Come and join our lab! We have TWO fully funded PhD positions AND a paid field assistant opportunity in our Behavioral Ecology group @uni-goettingen.de & @primatenzentrum.bsky.social. Projects will be part of @rtg2906-curiosity.bsky.social & @sfb1528.bsky.social!!
Details in thread. Please re-post!

Mini Matrix enables high-density 3D recordings in small animals, providing access to large neuronal populations for acute or chronic studies.

32–128 channels for rec & stim
Automated, low-risk implantation
Modular, customizable configurations
Optogenetics-compatible

🎶Let’s dance…but make it light sheet. For #FluorescenceFriday, the team is looking at blood vessels in brilliant color🧠. Beautiful imaging by @mind-western.bsky.social, @shahrzadbahrampour.bsky.social, @nadiahaghbinphd.bsky.social, and Vladislav Novikov! When our science moves, it grooves. 🔬😎

Optical clearing & time-lapse fluorescent imaging of Live mouse Brain (up to 800 μm of depth)🤯

An acute olfactory bulb slice(P11) loaded with GCaMP6f (Ca2+ sensor) was imaged with #2PM at a depth of 150 μm during clearing with SeeDB-Live👹

#NatMethods 2026
www.nature.com/articles/s41...

@deepen-imaging.bsky.social will be exhibiting at the Bonn Brain Conference 23–25 March 2026 at #dzne #bonn.
Come meet us to learn more about the latest developments in holographic microendoscopy and how you can use it to access deep brain regions.

See you in Bonn!

#Neuroscience #Neurotech

Very interesting paper!

Glia in Focus 🔬
A series highlighting the beauty of glial cells. Confocal image (64x) of rodent brain tissue (P1) showing microglia (Iba1, magenta) near a CMV-infected microglial cell (green).
Image: @Sarah Tarhini

#GliaInFocus #Microglia #ConfocalMicroscopy #BrainDevelopment #ScienceArt

Amazing. Congratulations Sanja!

As Neurophotonics developers, we love learning about in vivo imaging directly from scientists.
We’re recruiting 20participants for our in vivo imaging survey.
⏱️ ~10 min
🎁 Free neuron socks
Work with in vivo animal imaging? Contact us at info@deepen-imaging.com.
#neuroscience #microscopy#neuroimaging

As Neurophotonics developers, we love learning about in vivo imaging directly from scientists.
We’re recruiting 20participants for our in vivo imaging survey.
⏱️ ~10 min
🎁 Free neuron socks
Work with in vivo animal imaging? Contact us at info@deepen-imaging.com.
#neuroscience #microscopy#neuroimaging

🚀 Excited to announce that I'm looking for people (PhD/Postdoc) to join my Cognitive Modelling group @uniosnabrueck.bsky.social.

If you want to join a genuinely curious, welcoming and inclusive community of Coxis, apply here:
tinyurl.com/coxijobs

Please RT - deadline is Jan 4‼️

#SfN25 is now over!
Thanks to all the lovely people who came to our booth and shared their science stories with us!
It was an inspirational week for DeepEn!
Thanks to @sfn.org for an extraordinary meeting!

🧠📢 New preprint alert

Large-scale ephys is exploding but spike sorting remains the computational bottleneck. A 2-hr, 6-probe Neuropixels 2.0 Quad Base session can take over a week to sort on a single machine. Here's a better solution. 🧵

#neuroskyence #compneurosky

DeepEn is at NEUROSCIENCE 2025 #SfN25 ! 🧠🔬🌴
Come to our BOOTH #3027, check our microendoscope for deep brain imaging with sub cellular resolution and minimal tissue damage.
And meet Hana, Tomas, Patrick and Jiri!

#neuroimaging

I'm excited to join #SfN2025 next week. Stop by booth #3027 to connect and learn more about structural and functional imaging in-vivo anywhere in the brain! I’d love to hear about your research and ideas! Looking forward to meeting you there.

