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Neuroengineering @neuroengineering.bsky.social · 5h

Thanks for coming by! @mverwoert.bsky.social

Reposted by Neuroengineering

Jacob Lab @jacob-lab.bsky.social · 6h

A big push for #BCI and #neurotechnology in Europe! We implanted our second microelectrode array #BCI @tum.de. Huge thanks to our pioneer and to fantastic colleagues in #Neurosurgery and #Robotics #Machine #Intelligence 🧠🦾🧪 #neuroskyence @neuroengineering.bsky.social
www.tum.de/en/news-and-...

Brain-computer interface for a patient with quadriplegia

A team at the Technical University of Munich’s TUM University Hospital has implanted a brain-computer interface in a patient paralyzed from the neck down.

www.tum.de

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Neuroengineering @neuroengineering.bsky.social · 5h

Great job Simon! What a milestone in europe

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Neuroengineering @neuroengineering.bsky.social · 22h

Ultrasound maps deep brain function over months

Scientists used functional ultrasound imaging to record from primate parietal cortex over months. Their method combines high spatial resolution and long-term stability, revealing direction-tuned saccadic neural patches

#neuroskyence #compneurosky

Functional ultrasound neuroimaging reveals mesoscopic organization of saccades in the lateral intraparietal area - Nature Communications

The functional organization of the posterior parietal cortex (PPC) for guiding eye movements has remained unknown. Here, the authors use functional ultrasound neuroimaging to reveal small, tuned clust...

www.nature.com

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Reposted by Neuroengineering

Russ Poldrack @russpoldrack.org · 1d

OpenNeuro @openneuro.bsky.social just hit a huge milestone: 1500 datasets! Congrats to the team on making this project so successful over the last 7 years.

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Neuroengineering @neuroengineering.bsky.social · 2d

This will be the largest coordinated tACS study to date.

Its outcome will shape how we interpret and apply brain stimulation in the future. Learn more and follow updates here:

🔗 tacschallenge.org

#tACSChallenge #Neurostimulation #NIBS #OpenScience #neuroskyence

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tacschallenge.org

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Neuroengineering @neuroengineering.bsky.social · 2d

Participating labs include @unimainz.bsky.social, @imperialcollegeldn.bsky.social, @uofglasgow.bsky.social , @stanford.edu, @kingscollegelondon.bsky.social.

Today marks the official kick-off. Data collection runs Aug 2025–Aug 2026, with results expected in 2027.

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Neuroengineering @neuroengineering.bsky.social · 2d

The tACS Challenge unites labs worldwide under a single, pre-registered protocol.

They will test whether 10 Hz tACS can modulate visual performance while controlling for known artefacts. All data and code will be shared openly.

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Neuroengineering @neuroengineering.bsky.social · 2d

For over a decade, tACS has been explored as a way to rhythmically interact with brain activity and behavior.

While many studies report promising effects, results vary across labs, highlighting the need for larger, coordinated investigations.

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Neuroengineering @neuroengineering.bsky.social · 2d

🧠⚡️ Can transcranial alternating current stimulation (tACS) truly rhythmically modulate brain activity in humans?

More than 30 labs are joining forces in the tACS Challenge, a global effort to test one of brain stimulation's biggest questions.

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Neuroengineering @neuroengineering.bsky.social · 8d

cool work! #neuroskyence

Neuroengineering @neuroengineering.bsky.social · 10d

Precision Neuroscience published their high-density ECoG in Nature Biomed. Eng.

The startup shows a 1,024-channel grid implanted through a cortical slit in pigs, and intraoperative neural recordings and stimulation in five humans at sub-mm resolution.

#neuroskyence @precisionneuro.bsky.social

Minimally invasive implantation of scalable high-density cortical microelectrode arrays for multimodal neural decoding and stimulation - Nature Biomedical Engineering

A 1,024-channel microelectrode array is delivered to the brain cortex via a minimally invasive incision in the skull and dura, and allows recording, stimulation and neural decoding across large portions of the brain in porcine models and human neurosurgical patients.

www.nature.com

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Neuroengineering @neuroengineering.bsky.social · 10d

Can we combine neural data across individuals to improve speech BCIs?

A recent study used transfer learning on distributed iEEG recordings to enhance speech decoding. By learning shared latent manifolds, their cross-subject model outperformed individual models in a speech motor task.

#neuroskyence

Transfer learning via distributed brain recordings enables reliable speech decoding - Nature Communications

Speech brain-computer interfaces face challenges scaling across individuals with different brain organization. Using minimally invasive recordings from 25 patients, the authors developed transfer learning methods that enable robust speech decoding even with incomplete brain coverage.

www.nature.com

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Neuroengineering @neuroengineering.bsky.social · 10d

awesome work!

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Neuroengineering @neuroengineering.bsky.social · 10d

great work! congrats

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Neuroengineering @neuroengineering.bsky.social · 13d

Awesome work! congrats to the whole team

Neuroengineering @neuroengineering.bsky.social · 15d

Neuropixel's newest ultra-high density probe enables larger neuronal yield (up to 2x), with over 6000 recording channels.

#neuroskyence

Matteo Carandini @carandinilab.net · 15d

Neuropixels Ultra!

By @steinmetzneuro.bsky.social, who led a big collaboration

www.sciencedirect.com/science/arti...

Ultra-high-density Neuropixels probes improve detection and identification in neuronal recordings

To understand the neural basis of behavior, it is essential to sensitively and accurately measure neural activity at single-neuron and single-spike re…

www.sciencedirect.com

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Neuroengineering @neuroengineering.bsky.social · 15d

With all that said, we agree the system can (and should) improve. But stopping research until ethics are "settled" isn't the answer.

We need stronger safeguards (independent ethics, transparency, global dialogue) while enabling responsible innovation. Unfortunately, there is no single solution.

Neuroengineering @neuroengineering.bsky.social · 16d

Which brings us to the current solution of local ethical committees and approvals for any research to be conducted at all. This study, for example, was approved by the Elche ethics committee, registered at ClinicalTrials.gov (NCT02983370), and conducted under EU clinical trial regulations.

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Neuroengineering @neuroengineering.bsky.social · 16d

We simply wouldn't have enough ethicists to resolve all open questions, assuming they could even agree on global standards across so many cultures and values. And even if they did, there are no enforcement bodies to make such standards *global* and ensure they are followed by *everyone*.

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Neuroengineering @neuroengineering.bsky.social · 16d

What you propose would only work with a *worldwide* halt on *all* neurotech research, which seems impossible with so many parties involved.

And if that logic applies, why not halt every other field too? That would create countless ethical questions, far too many to handle.

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Neuroengineering @neuroengineering.bsky.social · 16d

With neurotech it's even harder and more delicate: beyond the risk of misuse, the ethical requirements themselves are unclear.

For example, technologies that might alter or decode memory raise questions we can't yet define, because we don't know what is scientifically possible.

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Neuroengineering @neuroengineering.bsky.social · 16d

Otherwise we would never have dynamites (or any technology for that matter) since all can be misused depending on who uses it.

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Neuroengineering @neuroengineering.bsky.social · 16d

So halting research postponed the benefit of using dynamites to open tunnels for many people.

One could argue it also postponed people being killed by dynamites. But if we accept dynamite as a necessary technology for progress and wellbeing, then we have to accept both its pros and cons.

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Neuroengineering @neuroengineering.bsky.social · 16d

Take dynamite: once its feasibility was shown, should research have stopped until ethics were agreed?

Say, after long debate we decide that dynamites should only be used for mines and not for killing. That still doesn't prevent its misuse later.

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