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#neuronal — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #neuronal, aggregated by home.social.

  1. 🧠 New paper by Cooper et al., who introduce a method to trace #astrocyte #gapjunction networks in vivo and show that astrocytes form selective, plastic networks linking specific #brain regions rather than one diffuse brain-wide syncytium. These networks can span long distances, differ from known #neuronal projections, and reorganize after sensory deprivation:

    📄 nature.com/articles/s41586-026

    #Neuroscience #BrainConnectivity

  2. 🧠 New paper by Cooper et al., who introduce a method to trace #astrocyte #gapjunction networks in vivo and show that astrocytes form selective, plastic networks linking specific #brain regions rather than one diffuse brain-wide syncytium. These networks can span long distances, differ from known #neuronal projections, and reorganize after sensory deprivation:

    📄 nature.com/articles/s41586-026

    #Neuroscience #BrainConnectivity

  3. 🧠 New paper by Cooper et al., who introduce a method to trace #astrocyte #gapjunction networks in vivo and show that astrocytes form selective, plastic networks linking specific #brain regions rather than one diffuse brain-wide syncytium. These networks can span long distances, differ from known #neuronal projections, and reorganize after sensory deprivation:

    📄 nature.com/articles/s41586-026

    #Neuroscience #BrainConnectivity

  4. 🧠 New paper by Cooper et al., who introduce a method to trace #astrocyte #gapjunction networks in vivo and show that astrocytes form selective, plastic networks linking specific #brain regions rather than one diffuse brain-wide syncytium. These networks can span long distances, differ from known #neuronal projections, and reorganize after sensory deprivation:

    📄 nature.com/articles/s41586-026

    #Neuroscience #BrainConnectivity

  5. 🧠 New paper by Cooper et al., who introduce a method to trace #astrocyte #gapjunction networks in vivo and show that astrocytes form selective, plastic networks linking specific #brain regions rather than one diffuse brain-wide syncytium. These networks can span long distances, differ from known #neuronal projections, and reorganize after sensory deprivation:

    📄 nature.com/articles/s41586-026

    #Neuroscience #BrainConnectivity

  6. `We report that plasma concentrations of ubiquitin C-terminal hydrolase-L1 (UCH-L1) and neurofilament light (NfL) become exponentially higher from ages 2 to 85 in cross-sectional samples, serving as neuronal death/damage biomarkers across the lifespan.`

    cell.com/cell-reports-medicine

    #biomarker #lifespan #aging #biology #ubiquitin #apoptosis #neuron #neuronal #neuroscience #neurodegeneration #disease #brain

  7. `We report that plasma concentrations of ubiquitin C-terminal hydrolase-L1 (UCH-L1) and neurofilament light (NfL) become exponentially higher from ages 2 to 85 in cross-sectional samples, serving as neuronal death/damage biomarkers across the lifespan.`

    cell.com/cell-reports-medicine

    #biomarker #lifespan #aging #biology #ubiquitin #apoptosis #neuron #neuronal #neuroscience #neurodegeneration #disease #brain

  8. `We report that plasma concentrations of ubiquitin C-terminal hydrolase-L1 (UCH-L1) and neurofilament light (NfL) become exponentially higher from ages 2 to 85 in cross-sectional samples, serving as neuronal death/damage biomarkers across the lifespan.`

    cell.com/cell-reports-medicine

    #biomarker #lifespan #aging #biology #ubiquitin #apoptosis #neuron #neuronal #neuroscience #neurodegeneration #disease #brain

  9. `We report that plasma concentrations of ubiquitin C-terminal hydrolase-L1 (UCH-L1) and neurofilament light (NfL) become exponentially higher from ages 2 to 85 in cross-sectional samples, serving as neuronal death/damage biomarkers across the lifespan.`

    cell.com/cell-reports-medicine

    #biomarker #lifespan #aging #biology #ubiquitin #apoptosis #neuron #neuronal #neuroscience #neurodegeneration #disease #brain

  10. `We report that plasma concentrations of ubiquitin C-terminal hydrolase-L1 (UCH-L1) and neurofilament light (NfL) become exponentially higher from ages 2 to 85 in cross-sectional samples, serving as neuronal death/damage biomarkers across the lifespan.`

    cell.com/cell-reports-medicine

    #biomarker #lifespan #aging #biology #ubiquitin #apoptosis #neuron #neuronal #neuroscience #neurodegeneration #disease #brain

  11. #Autism, #Neurology, and the Idea of #Cognitive Symmetry

    Chris in TX presents "cognitive symmetry," linking #neuronal functions to #spirituality and group dynamics. Ben notes the speculation crosses neurology and #psychology, needing more evidence before scaling mechanisms to #consciousness. Richard recommends authors (Antonio Damasio, Dean Burnett) to help formalize his ideas.

    youtube.com/watch?v=SPl3_y81AL0

    #atheist #atheism #health #science

  12. Evidence challenging the long-held assumption that #neuronal function in the #brain is solely powered by sugars has given researchers new hope of treating debilitating brain disorders.
    #Biomolecular #Biomedical #Neuroscience #sflorg
    sflorg.com/2025/10/bmol1001250

  13. 🧠 New pre-print by Wiesner et al. (2025) shows non-#synaptic #exocytosis directly from the #axon shaft, regulated by the submembrane periodic skeleton. Using #superresolution #imaging and live assays (#HiLo (VAMP2-pHluorin), #SIM, and correlative two-color #SMLM/ #STORM) they reveal that #axons can release vesicles outside classical #synapses, expanding how we understand #neuronal communication and #AxonalSignaling.

