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We investigate the impact of Amyloid, Tau, and APOE on White Matter Tracts in Alzheimer's Disease using BUAN tractometry. Findings show strong associations, with Tau and MD being the most sensitive biomarkers for AD pathology: tinyurl.com/BUANdMRI 🧠Figures won't disappoint :)

This will be a fantastic joint meeting. Get in while you can!

I am beyond thrilled to share that my group will be moving to the University of Oxford this September. We will be joining the Institute of Biomedical Engineering Engineering Science, Oxford and will be affiliated with the Podium Institute to expand on our work on multiphysics modeling of brain health.

Likely a technique that is going to change dMRI arxiv.org/abs/2409.07375 My two cents: 1. Performance on high-b and high-field scanners is the key (not shown in the work) 2. No need for TOPUP/EDDY in the future. by Berkin Bilgic Yogesh Rathi Anastasia Yendiki Susie Huang

Hear from Professor Amy Brodtmann Translational Medicine at Monash University Alfred Research Alliance who features on episode 3 of the #CREEED podcast about her experience as a cognitive neurologist and researcher 🎧listen time 44 mins #neuroscience sharing awareness this #dementia action week open.spotify.com/show/3yVHuiO5Y…

We are super excited for our upcoming #STMSymposium2024, and we are kicking the Thursday off with a Panel Discussion, chaired by Crystal Li😌 Don't forget to register to attend ‼️ A special thank you to our Bronze sponsors United BioResearch and InVitro Technologies🥉

Studying this week's gigantic #MICCAI2024 proceedings [1], it's incredible how sophisticated functional MRI analyses became at MICCAI, with all sorts of ninja-level #AI tricks being added all the time. In [2], rather than use ComBat to handle distributional shift in an fMRI

Exciting new work by Andrea Luppi &⭐️coauthors showing that in 👨‍🦰🐵🐭 large-scale modelling of fMRI activity is largely improved by accounting for *competitive* interactions between areas (i.e. assuming that when one area is active, another quiets down) ➡️tinyurl.com/2wsr4nnf

We are seeking participants for a study investigating the therapeutic potential of 4 weeks of aerobic exercise for common neurological repercussions of intimate partner violence #IPV   Click here to register interest redcap.link/bz6qss8r

👀 AHEAD OF PRINT 👀 #Language in the #brain isn’t limited to isolated regions—it’s a #dynamic #network of #cortical, #subcortical, and white matter #pathways. A new collection of studies mapping the #language #systems is coming out in Brain Structure & Function 🔗 link.springer.com/article/10.100…

This paper is not that well cited, but still one of my favorite papers showing that resting-state correlations (aka functional connectivity) is biologically meaningful. (I am not an author)

5) Tau sits primarily at grey/white matter boundary zones in PSP. Targeted PET assessment at the GM/WM boundary can help tease out group PSP vs. control differences

Matsulevits et al. demonstrate that deep learning accelerates disconnectome generation by 720x, improving prediction of 1-year post-stroke outcomes with 85% accuracy. Read at: tinyurl.com/33r7txxr Anna Matsulevits Michel Thiebaut de S Lia Talozzi

How does stroke disrupt neurotransmitter circuits? We built an MRI atlas of neurotransmitter circuits to map pre- & postsynaptic disruptions. Our findings shed light on stroke cognitive deficits and potential treatments. Read more in Nature Communications: rdcu.be/edHcH

We think of white matter as the brain's highways—uniform conduits between cortices. What if we study development along tracts? Turns out the journey matters as much as the cortical destination! We're thrilled to share “Two Axes of White Matter Development”bit.ly/wmaxes

One of the most important recent works in dMRI field by Tim B. Dyrby showing dMRI compared with microstructure. A lot of insights into brain microstructure and macro structure. 👇🧠 A must read for those working on dMRI. doi.org/10.7554/eLife.…

🧠 Just out in Nature: A human brain map of mitochondrial diversity. A powerful collaboration with Mosharov and Martin Picard. Big step toward bridging cell biology and neuroimaging! 🔗 nature.com/articles/s4158… 🧬 #MitoBrainMap #neuroscience

Our lab has spent the last few years developing a fully automated tool for predicting personalized outcomes from stroke that incorporates lesion location. Our hope is that it bridges lesion research and clinical neurology. Check it out: medrxiv.org/content/10.110…

Using 4570 longitudinal MRIs + 1684 Aβ PET scans from cognitively healthy older adults, James Michael Roe find cortical thickness changed ≥7 years before PET-detectable Aβ. Those who later developed high Aβ already had thicker cortex & less thinning. @LCBC_uio biorxiv.org/content/10.110…