neuroAI comparisons of ANNs to brains do have a range of problems. Even more than I had realized. And I was worried before: www.biorxiv.org/content/10.1...
09.02.2026 14:13
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neuroAI comparisons of ANNs to brains do have a range of problems. Even more than I had realized. And I was worried before: www.biorxiv.org/content/10.1...
Our latest work on the neurobiology of subjective emotional experience in anxiety is out now in SCAN π§ Brief summary below π doi.org/10.1093/scan...
Spread the word: new PhD track in Biomedical Informatics and Health AI - enrollment for Fall 2026 closing soon!
www.linkedin.com/feed/update/...
Thank you for these clarifications!
@ohbmofficial.bsky.social, Is the new OHBM abstract length really 14,000 characters?
@ohbmofficial.bsky.social, is the new OHBM abstract length really 14,000 characters? This would mean a shift from an abstract to a conference paper. If so, what are the implications for publication rights with respect to journal submissions? How are reviewers expected to review up to 40?
Flyer to join Holmes Lab
The Holmes Lab is #hiring a full-time research assistant/predoc! Our work focuses on functional brain networks-- how they change, how they are impacted in psychiatric illness, and much more!
Please rt and reach out if youβre interested π
Find out more holmeslab.rutgers.edu
Looking for a post-bac RA position focused on the brain bases of affective and psychotic illness?
@holmeslab-bhi.bsky.social is hiring!
@cahbir.bsky.social @rutgersbhi.bsky.social @rutgersu.bsky.social @sobp-org.bsky.social @hitop-system.bsky.social @ohbmofficial.bsky.social
One to watch! ππΌπ₯ Be sure to tune in Monday for the live event or check out the recording on youtube, along with all our WBHI lectures. Register for the full series at wbhi.ucsb.edu/about/events Weβve got an amazing 25-26 lineup.
Les espΓ¨ces classiques de la SVT : se reproduisent π₯±
Les reines des fourmis M. ibericus :
clonent des mΓ’les d'une autre espΓ¨ce π€― pour se reproduire avec et crΓ©er des ouvriΓ¨res hybrides π€ tout en faisant des mΓ’les de leur espΓ¨ce pour faire des nouvelles reines ππ
www.nature.com/articles/s41...
New paper in Imaging Neuroscience by Elise Roger, Gaelle E. Doucet, et al:
When age tips the balance: A dual mechanism affecting hemispheric specialization for language
doi.org/10.1162/IMAG...
Excited to share that our work is now published in Imaging Neuroscience! π§ π₯³
We show how aging reshapes the brainβs language and memory networks, revealing striking shifts in hemispheric specialization across the lifespan.
Check it out @imagingneurosci.bsky.social
Thanks so much! Great to hear you enjoyed the work.
Holmes Lab is representing at #OHBM2025! 𧡠Loic
@loiclabache.bsky.social presented in the Language: Anatomy, Networks and Pathology section with his paper on "The molecular and cellular underpinnings of human brain lateralization" π§
π¨ Dataset & Manuscript alert! π¨ The Transdiagnostic Connectome Project (TCP) manuscript is now available @natureportfolio.nature.com Scientific Data! π
www.nature.com/articles/s41...
π§΅1π
π¨Preprint!π¨ So excited to share my 1st major study as a postdoc at @holmeslab-bhi.bsky.social!π€
www.biorxiv.org/content/10.1...
Using a transdiagnostic framework, we found that brain network dynamics were able to discriminate individualized psychiatric symptom profiles with high accuracy π§΅1/9π
Thanks Donna! I take that as a compliment; hope the surprise wasn't too big.
π¨π§βπ¨ Looking for a tool to visualize subcortical/thalamic data in 2D? Check out this python-based package I put together (subcortex-visualization on PyPI), plus a guide for creating your own custom atlas meshes and vector graphics! All feedback/tips welcome π
anniegbryant.github.io/subcortex_vi...
Check our latest work βLinking Subjective Experience of Anxiety to Brain Function using Natural Language Processingβ. Our analyses link movie-evoked brain activity and subsequent interview recordings in a pediatric sample with and without anxiety disorders (doi.org/10.31234/osf...).
Excited to share the first major piece of work and preprint from my lab! Led by Jason Kim! π₯³ππ€
www.biorxiv.org/content/10.1...
Newest #preprint from Holmes lab postdoc @loiclabache.bsky.social π₯
Thanks, Clyde! I hope you enjoy reading it!
The molecular and cellular basis of human brain lateralization. Latest paper from @holmeslab-bhi.bsky.social led by @loiclabache.bsky.social. @rutgersbhi.bsky.social, @cahbir.bsky.social
Thanks so much! So glad you found the work interesting. The development of lateralization is a fascinating path to explore!
Thanks Cedric! π
9/ Huge thanks to @avramholmes.bsky.social @holmeslab-bhi.bsky.social and big ups to collaborators @sidchop.bsky.social and @xi-hanzhang.bsky.social across Yale & Orygen π¦
8/ Understanding these biological bases of lateralization has profound implications for evolutionary theory and offers clues to neuropsychiatric conditions characterized by atypical lateralization patterns.
Figure of the organization of the molecular and cellular profiles of the seven canonical intrinsic networks. We are revealing the existence of opposing lateralization profiles in language- and attention-related networks at the molecular and cellular level.
7/ Finally, our findings reveal a distinct cellular and molecular fingerprint demonstrating the brain is organized around two complementary systems: one centered around language and the other around visuospatial attention.
Figure of the cellular substrates of the neurotransmitter receptor and transporter mode underlying functional cortical lateralization.
6/ On the cellular level, intratelencephalic-projecting neurons and microglia distributions align with hemispheric specialization, linking specific cell-types to cognitive functions like language and attention.
Figure of the molecular substrates of neurotransmitter receptor and transporter modes underlying functional cortical lateralization. We show mitochondrial phenotypes as substrates for lateralization of the acetylcholine-norepinephrine axis.
5/ We further discovered mitochondrial activity asymmetry aligns with this neurotransmitter axis, suggesting energy management in cells plays a pivotal role in supporting cognitive specialization.