    🌍 doi.org/10.1101/2025.09.17.676

    #Neuroscience

  14. 🧠 New pre-print by Wiesner et al. (2025) shows non-#synaptic #exocytosis directly from the #axon shaft, regulated by the submembrane periodic skeleton. Using #superresolution #imaging and live assays (#HiLo (VAMP2-pHluorin), #SIM, and correlative two-color #SMLM/ #STORM) they reveal that #axons can release vesicles outside classical #synapses, expanding how we understand #neuronal communication and #AxonalSignaling.

    🌍 doi.org/10.1101/2025.09.17.676

    #Neuroscience

  15. 🧠 New pre-print by Wiesner et al. (2025) shows non-#synaptic #exocytosis directly from the #axon shaft, regulated by the submembrane periodic skeleton. Using #superresolution #imaging and live assays (#HiLo (VAMP2-pHluorin), #SIM, and correlative two-color #SMLM/ #STORM) they reveal that #axons can release vesicles outside classical #synapses, expanding how we understand #neuronal communication and #AxonalSignaling.

    🌍 doi.org/10.1101/2025.09.17.676

    #Neuroscience

  16. 🧠 New pre-print by Wiesner et al. (2025) shows non-#synaptic #exocytosis directly from the #axon shaft, regulated by the submembrane periodic skeleton. Using #superresolution #imaging and live assays (#HiLo (VAMP2-pHluorin), #SIM, and correlative two-color #SMLM/ #STORM) they reveal that #axons can release vesicles outside classical #synapses, expanding how we understand #neuronal communication and #AxonalSignaling.

    🌍 doi.org/10.1101/2025.09.17.676

    #Neuroscience

  17. 🧠 New pre-print by Wiesner et al. (2025) shows non-#synaptic #exocytosis directly from the #axon shaft, regulated by the submembrane periodic skeleton. Using #superresolution #imaging and live assays (#HiLo (VAMP2-pHluorin), #SIM, and correlative two-color #SMLM/ #STORM) they reveal that #axons can release vesicles outside classical #synapses, expanding how we understand #neuronal communication and #AxonalSignaling.

    🌍 doi.org/10.1101/2025.09.17.676

    #Neuroscience

  18. LIVE, Dammit Bluesky Blog

    #YESquotes: The #WildRemedy/ Emma Mitchell @silverpebble2.bsky.social - "Simply getting #outside of the house & seeing the blackthorns & lime tree outside our cottage induces a response in me that I can only describe as a #neuronal sigh of relief...simultaneously soothing & curative." bit.ly/4m5fCjk
    bit.ly/4m5fCjk

    LINK: bsky.app/profile/livedammit.bs

    ---------
    LIVEdammit is a mental health support site with stories, tools, free e-course, bookstore & inspiring wearables — for stubborn souls doing the work to stay here, stay human, & stay strong.

    WEBSITE: LIVEdammit.com

    This robot is not affiliated with LIVEdammit.
    --------
    #psychology #counseling #socialwork #psychotherapy @psychotherapist @psychotherapists @psychology @socialpsych @socialwork @psychiatry #mentalhealth #psychiatry #healthcare #depression #psychotherapist #livedammit #suicide

  19. The new Center for Structural and Functional #Connectomics (CSFC) will be established on our #Garching #campus with funding of around €69 million. 👏 Focus lies on the comprehensive mapping & analysis of all #neuronal connections in the brain: go.tum.de/373567

    📷A.Eckert

  20. #Zoomposium with #Sascha #Benjamin #Fink: “The search for the #neuronal #correlate of #consciousness - Part 1”

    Let's go in search of the “holy grail of #neuroscience” to possibly discover “the neural correlate of consciousness”. The complete interview is in two parts and the first part of our “search” can be seen on our YouTube channel “Zoomposium” at the following link: youtu.be/wb3yQXvYITo

    Or more information at: philosophies.de/index.php/2025

  21. #Zoomposium with #Sascha #Benjamin #Fink: “The search for the #neuronal #correlate of #consciousness - Part 1”

    Let's go in search of the “holy grail of #neuroscience” to possibly discover “the neural correlate of consciousness”. The complete interview is in two parts and the first part of our “search” can be seen on our YouTube channel “Zoomposium” at the following link: youtu.be/wb3yQXvYITo

    Or more information at: philosophies.de/index.php/2025

  22. #Zoomposium with Dr. #Patrick #Krauß: Building instructions for #artificial #consciousness

    Transferring the various stages of Damasio's theory of consciousness 1:1 into concrete #schematics for #deep #learning. To this end, strategies such as #feed-forward connections, #recurrent #connections in the form of #reinforcement learning and #unsupervised learning are used to simulate the #biological #processes of the #neuronal #networks.

