Matthias Nau
@matthiasnau.bsky.social
Cognitive Neuroscientist | Assistant Prof at VU Amsterdam | Active vision, memory, imagery | Multi-task studies, fMRI, eye tracking | https://matthiasnau.com
Reposted by Matthias Nau
Delighted to share our new preprint!
We show that rhythmic light stimulation produces multiplexed oscillatory responses at fundamental and harmonic frequencies that are spatially, temporally, and functionally distinct.
Read on for the details [1/6]
www.biorxiv.org/content/10.1...
#neuroskyence
We show that rhythmic light stimulation produces multiplexed oscillatory responses at fundamental and harmonic frequencies that are spatially, temporally, and functionally distinct.
Read on for the details [1/6]
www.biorxiv.org/content/10.1...
#neuroskyence
Rhythmic light stimulation elicits multiple concurrent neural responses that separably shape human perception
Rhythmic light stimulation offers solutions to innumerable cognitive and neurological disorders. However, like any neuromodulatory technique, responses to rhythmic light stimulation are highly variabl...
www.biorxiv.org
November 7, 2025 at 11:55 AM
Delighted to share our new preprint!
We show that rhythmic light stimulation produces multiplexed oscillatory responses at fundamental and harmonic frequencies that are spatially, temporally, and functionally distinct.
Read on for the details [1/6]
www.biorxiv.org/content/10.1...
#neuroskyence
We show that rhythmic light stimulation produces multiplexed oscillatory responses at fundamental and harmonic frequencies that are spatially, temporally, and functionally distinct.
Read on for the details [1/6]
www.biorxiv.org/content/10.1...
#neuroskyence
What a great figure! What we call “fixation” is really a complex pattern of fixational eye movements, several captured beautifully in this single shot. Love it! 👀 #EyeTracking
www.nature.com/articles/nrn...
www.nature.com/articles/nrn...
November 7, 2025 at 8:50 AM
What a great figure! What we call “fixation” is really a complex pattern of fixational eye movements, several captured beautifully in this single shot. Love it! 👀 #EyeTracking
www.nature.com/articles/nrn...
www.nature.com/articles/nrn...
Reposted by Matthias Nau
This is 🤯
All publicly available. Looks like an amazing new histology-based human probabilistic atlas and parcellation tool.
#neuroskyence #mri #brainmapping
A probabilistic histological atlas of the human brain for MRI segmentation | Nature share.google/5AD0iW7pxgb4...
All publicly available. Looks like an amazing new histology-based human probabilistic atlas and parcellation tool.
#neuroskyence #mri #brainmapping
A probabilistic histological atlas of the human brain for MRI segmentation | Nature share.google/5AD0iW7pxgb4...
A probabilistic histological atlas of the human brain for MRI segmentation - Nature
NextBrain is an open source, probabilistic atlas of the entire human brain, assembled using artificial-intelligence-enabled registration and segmentation methods to reconstruct the multimodal serial h...
share.google
November 6, 2025 at 5:35 AM
This is 🤯
All publicly available. Looks like an amazing new histology-based human probabilistic atlas and parcellation tool.
#neuroskyence #mri #brainmapping
A probabilistic histological atlas of the human brain for MRI segmentation | Nature share.google/5AD0iW7pxgb4...
All publicly available. Looks like an amazing new histology-based human probabilistic atlas and parcellation tool.
#neuroskyence #mri #brainmapping
A probabilistic histological atlas of the human brain for MRI segmentation | Nature share.google/5AD0iW7pxgb4...
Reposted by Matthias Nau
Reposted by Matthias Nau
Please repost! I am looking for a PhD candidate in the area of Computational Cognitive Neuroscience to start in early 2026.
The position is funded as part of the Excellence Cluster "The Adaptive Mind" at @jlugiessen.bsky.social.
Please apply here until Nov 25:
www.uni-giessen.de/de/ueber-uns...
The position is funded as part of the Excellence Cluster "The Adaptive Mind" at @jlugiessen.bsky.social.
Please apply here until Nov 25:
www.uni-giessen.de/de/ueber-uns...
November 4, 2025 at 1:57 PM
Please repost! I am looking for a PhD candidate in the area of Computational Cognitive Neuroscience to start in early 2026.
The position is funded as part of the Excellence Cluster "The Adaptive Mind" at @jlugiessen.bsky.social.
Please apply here until Nov 25:
www.uni-giessen.de/de/ueber-uns...
The position is funded as part of the Excellence Cluster "The Adaptive Mind" at @jlugiessen.bsky.social.
Please apply here until Nov 25:
www.uni-giessen.de/de/ueber-uns...
