Our new paper is out now in Neuron! 🎉 With @vaibhavtripathi.bsky.social @maxwellelliott.bsky.social Joanna Ladopoulou, Wendy Sun, Mark Eldaief, and Randy Buckner Paper link: www.sciencedirect.com/science/arti...

A paper in Nature Aging describes the Dunedin Pace of Aging Calculated from #NeuroImaging measure, an approach that uses a single brain image to measure how fast a person is aging and can help predict mortality or the risk of developing chronic disease. go.nature.com/3GADPij#NeuroImaging#medsky 🧪

Do you want to estimate brain aging from a single MRI scan? Check out our latest work in Nature Aging "DunedinPACNI estimates the longitudinal Pace of Aging from a single brain image to track health and disease"

Now published in @nataging.nature.com‬ ! We propose DunedinPACNI, a new measure of the rate of aging that can be derived from a single structural brain scan www.nature.com/articles/s43...

@npp-journal.bsky.social @uwpsych.bsky.social @sansmeeting.bsky.social @cnsmtg.bsky.social @avramholmes.bsky.social @jnfrltackett.bsky.social @aidangcw.bsky.social @vijayamittal.bsky.social @kevinmking.bsky.social @torwager.bsky.social @pkragel.bsky.social @maxwellelliott.bsky.social

New preprint!!! We can reliably detect brain changes in individuals in just a year by collecting several rapid 1-minute T1s at each time point - i.e. "cluster scanning". We discovered large individual differences, even in healthy adults t.co/oxD9EBdbvu

[PREPRINT❗️❗️] Very excited to share our latest work on precision mapping of brain networks exclusively using task data!🧠 With @maxwellelliott.bsky.social Joanna Ladopoulou, Mark Eldaief, and Randy Buckner www.biorxiv.org/content/10.1... (1/6)

Really interesting from @maxwellelliott.bsky.social et al: 1-year brain changes reliably detected by cluster-scanning - burst of multiple, very short T1's. Great potential for tracking individual differences in brain change over clinically meaningful intervals. www.medrxiv.org/content/10.1...