Two brain circuits.
Same learning problem.
Shared learning outcomes.
Different dynamical implementations.
Our work shows that learning is not a single canonical solution but can emerge through distinct population dynamics shaped by circuit architecture.
Excited to share our latest preprint! 🧵1/12
🧠 Astrocytes are more diverse than expected. Using MP‑FLIM, researchers uncovered distinct sodium‑handling patterns across brain regions and within single cells.
The findings may open new paths for studying brain signaling and neurological disorders.
🔗 https://go.nature.com/43TSQDI
#Neuroscience
If you scan a point of light fast enough on the retina👁️, you can image blood cells ONE-BY-ONE as they cross the beam
Our lab is developing tech called
"in vivo flow cytometry"
@flaumeye.bsky.social @urneuroscience.bsky.social @uofrbme.bsky.social @cvsuor.bsky.social
doi.org/10.1364/BOE....
With #FENS2026 just around the corner, our unofficial
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fens2026.neuronaldynamics.eu
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Functional imaging of nine distinct neuronal populations under a miniscope in freely behaving animals