Reposted by Matthias Nau
A brain injury was reported in a trial using ultrasound, framed as low-intensity TUS. Kim Butts Pauly and I reviewed the case and disagreed with how it's presented. Key acoustic data are missing.
Case: doi.org/10.1016/j.br...
Letters: www.elsa-fouragnan.com/blog | web.stanford.edu/~kimbutts/Le...
Case: doi.org/10.1016/j.br...
Letters: www.elsa-fouragnan.com/blog | web.stanford.edu/~kimbutts/Le...
Brain Injury During Focused Ultrasound Neuromodulation for Substance Use Disorder
www.sciencedirect.com
November 3, 2025 at 11:39 AM
A brain injury was reported in a trial using ultrasound, framed as low-intensity TUS. Kim Butts Pauly and I reviewed the case and disagreed with how it's presented. Key acoustic data are missing.
Case: doi.org/10.1016/j.br...
Letters: www.elsa-fouragnan.com/blog | web.stanford.edu/~kimbutts/Le...
Case: doi.org/10.1016/j.br...
Letters: www.elsa-fouragnan.com/blog | web.stanford.edu/~kimbutts/Le...
Reposted by Matthias Nau
Introducing CorText: a framework that fuses brain data directly into a large language model, allowing for interactive neural readout using natural language.
tl;dr: you can now chat with a brain scan 🧠💬
1/n
tl;dr: you can now chat with a brain scan 🧠💬
1/n
November 3, 2025 at 3:17 PM
Introducing CorText: a framework that fuses brain data directly into a large language model, allowing for interactive neural readout using natural language.
tl;dr: you can now chat with a brain scan 🧠💬
1/n
tl;dr: you can now chat with a brain scan 🧠💬
1/n
Reposted by Matthias Nau
Ten Simple Rules for AI-Assisted Coding in Science arxiv.org/abs/2510.22254 - our latest, led by @ericwbridgeford.bsky.social
Ten Simple Rules for AI-Assisted Coding in Science
While AI coding tools have demonstrated potential to accelerate software development, their use in scientific computing raises critical questions about code quality and scientific validity. In this pa...
arxiv.org
October 28, 2025 at 1:12 PM
Ten Simple Rules for AI-Assisted Coding in Science arxiv.org/abs/2510.22254 - our latest, led by @ericwbridgeford.bsky.social
Kicked off my course "Programming for Psychologists" again, starting with a lecture on *Mindset*.
The first exercise is writing out a peanut butter jam sandwich recipe 🥜🥪. Fun way to learn about imperative vs. declarative instructions, top-down design etc.
Maybe useful for others too? 1/3
The first exercise is writing out a peanut butter jam sandwich recipe 🥜🥪. Fun way to learn about imperative vs. declarative instructions, top-down design etc.
Maybe useful for others too? 1/3
October 28, 2025 at 11:14 AM
Kicked off my course "Programming for Psychologists" again, starting with a lecture on *Mindset*.
The first exercise is writing out a peanut butter jam sandwich recipe 🥜🥪. Fun way to learn about imperative vs. declarative instructions, top-down design etc.
Maybe useful for others too? 1/3
The first exercise is writing out a peanut butter jam sandwich recipe 🥜🥪. Fun way to learn about imperative vs. declarative instructions, top-down design etc.
Maybe useful for others too? 1/3
Reposted by Matthias Nau
First neurons didn’t appear overnight. We trace their roots to ancient secretory cells - showing how lifestyle & behavior shaped the evolution of first synapses.🧠🌊 #Evolution #Neuroscience
Our latest in @natrevneuro.nature.com
Link: rdcu.be/eMX3E
@jeffcolgren.bsky.social @msarscentre.bsky.social
Our latest in @natrevneuro.nature.com
Link: rdcu.be/eMX3E
@jeffcolgren.bsky.social @msarscentre.bsky.social
The evolutionary origins of synaptic proteins and their changing roles in different organisms across evolution
Nature Reviews Neuroscience - Recent studies have shed further light on the evolutionary origins of chemical synapses, In this Review, Colgren and Burkhardt explore how ancient proteins were...
rdcu.be
October 27, 2025 at 6:48 PM
First neurons didn’t appear overnight. We trace their roots to ancient secretory cells - showing how lifestyle & behavior shaped the evolution of first synapses.🧠🌊 #Evolution #Neuroscience
Our latest in @natrevneuro.nature.com
Link: rdcu.be/eMX3E
@jeffcolgren.bsky.social @msarscentre.bsky.social
Our latest in @natrevneuro.nature.com
Link: rdcu.be/eMX3E
@jeffcolgren.bsky.social @msarscentre.bsky.social
Reposted by Matthias Nau
🚀 We’re hiring - Join our lab 🚀
🔍 Hiring: PhD (75% TV-L) & Postdoc (100% TV-L)
🧠 fMRI, VR, EEG, modelling
We combine a range of cognitive neuroscience methods to study flexible behaviour.
