Parabrachial inputs to the parafascicular thalamus drive sensory and affective-motivational responses to cold-allodynia in mice https://t.co/IWFwSjScX0
We start by outlining the neurons that specifically sense itch at the spinal level and their genetic markers; how different types of itch stimuli evoke responses from different neurons; and finally, the itch matrix which outlines the major regions involved in itch sensation.
Glad to have published a review on itch alongside Jagat from the BarikLab. Have to thank @BarikkArnab for the supervision and support and thank @India_Alliance and @iiscbangalore
Heres’ the link to the review, hope you have a good read: https://t.co/Nox9UV0SOv
To borrow a quote from our abstract, “This review outlines the genetically defined and evolutionary conserved circuits for itch ranging from the skin-innervating peripheral neurons to the cortical neurons that drive scratching.”
Additionally, as is with anything in the nervous system, nothing works in isolation. The sensation of itch has an antagonistic relationship with pain. We discuss this antagonistic relationship in different regions of the brain with a primary focus on the Parabrachial nucleus.
🙌April was busy for our INDP Students: Guillermo Martin joins Prannay to discuss everything from the #CarnationRevolution🌹 to the completion of PhD rotations 🥼 Mentions also for community building, including #HappyHour🍻 #BookClub📚 & #ColloquiaSeries
📹https://t.co/DLgBbce0jz
An experience brought to you by man and machine and a taste of what the future with AI can hold. But what role will we play in shaping tomorrow's intelligence?
Click on the post and join us for the last event of the Ar series exploring AI.
🤖Can there be AI-Human symbiosis? Can AI mitigate social disparities? Can AI remove imperfections from humanity? Join us last event of the Ar series exploring Artificial Intelligence 🙌 🎟️ https://t.co/rOyZqvSngY
🙌This year’s PhD programme, meet next year’s! Prannay speaks to a whole host of hopeful candidates for next year’s course, discovering their first impressions, hopes and feelings! Spoiler: they all love the view! 📹Watch here: https://t.co/2glDjCg9cx
⚡The January edition of PhD Student Diaries is here! Catch up with the latest news: everything from #ArtificialNeuralNetworks to @jprannay’s latest issues with Portuguese cakes - this time, the cafeteria is under fire! 🍰
📹https://t.co/PgyzhbMybM
On this edition of student diaries ... The man behind the lens and the heritage of the AR series.
Also .. a specially different style of student diaries for the month of December.
⚡This month’s PhD Student Diary goes around the world with @jprannay and camera operator Arjun for the #INDP winter break! The pair are also joined by a special guest to talk about the latest Ar Event! @Neuro_CF
📹https://t.co/XExaz7Hin6
PhD Student Diaries #3 has more travel, work, parties and chestnuts🌰(!) than ever before! Plus Ana reveals why she only has friends who follow a certain team in red… @Neuro_CF@jprannay
📽️https://t.co/nPcuGnBd1u
For +info about the @ChampalimaudF INDP: https://t.co/8aQM4H6pjp
💡In the 2nd edition of PhD Student Diaries, the #INDP group head to Porto, wrestle with statistics and attend the @Neuro_CF Symposium, but will @jprannay finally find some Portuguese food that he likes?? 📹Watch the Video: https://t.co/JULPB8voB1
The signature characteristics were then used to compare how when the Pbn-Tacr1 cells when activated simulate either acute or chronic behaviour characteristics.
I am glad to introduce and be an author on the first publication from @BarikkArnab's lab where we developed a DLC @DeepLabCut pipeline to analyse rodent behaviour on a thermal plate. This study was funded by @iiscbangalore@serbonline and @India_Alliance
https://t.co/ka8LuH6eyj
The signature characteristics were then used to compare how when the Pbn-Tacr1 cells when activated simulate either acute or chronic behaviour characteristics.