Discover and read the best of Twitter Threads about #sfn2022
Most recents (4)
Hi friends at #SfN2022, we saved our best for last! This afternoon we have several awesome posters. @HNyXJ (Hamed Nejat, his inaugural SfN conference) used computational modeling and reinforcement learning to study predictive routing, XX45, teaser below (1/3) 
Together with @MendozaHalliday and colleagues we report on the discovery of a cortex-wide physiological motif in LFP power. Superficial and deep layers have different spectral signatures and accurately map layers (with histological confirmation), QQ3 and teaser below (2/3)
And the talented @alexjamesmajor and others at @MillerLabMIT present a causal test of predictive routing at RR2. Come check them out, we would welcome feedback and discussions! (3/3)
As promised, I'm posting some answers to questions about my talk "Dopaminergic Control of Self-timed Movement" from #sfn2022! Here's question #2...which has a free will bent...! (a thread) @TimingForum @aysha_motala @MartinMwiener #SfN22 (1/21)
2/21
3/21
As promised at today's #SfN2022 Neurobiological Basis of Timing NanoSymposium, I'm posting some answers to questions about my talk that we didn't have time for! Here's question #1...(a thread!) @TimingForum @aysha_motala @MartinMwiener #SfN22 (1/12)
Here's what's been seen before in mice making self-initiated licks! pubmed.ncbi.nlm.nih.gov/30323275/ (2/12)
The signals we see in self-timed licking are similar, but with some differences! But maybe we'd see similar things in self-initiated licking if we knew what to align signals to. (3/12)
🚨 Alert! We are excited to share our new preprint in which we define the roles of individual class I molecules on brain endothelium in the regulation of T cell responses and development of neuropathology in experimental cerebral malaria
biorxiv.org/content/10.110…
biorxiv.org/content/10.110…
CD8 T cell engagement of brain vasculature has been implicated in the neuropathology of cerebral malaria. In this work we interrogated human and mouse data during infection and noted upregulation of activation and Ag-presentation molecules or transcripts in brain endothelium
When either class I was ablated, the mice were normal at baseline and also established normal peripheral plasmodium infection and peripheral immune responses. However, T cell interactions with brain endothelium were disrupted during infection