📅 Start: Feb 2026 or later | ⏳ Apply by Nov 3!
More details:
tinyurl.com/ms3a9ajt
#CognitiveNeuroscience
🔍 Hiring: PhD (75% TV-L) & Postdoc (100% TV-L)
🧠 fMRI, VR, EEG, modelling
We combine a range of cognitive neuroscience methods to study flexible behaviour.
📅 Start: Feb 2026 or later | ⏳ Apply by Nov 3!
More details:
tinyurl.com/ms3a9ajt
#CognitiveNeuroscience
October 27, 2025 at 11:57 AM
🚀 We’re hiring - Join our lab 🚀
🔍 Hiring: PhD (75% TV-L) & Postdoc (100% TV-L)
🧠 fMRI, VR, EEG, modelling
We combine a range of cognitive neuroscience methods to study flexible behaviour.
📅 Start: Feb 2026 or later | ⏳ Apply by Nov 3!
More details:
tinyurl.com/ms3a9ajt
#CognitiveNeuroscience
🔍 Hiring: PhD (75% TV-L) & Postdoc (100% TV-L)
🧠 fMRI, VR, EEG, modelling
We combine a range of cognitive neuroscience methods to study flexible behaviour.
📅 Start: Feb 2026 or later | ⏳ Apply by Nov 3!
More details:
tinyurl.com/ms3a9ajt
#CognitiveNeuroscience
Great render of the beautiful drosophila hemibrain! 👇
When #HHMIJanelia released the #Drosophila hemibrain in 2020, rendering all cell types at once with full shading/shadows was too hard, so the video showed them region by region. Technology has since advanced, and I went back and rendered them all together. I like how it shows the internal structure.
October 27, 2025 at 9:32 AM
Great render of the beautiful drosophila hemibrain! 👇
Reposted by Matthias Nau
This is such a fun idea! A cross-decoding perception-imagery challenge 🤩 Looking forward to seeing what comes out (and maybe having a sneaky go myself when I should be doing admin...)!
How well do classifiers trained on visual activity actually transfer to non-visual reactivation?
#Decoding studies often rely on training in one (visual) condition and applying it to another (e.g. rest-reactivation). However: How well does this work? Show us what makes it work and win up to 1000$!
#Decoding studies often rely on training in one (visual) condition and applying it to another (e.g. rest-reactivation). However: How well does this work? Show us what makes it work and win up to 1000$!
IMAGINE-decoding-challenge
Predict which words participants were hearing, based upon brain activity recordings of visually seeing these items?
www.kaggle.com
October 24, 2025 at 11:42 AM
This is such a fun idea! A cross-decoding perception-imagery challenge 🤩 Looking forward to seeing what comes out (and maybe having a sneaky go myself when I should be doing admin...)!
Current trends in European Research funding... 😵💫 erc.europa.eu/news-events/...
October 23, 2025 at 1:24 PM
Current trends in European Research funding... 😵💫 erc.europa.eu/news-events/...
Reposted by Matthias Nau
@dotproduct.bsky.social's first first author paper is finally out in @sfnjournals.bsky.social! Her findings show that content-specific predictions fluctuate with alpha frequencies, suggesting a more specific role for alpha oscillations than we may have thought. With @jhaarsma.bsky.social. 🧠🟦 🧠🤖
Contents of visual predictions oscillate at alpha frequencies
Predictions of future events have a major impact on how we process sensory signals. However, it remains unclear how the brain keeps predictions online in anticipation of future inputs. Here, we combin...
www.jneurosci.org
October 21, 2025 at 11:05 AM
@dotproduct.bsky.social's first first author paper is finally out in @sfnjournals.bsky.social! Her findings show that content-specific predictions fluctuate with alpha frequencies, suggesting a more specific role for alpha oscillations than we may have thought. With @jhaarsma.bsky.social. 🧠🟦 🧠🤖
Reposted by Matthias Nau
✨My first first-author paper is out✨
Entorhinal grid-like codes for visual space during memory formation in @natcomms.nature.com ➡️ rdcu.be/eLRm2
Big thanks to everyone @isabellacwagner.bsky.social, @tobiasstaudigl.bsky.social, @olejensen.bsky.social, @doellerlab.bsky.social, @clauslamm.bsky.social
Entorhinal grid-like codes for visual space during memory formation in @natcomms.nature.com ➡️ rdcu.be/eLRm2
Big thanks to everyone @isabellacwagner.bsky.social, @tobiasstaudigl.bsky.social, @olejensen.bsky.social, @doellerlab.bsky.social, @clauslamm.bsky.social
Entorhinal grid-like codes for visual space during memory formation
Nature Communications - Eye movements during scene viewing are tied to grid-like codes in the entorhinal cortex. Grid signals are specific to later remembered scenes, covary with activity in...
