@MicTott @AllenNeuroLab @StephenMaren Great review! I wonder how these rhythms are related to the theta rhythms of cognitive control: https://t.co/LfCmbUqnEF https://t.co/uZMYJx6QCS
@stevenerrington Quantitive answers: https://t.co/ZbhkO92Dwr https://t.co/skkRth2BGg Qualitative answers: rats "know" the moment that they make an error. Like Steph Curry when the ball leaves his hands. @laubach_mark has thoughts, I'm sure. Expts with ex
We followed up on that finding (post error slowing, in our task) in a collaboration with Michael Frank and Jim Cavanagh, published in Nature Neuroscience in 2013. This linked the between trial persistent activity to medial frontal theta (in humans). https:
RT @laubach_mark: https://t.co/Z7q2dMEmoJ This is a really interesting study by @StokesNeuro!!! Would love to apply this to data from https…
RT @laubach_mark: https://t.co/Z7q2dMEmoJ This is a really interesting study by @StokesNeuro!!! Would love to apply this to data from https…
RT @laubach_mark: https://t.co/Z7q2dMEmoJ This is a really interesting study by @StokesNeuro!!! Would love to apply this to data from https…
RT @laubach_mark: https://t.co/Z7q2dMEmoJ This is a really interesting study by @StokesNeuro!!! Would love to apply this to data from https…
Thanks Mark! Never too late, right? so long as you can still find the data...Get in touch if you want chat about the approach https://t.co/YFvMRBIJcg
https://t.co/Z7q2dMEmoJ This is a really interesting study by @StokesNeuro!!! Would love to apply this to data from https://t.co/aAxQV7XJaC.
@cmacsbrain Wow...reminds me of https://t.co/NlfgUvRQ3I ...and... https://t.co/gVhTrkVk6x ...and... https://t.co/PPbKgfbvwM
Common medial frontal mechanisms of adaptive control in humans and rodents http://t.co/hNRdePnqwm
Common medial frontal mechanisms of adaptive control in humans and rodents http://t.co/W6cVlljuat
Neuro : face à l'erreur, l'homme s'adapte un peu comme le rongeur http://t.co/RtWNNQWsyZ (+ http://t.co/tPGMZBB2En )
Neuro : face à l'erreur, l'homme s'adapte un peu comme le rongeur http://t.co/RtWNNQWsyZ (+ http://t.co/tPGMZBB2En )
New paper from Michael Frank: Common medial frontal mechanisms of adaptive control in humans and rodents http://t.co/VcEEeyzKtG
Common brain networks within medial frontal cortex facilitate adaptive behavior in rodents and humans after errors. http://t.co/UJsK2F1amY
A new mechanism for behavioral adaptation http://t.co/zF3BEr1qeS
Common medial frontal mechanisms of adaptive control in humans and rodents http://t.co/9thhFjE7PB oscillations below 12 Hz after errors
Common medial frontal mechanisms of adaptive control in humans and rodents http://t.co/AYltzepYLr
¿Qué sucede en el cerebro cuando reconoce un error? http://t.co/kyKdSug4mS
AOP: Adaptive control in humans and rodents operates via common low-frequency oscillations in frontal cortex ($) http://t.co/CrO17Tf9b7
AOP: Adaptive control in humans and rodents operates via common low-frequency oscillations in frontal cortex ($) http://t.co/CrO17Tf9b7
Journal paper on MFC sending out low-freq brainwaves to motor #cortex during rat and human error recognition http://t.co/bdW031gAAo
ラットとヒトはともに、エラー後の行動調整に必要なのは内側前頭葉の低周波脳波で運動野と協同させること。Common medial frontal mechanisms of adaptive control in humans and …http://t.co/G4MlyrXYfc
ラットとヒトはともに、エラー後の行動調整に必要なのは内側前頭葉の低周波脳波で運動野と協同させること。Common medial frontal mechanisms of adaptive control in humans and …http://t.co/G4MlyrXYfc