    More at: philosophies.de/index.php/2023

    or: youtu.be/rXamzyoggCo

  23. #Zoomposium with Dr. #Patrick #Krauß: Building instructions for #artificial #consciousness

    Transferring the various stages of Damasio's theory of consciousness 1:1 into concrete #schematics for #deep #learning. To this end, strategies such as #feed-forward connections, #recurrent #connections in the form of #reinforcement learning and #unsupervised learning are used to simulate the #biological #processes of the #neuronal #networks.

    More at: philosophies.de/index.php/2023

    or: youtu.be/rXamzyoggCo

  24. #Zoomposium with Dr. #Patrick #Krauß: Building instructions for #artificial #consciousness

    Transferring the various stages of Damasio's theory of consciousness 1:1 into concrete #schematics for #deep #learning. To this end, strategies such as #feed-forward connections, #recurrent #connections in the form of #reinforcement learning and #unsupervised learning are used to simulate the #biological #processes of the #neuronal #networks.

    More at: philosophies.de/index.php/2023

    or: youtu.be/rXamzyoggCo

  25. #Zoomposium with Dr. #Patrick #Krauß: Building instructions for #artificial #consciousness

    Transferring the various stages of Damasio's theory of consciousness 1:1 into concrete #schematics for #deep #learning. To this end, strategies such as #feed-forward connections, #recurrent #connections in the form of #reinforcement learning and #unsupervised learning are used to simulate the #biological #processes of the #neuronal #networks.

    More at: philosophies.de/index.php/2023

    or: youtu.be/rXamzyoggCo

  26. `In this work, we investigated the #dendrites of layer 2 and 3 (L2/3) pyramidal #neurons of the human cerebral cortex ex vivo. In these neurons, we discovered a class of #calcium-mediated dendritic action potentials (dCaAPs) whose waveform and effects on #neuronal output have not been previously described. In contrast to typical all-or-none action potentials, dCaAPs were graded; their amplitudes were maximal for threshold-level stimuli but dampened for stronger stimuli`

    science.org/doi/10.1126/scienc

  27. Hinter Anwendungen künstlicher Intelligenz stecken oft Sprachmodelle. Wie diese funktionieren und welche Tücken sie mit sich bringen, erläutert Hans-Peter Stricker. Eine Rezension

    Was künstliche Intelligenz mit Hilfe von Sprachmodellen leistet und wo sie dabei an Grenzen stößt, erklärt Hans-Peter Stricker. Eine Rezension (Rezension zu Sprachmodelle verstehen von Hans-Peter Stricker)#KünstlicheIntelligenz #Sprachmodell #LargeLanguageModels #KI #AI #GPT #ChatGPT #neuronal #Netze #BigData #Transformer #Prompt #Trainingsdaten #ITTech #Kultur #Mathematik #PsychologieHirnforschung
    »Sprachmodelle verstehen«: Wenn aus Daten Sprache wird

  28. A really nice review just out on the epigenetic bases of brain ageing and how modulating epigenetics may hold therapeutic potential for treating age-related disorders.

    doi.org/10.1038/s44318-024-001

  29. Due to its computational efficiency and biological plausibility, the #IzhikevichModel is an exceptional tool for understanding #neuronal interactions within #SpikingNeuralNetworks (#SNN). Here’s a quick #Python implementation of Izhikevich's original #Matlab code along with examples using different synaptic weights and neuron types, each leading to diverse spiking behaviors and network dynamics:

    🌍fabriziomusacchio.com/posts/iz

    #CompNeuro #Neuroscience #ComputationalScience #NeuralNetworks #modeling

  30. "We show that migrating #neurons in mice possess a growth cone at the tip of their leading process, similar to that of #axons, in terms of the #cytoskeletal dynamics and functional responsivity through protein tyrosine #phosphatase receptor type sigma (PTPσ). Migrating-neuron growth cones respond to chondroitin sulfate (CS) through PTPσ and collapse, which leads to inhibition of #neuronal migration."

    nature.com/articles/s41467-024

  31. "Extending our model to include #neuronal activity and #Hebbian plasticity, we find that clustering in the network also emerges naturally. We confirm these predictions in the #connectomes of several animals, suggesting that heavy-tailed and clustered #connectivity may arise from general principles of #network self-organization rather than mechanisms specific to individual species or systems"

    nature.com/articles/s41567-023