rdcu.be
October 20, 2025 at 4:42 PM
✨My first first-author paper is out✨
Entorhinal grid-like codes for visual space during memory formation in @natcomms.nature.com ➡️ rdcu.be/eLRm2
Big thanks to everyone @isabellacwagner.bsky.social, @tobiasstaudigl.bsky.social, @olejensen.bsky.social, @doellerlab.bsky.social, @clauslamm.bsky.social
Entorhinal grid-like codes for visual space during memory formation in @natcomms.nature.com ➡️ rdcu.be/eLRm2
Big thanks to everyone @isabellacwagner.bsky.social, @tobiasstaudigl.bsky.social, @olejensen.bsky.social, @doellerlab.bsky.social, @clauslamm.bsky.social
Nice to see *non-neural* brain cells more in the spotlight! This new paper links astrocyte activity during memory recall to the long-term stability of the memory! By Deva et al. @nature.com
doi.org/10.1038/s415...
doi.org/10.1038/s415...
October 20, 2025 at 10:59 AM
Nice to see *non-neural* brain cells more in the spotlight! This new paper links astrocyte activity during memory recall to the long-term stability of the memory! By Deva et al. @nature.com
doi.org/10.1038/s415...
doi.org/10.1038/s415...
Reposted by Matthias Nau
Excited to share our work making an "allostasis-first" case that brain function is most productively framed in terms of its core regulatory function. We also introduce some new ideas in the context of metabolism and cognitive function in Alzheimer's.
www.cell.com/neuron/fullt...
www.cell.com/neuron/fullt...
October 14, 2025 at 7:56 PM
Excited to share our work making an "allostasis-first" case that brain function is most productively framed in terms of its core regulatory function. We also introduce some new ideas in the context of metabolism and cognitive function in Alzheimer's.
www.cell.com/neuron/fullt...
www.cell.com/neuron/fullt...
Reposted by Matthias Nau
🧵 New paper out🚨🧠! Information about motion is key to vision. Head motion signals from the vestibular system robustly modulate visual cortex activity. Despite this profound modulation, we still don’t know how these signals reach visual cortex - or even what aspects of head motion are transmitted.
🤯 👁️ Did you know the primary visual cortex tracks head movements even in complete darkness?
Guy Bouvier and colleagues managed to decode multiple head movement variables in V1 without light in the room, and discovered two distinct brain sources delivering these signals!
Read more in PNAS 🔽🔽
Guy Bouvier and colleagues managed to decode multiple head movement variables in V1 without light in the room, and discovered two distinct brain sources delivering these signals!
Read more in PNAS 🔽🔽
www.pnas.org
October 18, 2025 at 7:00 AM
🧵 New paper out🚨🧠! Information about motion is key to vision. Head motion signals from the vestibular system robustly modulate visual cortex activity. Despite this profound modulation, we still don’t know how these signals reach visual cortex - or even what aspects of head motion are transmitted.
Important paper for interpreting #fMRI results on #psychedelics! In short, psilocybin changes neurovascular coupling (i.e., how neural activity links to blood flow). 👇
🚨 New science alert! Our cross-species study, now in Nature Neuroscience, demonstrates psychedelics distort how we should interpret functional brain imaging.
👇🧵
nature.com/articles/s41...
#Neuroscience #Psychedelics #BrainImaging
👇🧵
nature.com/articles/s41...
#Neuroscience #Psychedelics #BrainImaging
Psychedelic 5-HT2A receptor agonism alters neurovascular coupling and differentially affects neuronal and hemodynamic measures of brain function
Nature Neuroscience - Padawer-Curry et al. show that the hallucinogenic 5-HT2A receptor agonist DOI alters neurovascular coupling in mice, with implications for the interpretation of human fMRI...
nature.com
October 16, 2025 at 11:04 AM
Important paper for interpreting #fMRI results on #psychedelics! In short, psilocybin changes neurovascular coupling (i.e., how neural activity links to blood flow). 👇
Reposted by Matthias Nau
🧠🚨 How does the hippocampus transform the visual similarity space to resolve memory interference?
