Excited to share our new paper in @pnas.org with @bnmorillon.bsky.social &
@valentinwyart.bsky.social www.pnas.org/doi/10.1073/...
We study three core inference systems, and how their interaction shapes human learning and decision-making.
Ever wondered how the Dalmatian Dog effect works?
The human brain can quickly learn from a single experience and generalize it to related experiences β an impressive feat so far not matched by AI.
Our new paper in @natcomms.nature.com reveals how this works.
www.nature.com/articles/s41...
Now out! π rdcu.be/eZ27x
Will measuring pupil-size changes be a window into understanding #misophonia severity?
At the University of Amsterdam, Dr. de Gee's (@degeelab.bsky.social) MRF-funded research will develop an affordable, home-based tool to measure physiological responses to trigger sounds.
(1/3)
β³ Just over 2 weeks left to apply! β³
We are looking for talented Cognitive Neuroscientists to join our team at Trinity College Dublin for postdoc positions funded by a European Research Council (ERC) Consolidator grant.
www.jobs.ac.uk/job/DPV296/r...
www.ktsetsoslab.net/_files/ugd/0...
Interested in the latest advances in neuroscience (neural dynamics and internal models) and how they can be leveraged to build smarter, adaptive AI?
β‘οΈ My first real solo piece π€π«Ά @natneuro.nature.com
rdcu.be/eWVmA
Thrilled this is out, led by former PD Cameron Ogg (now with her own lab at @rhodescollege.bsky.social!). It was a driven by a desire to see, in real-time, how LC activity/NE release influences downstream targets in behaving animals. SO hard to do, but Cameron did it! www.cell.com/cell-reports...
Unlike current AI systems, animals can quickly and flexibly adapt to changing environments.
This is the topic of our new perspective in Nature MI (rdcu.be/eSeif), where we relate dynamical and plasticity mechanisms in the brain to in-context and continual learning in AI. #NeuroAI
Congrats to Ella for her new paper! She asked a really interesting question about how the brain represents uncertainty during hidden state inference, and in a lovely crossover with theoretical work, she shows that in mice, acetylcholine dynamics play a crucial role. www.biorxiv.org/content/10.1...
Thrilled that our paper is out today in Nature!
www.nature.com/articles/s4...
π§ Regularization, Action, and Attractors in the Dynamical βBayesianβ Brain
direct.mit.edu/jocn/article...
(still uncorrected proofs, but they should post the corrected one soon--also OA is forthcoming, for now PDF at brainandexperience.org/pdf/10.1162-...)
@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. π§ π¦ π§ π€
Online Now: Hierarchical interactions between sensory cortices defy predictive coding
Decoding performance (MVPA) better for OPM-MEG than SQUID-MEG π. The improved spatial specificity of OPM-MEG due to the reduced brain-sensor distance is key. And more sensors (beyond 40) don't improve decoding.
Preprint from our recent @thechbh.bsky.social study: www.biorxiv.org/content/10.1...
How does motivation shape learning and memory? In a new review w @ralisonadcock.bsky.social, we propose that under different motivational βmoods', neuromodulators set distinct neural contexts to determine information processing and memory formation.
doi.org/10.1146/annu...
#psychscisky #neuroskyence
The brain is incredibly densely connected. Human cerebral cortex may have as many as *one trillion* connections.
Most of those cortical connections are recurrent, inside each area. What do they do?
New paper from me in Annual Reviews: π§ͺ π§ π 1/
www.annualreviews.org/content/jour...
Our spotlight article on Goueytes et al. (2025) study is now online at Trends in Neurosciences: "Pre- and post-decision signals of certainty in changing minds", by P. Barttfeld, @ncomay.bsky.social, I. Embon & @guillermosolovey.bsky.social www.cell.com/trends/neuro...
Finally out: our recent work with Nick Betley is a view into how the brain reshapes its behavior in the face of competing survival needs- and also a potential angle on treatment targets for enduring pain.
A brief rundown...
www.nature.com/articles/s41...
π Excited to finally share JL Romero Sosaβs publication! Results are from single-cell imaging in different subregions of rat frontal cortex during β¨de novo learning. Spoiler: everything is not everywhere all at once www.nature.com/articles/s41...
For all the knucklehead reviewers out there.
Principles for proper peer review - Earl K. Miller
jocnf.pubpub.org/pub/qag76ip8...
#neuroscience
Our #sEEG study is now published in Nature Communications: rdcu.be/eIkoG! π§
Key finding: We discovered neural evidence accumulation for visual perception that's independent of report preparationβrecorded from >3000 channels across 3 experiments!
#Neuroscience #Consciousness #OpenAccess
Curious about the human ability to extract regularities from sensory input (i.e., βstatistical learningβ) and individual differences therein? #CognitiveScience #Learning
Our #Consensus paper presents the collective insights of 27 researchers worldwide π π¬ π π¬ π π¬:
π doi.org/10.31234/osf...
With 2 postdocs moving on to faculty positionsπ₯³, we're looking to hire someone new. If you're interested in norepinephrine and neural circuits, please apply! tinyurl.com/42bfe24k
How do we update our predictions when our environment changes?
The hippocampus rapidly integrates previously distinct sequences to support updated predictions.
Proud of this work with Hannah Tarder-Stoll & @chrisbaldassano.bsky.social!
www.biorxiv.org/content/10.1...
We are hiring for several research positions for this grant, starting early next year. Please reach out if you're interested!
More details on the jobs here: devcompsy.org/wp-content/u...
Two flagship papers from the International Brain Laboratory, now out in βͺ@Nature.comβ¬:
π§ Brain-wide map of neural activity during complex behaviour: doi.org/10.1038/s41586-025-09235-0
π§ Brain-wide representations of prior information in mouse decision-making: doi.org/10.1038/s41586-025-09226-1 +
Catecholamines like dopamine and norepinephrine are key in processing info and making decisions. Our study shows these neuromodulators reduce the impact of past choices on current decisions, leading to less biased perceptual judgments. Exciting implications for brain science! #Neuroscience
π§ β¨ Exciting new research alert! β¨π§
Did you know that catecholamines can reduce choice history biases in perceptual decision-making? π§π
Paper: journals.plos.org/plosbiology/...
With @donnerlab.bsky.social and @swammerdamuva.bsky.social
Ok, but the ones I linked here are also near-threshold auditory detection. Curious to see your results at some point. :-)
Some recent examples of phasic and tonic variations in pupil size predicting choice behavior about auditory stimuli:
- https://pubmed.ncbi.nlm.nih.gov/26074005/
- https://pubmed.ncbi.nlm.nih.gov/32543372/
- https://pubmed.ncbi.nlm.nih.gov/39151432/
- https://pubmed.ncbi.nlm.nih.gov/38277436/
