Guy Avraham (@avraham_guy) 's Twitter Profile
Guy Avraham

@avraham_guy

Postdoctoral fellow @BerkeleyPsych and @UCBerkeleyNeuro - sensorimotor integration, motor learning and cognitive control of movements

ID: 3265728090

calendar_today02-07-2015 06:13:01

822 Tweet

751 Followers

593 Following

Gerard Derosiere (@gderosiere) 's Twitter Profile Photo

Excited to share our latest preprint on fronto-motor circuits and their connection to subclinical apathy and effort-based decision-making! Check it out! biorxiv.org/content/10.110…

Excited to share our latest preprint on fronto-motor circuits and their connection to subclinical apathy and effort-based decision-making! Check it out!

biorxiv.org/content/10.110…
Tianhe Wang (@tianhwang) 's Twitter Profile Photo

I am happy to share my new preprint with David Whitney and Yifan Fang. We reveal two novel sequential effects in reaching movements and show that motor planning adheres to the principles of efficient coding. biorxiv.org/content/10.110…

Josh Cashaback (@jcashaback) 's Twitter Profile Photo

Our latest paper is out! We looked at the roles and interplay of reinforcement and error feedback on exploration during reaching and gait for neurotypical individuals and those with Parkinson's disease. journals.plos.org/ploscompbiol/a…

Bart Swinnen (@bart_swinnen) 's Twitter Profile Photo

Thrilled to share this study on LFP physiomarkers of anxiety in PD. Humbled and honored to have worked on this transatlantic triple-cohort project with the most incredible team Simon Little Lucia Ricciardi Colin Hoy Francesca Morgante

shany grossman (@shanygrossman) 's Twitter Profile Photo

Our Trends in Neurosciences review on task representational spaces in OFC/vmPFC and in deep RL models is now out! Had a great time working on it with Nir Moneta and Nico Schuck, check it out here: cell.com/trends/neurosc…

Firas Mawase (@firasmawase) 's Twitter Profile Photo

How does the motor system enable dexterous finger movement, and how does it recover after a stroke? Many questions remain, but in this ANN model designed to "mimic" physiological insights from humans and NHPs, we identified novel predictions: iopscience.iop.org/article/10.108…

How does the motor system enable dexterous finger movement, and how does it recover after a stroke? Many questions remain, but in this ANN model designed to "mimic" physiological insights from humans and NHPs, we identified novel predictions:
iopscience.iop.org/article/10.108…
Gerard Derosiere (@gderosiere) 's Twitter Profile Photo

1/5 Thrilled to share our Perspective in Nature Communications! Collaborating with solaiman.shokur & Pierre Vassiliadis on this was such a rewarding experience. If you're into motor control and/or reward processing and/or neurotechnology, please take a look! Link: nature.com/articles/s4146…

1/5 Thrilled to share our Perspective in <a href="/NatureComms/">Nature Communications</a>! Collaborating with <a href="/SolaimanShokur/">solaiman.shokur</a> &amp; <a href="/PTVassiliadis/">Pierre Vassiliadis</a> on this was such a rewarding experience. If you're into motor control and/or reward processing and/or neurotechnology, please take a look! Link: nature.com/articles/s4146…
Eugene Poh (@eugenepoh_z) 's Twitter Profile Photo

🚨 New preprint alert! Attention isn’t always helpful. We found that dividing attention can boost implicit adaptation—if timed right. A twist on the idea that distraction always impairs performance. w Ben Miller-Mills Tim Carroll biorxiv.org/content/10.110… #biorxiv_neursci

Simon Little (@littleneuro) 's Twitter Profile Photo

Happy to share our latest study led by Tanner Dixon and our team UC San Francisco out today in Nature BME! Movement Responsive AI programmed BCI-aDBS improves naturalistic motion and reduces excessive movements at rest in PD. nature.com/articles/s4155…

Jonathan Sanching Tsay @tsay.bsky.social (@tsay_jonathan) 's Twitter Profile Photo

New preprint with Sritej, Reza Shadmehr , and Roberta Klatzky now on bioRxiv! Motor adaptation—our ability to correct errors using feedback—is attenuated in a Bayes-optimal manner when goals are uncertain. Welcome any and all feedback! tinyurl.com/y9kjcfzj

New preprint with Sritej, <a href="/reziliusReza/">Reza Shadmehr</a> , and Roberta Klatzky now on <a href="/biorxivpreprint/">bioRxiv</a>!  

Motor adaptation—our ability to correct errors using feedback—is attenuated in a Bayes-optimal manner when goals are uncertain.  

Welcome any and all feedback!  tinyurl.com/y9kjcfzj
Sam McDougle (@smickdougle) 's Twitter Profile Photo

Happy to announce that my lab @ Yale Psychology (actcompthink.org) will be accepting PhD apps this year (for start in Fall '26)! Come for fun experiments on human learning, memory, & skilled behavior, stay for the best 🍕 in the US. Please reach out w/ any questions!

Lilach Avitan (@lilachavitan) 's Twitter Profile Photo

How do animals stay precise when their whole brain heats up or cools down? Larval zebrafish hunt accurately across a 10°C range. What enables such stability? What mechanism might support it? #zebrafish #neuroscience #temperature Shai Tishby Tamari ELSC Brain doi.org/10.1101/2025.0…

Gerard Derosiere (@gderosiere) 's Twitter Profile Photo

Very glad to see our Review article out! It was a pleasure to collaborate with David Thura, Adrian Haith, and Julie Duque. Link: sciencedirect.com/science/articl…

Very glad to see our Review article out! It was a pleasure to collaborate with David Thura, Adrian Haith, and Julie Duque.

Link: sciencedirect.com/science/articl…
Sam McDougle (@smickdougle) 's Twitter Profile Photo

New preprint from the lab! 🧠 Led by Juliana Trach, w/ Sophia Ou Using fMRI, we discovered evidence for time-sensitive reward prediction errors (RPEs) in the human cerebellum. Builds on, and extends, recent work in both rodents and NHPs

New preprint from the lab! 🧠
Led by Juliana Trach, w/ Sophia Ou

Using fMRI, we discovered evidence for time-sensitive reward prediction errors (RPEs) in the human cerebellum. 

Builds on, and extends, recent work in both rodents and NHPs