Kaltschmidt-Lab
@kaltschmidt_lab
Kaltschmidt Lab, Dept. of Neurosurgery, Stanford University. Research in spinal cord and ENS circuitry. Maintained by lab members. Retweets =/= endorsements!
ID:1170725150888607744
http://med.stanford.edu/kaltschmidt-lab.html 08-09-2019 15:48:07
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incredibly interesting study knockout of GLP1 RECEPTOR + Germ Free = Lethality 🐁🐭 - Fig 1 pics are impressive!🤔🤔Bäckhed Lab and Daniel J Drucker Molecular Metabolism
glucagon.com/pdfs/GreinerMo…
The ENS organizes itself into stripes along the length of the intestine, and defects in this patterning may result in GI disorders according to a novel theory proposed by Wu Tsai Neuro Faculty Scholar Julia Kaltschmidt Kaltschmidt-Lab and Lori Dershowitz.
neuroscience.stanford.edu/news/neuroscie…
Check out our latest bioRxiv
Collaborative work with the Geschwind Lab @ UCLA to explore shared and distinct molecular signatures in cortical #organoids from 70 hiPS cell lines representing 8 different neurodevelopmental disorders, idiopathic autism spectrum disorder patients
We are excited to share our latest preprint on Gpr37 modulates the severity of inflammation-induced GI dysmotility by regulating enteric reactive gliosis.
biorxiv.org/content/10.110…
Great collaboration with Oliver Hahn, Randy Hall, Tony Wyss-Coray and Laren Becker labs!
We are excited to share our latest preprint: 'Enteric glutamatergic interneurons regulate intestinal motility' biorxiv.org/content/10.110… Congratulations to all authors! Great lead by Ryan Hamnett.
Truly grateful to MIND Prize and Pershing Square Foundation and honored to be among this group!!
Amazing first day of conference!! Started with a warm welcome to Philly from Heuckeroth Lab, a great keynote from Shelley Berger, and ENS shoes! 😍😍😍😍 #ens #developmentalbiology #epigenetics
The Little Brain Big Brain 2024 young investigator meeting takes place as a satellite meeting to FNM 2024 in Thailand. Applications are still open! Submit your application by March 31st via the official Little Brain Big Brain website or by clicking the link: bit.ly/3IBrGHq
Today we are sharing our most complex #assembloid to date: a 4-part model of the human ascending neural somatosensory pathway generated by functionally integrating stem cell-derived cerebral cortical, thalamic, spinal and sensory #organoids .
Check out the bioRxiv and
Are you ready to unravel the mystery of the gut-brain connection? Join us at the First Texas A&M Neural-Gut Axis Symposium:
'A Gut Feeling: Unraveling the Neural-Gut Axis to Cure Disease'!
March 7-8, 2024 College Station, Texas
Register at neurogutaxis.com
#Microbiome