In this new preprint, we found that the hippocampus sequentially inverts the behaviorally relevant dimensions of similarity 🧵
www.biorxiv.org/content/10.1...
In this new preprint, we found that the hippocampus sequentially inverts the behaviorally relevant dimensions of similarity 🧵
www.biorxiv.org/content/10.1...
Hippocampal transformations occur along dimensions of memory interference
The role of the hippocampus in resolving memory interference has been greatly elucidated by considering the relationship between the similarity of visual stimuli (input) and corresponding similarity o...
www.biorxiv.org
October 14, 2025 at 4:48 PM
🧠🚨 How does the hippocampus transform the visual similarity space to resolve memory interference?
In this new preprint, we found that the hippocampus sequentially inverts the behaviorally relevant dimensions of similarity 🧵
www.biorxiv.org/content/10.1...
In this new preprint, we found that the hippocampus sequentially inverts the behaviorally relevant dimensions of similarity 🧵
www.biorxiv.org/content/10.1...
Reposted by Matthias Nau
Memory might depend on when you look, not just what you see
Happy to share a new preprint from my postdoctoral work with Jed Meltzer, @drjenryan.bsky.social, and @rosannaolsen.bsky.social
Paper: doi.org/10.1101/2025...
Happy to share a new preprint from my postdoctoral work with Jed Meltzer, @drjenryan.bsky.social, and @rosannaolsen.bsky.social
Paper: doi.org/10.1101/2025...
Phase-locking saccades to posterior alpha oscillations improves the neural representation of visual objects during memory formation
Visual memory formation begins with the intake and neural processing of discrete samples provided by gaze fixations and saccades. Past research has highlighted a functional relationship between the ti...
doi.org
October 14, 2025 at 4:41 PM
Memory might depend on when you look, not just what you see
Happy to share a new preprint from my postdoctoral work with Jed Meltzer, @drjenryan.bsky.social, and @rosannaolsen.bsky.social
Paper: doi.org/10.1101/2025...
Happy to share a new preprint from my postdoctoral work with Jed Meltzer, @drjenryan.bsky.social, and @rosannaolsen.bsky.social
Paper: doi.org/10.1101/2025...
Reposted by Matthias Nau
Why do we remember emotional events so vividly? Our new paper @nathumbehav.nature.com suggests that emotional arousal enhances memory by strengthening integration across large-scale brain networks! Led by the amazing @jadynpark.bsky.social & @ycleong.bsky.social! doi.org/10.1038/s415...
Out now in @nathumbehav.nature.com! We applied graph theoretic analyses to fMRI data of participants watching movies/listening to stories. Integration across large-scale functional networks mediates arousal-dependent enhancement of narrative memories. Open access link: rdcu.be/eKKAw
October 13, 2025 at 6:33 PM
Why do we remember emotional events so vividly? Our new paper @nathumbehav.nature.com suggests that emotional arousal enhances memory by strengthening integration across large-scale brain networks! Led by the amazing @jadynpark.bsky.social & @ycleong.bsky.social! doi.org/10.1038/s415...
Why do we remember emotional events so vividly? Our new paper @nathumbehav.nature.com suggests that emotional arousal enhances memory by strengthening integration across large-scale brain networks! Led by the amazing @jadynpark.bsky.social & @ycleong.bsky.social! doi.org/10.1038/s415...
Out now in @nathumbehav.nature.com! We applied graph theoretic analyses to fMRI data of participants watching movies/listening to stories. Integration across large-scale functional networks mediates arousal-dependent enhancement of narrative memories. Open access link: rdcu.be/eKKAw
October 13, 2025 at 6:33 PM
Why do we remember emotional events so vividly? Our new paper @nathumbehav.nature.com suggests that emotional arousal enhances memory by strengthening integration across large-scale brain networks! Led by the amazing @jadynpark.bsky.social & @ycleong.bsky.social! doi.org/10.1038/s415...
Reposted by Matthias Nau
In this article, @jadynpark.bsky.social et al find that emotionally arousing moments during a narrative are associated with heightened integration across functional brain networks, which in turn predict how well those moments are then remembered.
Emotional arousal enhances narrative memories through functional integration of large-scale brain networks - Nature Human Behaviour
Park et al. find that emotionally arousing moments during a narrative are associated with heightened integration across functional brain networks, which in turn predicts how well those moments are subsequently remembered.
www.nature.com
October 13, 2025 at 10:00 AM
In this article, @jadynpark.bsky.social et al find that emotionally arousing moments during a narrative are associated with heightened integration across functional brain networks, which in turn predict how well those moments are then remembered.