Image from the MIT Picower article, "MIT invents human brain model with six major cell types to enable personalized disease research, drug discovery" with the following caption: “Cyan staining shows each of the six major cell types [pericytes, astrocytes, endothelial cells, neurons, oligodendrocytes, and microglia] integrated in a miBrain culture.” The original image appeared in Figure 1 of the PNAS article, “Engineered 3D immuno-glial-neurovascular human miBrain model” (10.1073/pnas.2511596122) by Stanton et al.

This new miBrain model from MIT has it all:

🧠 Neurons, microglia, oligodendroglia, astrocytes, pericytes, & brain microvascular endothelial cells
⚙️ Key features & functions of the human brain
👩‍👦 Specificity to individual donors
🧬 Customizability via gene editing
📈 Scalability for large projects

High-resolution insights from the deep brain Discover the world’s best science and medicine | Nature.com

🧠What do neuroscientists think of DeepEn's holographic microendoscope?
How can they use it to study learning and memory processes?
Can it enable voltage imaging in deep brain structures to study processes behind neuronal firing?

⭐ Check the Nature’s article:
www.nature.com/articles/d42...

Excited to share we’ve been awarded the ERC StG 🎉 for our project ProSocial, studying neural mechanisms of prosocial behavior in health & disease. Huge thanks to my group for their amazing work & to great colleagues for their support! Positions opening soon—reach out if interested!

Are you the kind of neuroscientist who scripts analysis or can’t resist tinkering with hardware?
At DeepEn we’re building a fluorescence microscope to image deep in the brain through a single optical fiber. Join us to hack the future of neuroimaging: #ScienceJob
www.linkedin.com/jobs/view/42...

5th Day of Intravital Microscopy - German BioImaging Intravital microscopy (IVM) enables the observation and precise quantification of cellular processes within native tissue microenvironments, with resolutions unmatched by other techniques. This powerf...

⏰ Reminder: The early bird registration and abstract submission for our 5th Day of Intravital Microscopy close on September 5!
Don’t miss your chance to join us in Tübingen on 18–19 Sept. Secure your spot today!
👉 bit.ly/3IOlJtJ

Beautiful work!

Fun collaborative work together with the amazing lab of @sophiesteculorum.bsky.social now published!

A mouse brain stereotaxic topographic atlas with isotropic 1-μm resolution - Nature A stereotaxic atlas of the whole mouse brain, based on a Nissl-stained cytoarchitecture dataset with isotropic 1-μm resolution, achieved through continuous micro-optical sectioning tomography, promise...

www.nature.com/articles/s41...

A fantastic overview of where three-photon microscopy stands relative to existing methods. It's clear that while the technology is still maturing, its advantages for deep-brain imaging!

Hippocampal vasculature is so pretty 😍
(mouse hippocampus perfused with Tomato Lectin and cleared)
#Neuroscience #Microscopy

Selectively vulnerable deep cortical layer 5/6 fast-spiking interneurons in Alzheimer’s disease models in vivo Papanikolaou et al. show that deep-layer cortical neurons exhibit abnormally prolonged Ca2+ transients early in Alzheimer’s mouse models. This is linked to suppressed activity and altered tuning of fa...

Where does Alzheimer’s begin in the brain? Our study in @cp-neuron.bsky.social shows that the earliest amyloid-related neuronal dysfunction emerges selectively in deep cortical layers (layers 5/6), targeting fast-spiking parvalbumin interneurons via reductions in NPTX2.
www.cell.com/neuron/fullt...

Please welcome our official #mesoSPIM channel on this platform, @mesospim.bsky.social. Repost is appreciated!

Too excited not to share this beauty!
#fluorescenceFriday (but a day earlier)

TH staining in cyan
Virus injection in magenta

Zona Incerta is definitely a tough cookie 🍪 but getting there!

Beautiful axons indeed! A quick technical question. What technique did you use to target the amygdala during ferrule implantation?

A picture of a gigaseal during electrophysiological recording in neuron.

🧠 GABA! 🔬✨Explore groundbreaking research on the GABAergic system and its role in health and disease in humans and rodents.
Learn more by joining us #NeuronsInAction2025!
📍the Nencki Institute, Warsaw, Poland
📅 27-31 May, 2025
#nia2025 #neuronsinaction2025 #neuroscience #brain #nenckiinstitute