What matters most for childhood brain organization?
We analyzed 649 variables.
The answer: Socioeconomics (SES); with brain patterns pointing at sleep & stress as drivers.
Even brain-IQ associations were better explained by SES.
In Science today: www.science.org/doi/10.1126/...
Happy to see this paper from @xiaoyuxuu.bsky.social and @zaixucui.bsky.social out on how the development of structural connectivity aligns with the sensorimotor-association axis www.nature.com/articles/s41...! Exciting convergence with work from @audreycluo.bsky.social www.nature.com/articles/s41...
Holden Thorp is an institutionalist. He's been a university chancellor, provost, now EiC of Science. When institutionalists pull the fire alarm, we listen, because the call to action he issued this week exposes the dire nature of the threat we are facing. 1/
www.science.org/doi/10.1126/...
Excited to see this out in PNAS. A fabulous project by Adam Pines and the Williams lab: across psychedelics (LSD, Psilo, MDMA), species, and datasets, a very consistent storyāreduced propagation of activity into the default mode network (DMN). Congrats Adam! š§ š
www.pnas.org/doi/10.1073/...
š§ ā¼ļø Socioeconomic variables show the strongest associations with the brain out of 649 measuresāsurpassing cognition and mental health. Grateful for the chance to write a perspective with @ted-satterthwaite.bsky.social about @smarek0502.bsky.social and team's important findings! tinyurl.com/bdhk6bc8
We present the LARGEST normative model of the brainās white matter microstructure: 54,583 subjects, 4-91 yrs, 19 datasets. We derived lifespan centile curves for DTI FA, MD, RD, AD, detecting anomalies for dementia, and Mild Cognitive Impairment: doi.org/10.1038/s414... ā¤µļø
Very excited about this project, led by @zachladwig.bsky.social
We show that an individualās lateral prefrontal cortex has reliable and highly detailed network organization missed in past group approaches.
Fullš§µ coming soon!
Live on bioRxivšš§¬š§ ! We @BhaduriLab use perturb-seq in human cortical tissues to make sense of the shifting molecular trajectories that form the human prefrontal cortex. (1/7)
www.biorxiv.org/content/10.6...
OHBM 2026 is here š§ ! Excited to share my work on thalamocortical & hippocampal development at:
š„ TANGO Workshop on The Integrative Thalamus, June 14
š«š· Symposium "More than a relay: Examining the role of the thalamus in brain organisation, development, disorder", June 17 9 am
š· Poster session, M/T
It was an overwhelming honor to receive the Karl Zilles Award in Integrative Neuroscience at OHBM 2026. I cannot wait to continue growing along with this beloved brain mapping communityš·š§
Scott Marek
Although research has bipartisan support in the US Congress, and trust in science is above 75% across the country, the Trump administration seems as determined as ever to mortally wound the nationās s...
The cerebral cortex drives human cognition through the coordinated activity of discrete cortical areas, each harboring specialized molecular, structural and functional characteristics. Central to this organization is the prefrontal cortex (PFC), a hub for executive function that displays disproportionate expansion in humans and selective vulnerability to neurodevelopmental disorders. Previous work has identified a collection of PFC-enriched marker genes with dynamic expression trajectories, and re-analysis of these datasets converge these markers into 18 distinct molecular signatures of spatiotemporal PFC identity. However, the intrinsic gene networks that coordinate these molecular signatures to shape the human PFC remains unclear. Through pooled CRISPR activation screens in human primary cortical tissues, we have evaluated the ability of PFC-enriched transcription factors to intrinsically pattern PFC molecular identity. Our screens identify novel roles for the neurogenesis regulator, YBX1, in the activation of human PFC fate. In parallel screens and knock-down experiments in human cortical organoids, we define how YBX1 acts in concert with other PFC determinants to activate molecular signatures of PFC identity. Our findings support a model in which PFC patterning is orchestrated by cohorts of intrinsic determinants that initiate, potentiate, and modulate PFC gene signatures, conferring robustness to the development of the human PFC. ### Competing Interest Statement The authors have declared no competing interest. NIH, R00NS111731, R01MH132689, UM1MH130991, RF1MH132662, U24HG002371 Brain & Behavior Research Foundation, https://ror.org/03a63f080, Young Investigator Award Alfred P. Sloan Foundation, https://ror.org/052csg198, Sloan Fellowship Rose Hills Foundation, Innovation Award Esther A. & Joseph Klingenstein Fund, Klingenstein-Simons Fellowship Simons Foundation, https://ror.org/01cmst727, Klingenstein-Simons Fellowship Ablon Trust, Ablon Scholar Award Department of Biological Chemistry, UCLA Zamenhof Scholarship UCLA Eli and Edythe Broad Center of Regenerative Medicine, Innovation Award, Stem Cell Research Training Program University of California, Los Angeles, https://ror.org/046rm7j60, Eugene V. Cota-Robles Award California Institute for Regenerative Medicine, https://ror.org/033m8b439, DISC0-14514, DISC4-16337 National Science Foundation, Graduate Research Fellowship Program
This study identifies a spatiotemporal continuum of structural connectivity development along the sensorimotor-association connectional axis during youth and further demonstrates its implications in b...
What matters most for childhood brain organization?
We analyzed 649 variables.
The answer: Socioeconomics (SES); with brain patterns pointing at sleep & stress as drivers.
Even brain-IQ associations were better explained by SES.
In Science today: www.science.org/doi/10.1126/...
White matter tracts form the structural foundation of brain networks, yet how structural connectivity develops across the whole connectome remains unclear. In our recent @natcomms.nature.com article, we report a continuous, robust developmental pattern along the S-A connectional axis.š
Ladwig et al. use precision fMRI methods to show that the lateral prefrontal cortex of individuals features a mosaic of functionally dissociable network patches rather than a single, broad, and functionally flexible region, as suggested by group-averaged data.
