highlighted that glial cells, often overlooked in research, are crucial for neural synchronization and overall intelligence. Dysfunction of glial cells can induce pathologies like Alzheimer's and Parkinson's disease. Why it matters: The lecture underscored the importance of studying glial cells in addition to neurons for understanding and treating neurodegenerative disorders, which could influence future research directions at KAUST and in the region.

Exploring brain-energy metabolism

KAUST ·

KAUST researchers are exploring the link between nutrition and brain-energy metabolism to address cognitive decline, dementia, and Alzheimer’s disease. Dr. Pierre Magistretti and Dr. Johannes le Coutre are collaborating on ways to merge brain-energy metabolism research into the field of nutrition. They published an article entitled “Goals in Nutrition Science 2015-2020” in the journal Frontiers in Nutrition. Why it matters: This research could lead to nutritional interventions to hinder or prevent cognitive decline, offering a new approach beyond traditional drug treatments.

Professor Pierre Magistretti elected to Norwegian Academy of Science and Letters

KAUST ·

KAUST professor Pierre Magistretti has been elected to the Norwegian Academy of Science and Letters. His election recognizes his contributions to neuroscience, specifically his work on lactate's role in brain function. Magistretti's research focuses on the lactate shuttle system and how neurons and glial cells cooperate to meet energy demands. Why it matters: This honor highlights KAUST's contribution to international neuroscience and can foster further collaboration in the field.

Using Machine Learning to Study How Brains Process Natural Language

MBZUAI ·

Tom M. Mitchell from Carnegie Mellon University discussed using machine learning to study how the brain processes natural language, using fMRI and MEG to record brain activity while reading text. The research explores neural encodings of word meaning, information flow during word comprehension, and how meanings of words combine in sentences and stories. He also touched on how understanding of the brain aligns with current AI approaches to NLP. Why it matters: This interdisciplinary research could bridge the gap between neuroscience and AI, potentially leading to more human-like NLP models.

KAUST advances global dialogue on brain energy metabolism and neuroscience research

KAUST ·

KAUST hosted the Nature Conferences: Brain Energy Metabolism in Health and Disease, convening experts to discuss brain energy use and its impact on function and disease. Researchers from KAUST and global institutions shared insights on metabolic interactions among brain cells and the brain's role in whole-body energy regulation. KAUST's President Sir Edward Byrne emphasized brain health as essential for the cognitive economy, aligning with Saudi Arabia’s Vision 2030. Why it matters: The conference highlights KAUST's growing role in global neuroscience research and its commitment to addressing critical health challenges through international collaboration.