RT @organoidscience: Investigators from @UMich, alongside Drs. Joerg Lahann and Eva Feldman, generated #BrainOrganoids 🧠 using engineered e…
RT @iamtugbatopal: Our work is online! 😎 🧠🧫 @LahannLab @EvaFeldmanMDPhD @UMBiointerfaces @UMengineering @UMichChE
RT @Neu_rehab: Annals of Clinical & Translational Neurology @aysemuniz @iamtugbatopal, Michael D. Brooks, Angela Sze, @dhoon_hii, Jacob Jor…
RT @medical_xpress: Artificial mini-brains without animal components offer neuroscience opportunities @umich https://t.co/4q502zwQz0 https:…
RT @ANA_journals: #TRENDING don't miss out on Engineered extracellular matrices facilitate #brain #organoids from human pluripotent #stemce…
RT @ANA_journals: #TRENDING don't miss out on Engineered extracellular matrices facilitate #brain #organoids from human pluripotent #stemce…
#TRENDING don't miss out on Engineered extracellular matrices facilitate #brain #organoids from human pluripotent #stemcells @TheNewANA1 @WileyNeuro @ISSCR https://t.co/Sp1F7DJ3Sa
🧠😍 #3R #organoïdes: des mini #cerveaux artificiels sans composants animaux, offrent des opportunités en neurosciences et recherche relative aux maladies neurodégénératives https://t.co/P7DnYtFdmE https://t.co/23CVT8MCWS
Engineered extracellular matrices facilitate brain organoids from human pluripotent stem cells https://t.co/cpp9OqTAvE
RT @NeuroscienceNew: “Engineered extracellular matrices facilitate brain organoids from human pluripotent stem cells” by Joerg Lahann et al…
RT @Maurice_Y_Lee: The images of a brain organoid in the news and in the actual paper are rather different https://t.co/Absu52FjEL https://…
RT @Maurice_Y_Lee: The images of a brain organoid in the news and in the actual paper are rather different https://t.co/Absu52FjEL https://…
self-assembled, 3D tissues derived from embryonic or pluripotent stem cells model the complex brain structure https://t.co/WP1fYwsZF6
RT @Maurice_Y_Lee: The images of a brain organoid in the news and in the actual paper are rather different https://t.co/Absu52FjEL https://…
RT @Maurice_Y_Lee: The images of a brain organoid in the news and in the actual paper are rather different https://t.co/Absu52FjEL https://…
The images of a brain organoid in the news and in the actual paper are rather different https://t.co/Absu52FjEL https://t.co/C4yecLMIGJ https://t.co/uqvp2SysFl
Engineered extracellular matrices facilitate brain organoids from human pluripotent stem cells - Muñiz - Annals of Clinical and Translational Neurology - Wiley Online Library https://t.co/QDa8hXYaWA
Annals of Clinical & Translational Neurology @aysemuniz @iamtugbatopal, Michael D. Brooks, Angela Sze, @dhoon_hii, Jacob Jordahl, Joe Nguyen, Paul H Krebsbach, @MashaSavelieffieff @EvaFeldmanMDPhD @LahannLab #neuroscience #NeuroTwitter #Neurotech #bra
论文链接: https://t.co/klwXt0hWao
RT @SustainHistory: Engineered extracellular matrices facilitate brain #Organoids from human #PluripotentStemCells https://t.co/DH83gTVMyV
RT @JOHANATELLO: Researchers developed a method to produce human brain #organoids — free of animal cells that could greatly improve the w…
Great work by @aysemuniz, @iamtugbatopal, @EvaFeldmanMDPhD, @LahannLab & team from @UMBiointerfaces! 🥳 https://t.co/rOmZcaHhvD https://t.co/VZuSQ5FYIN
Researchers developed a method to produce human brain #organoids — free of animal cells that could greatly improve the way #neurodegenerative conditions are studied and, eventually, treated. https://t.co/A4Azs5Lo2R
RT @medical_xpress: Artificial mini-brains without animal components offer neuroscience opportunities @umich https://t.co/4q502zwQz0 https:…
RT @SustainHistory: Engineered extracellular matrices facilitate brain #Organoids from human #PluripotentStemCells https://t.co/DH83gTVMyV
Engineered extracellular matrices facilitate brain #Organoids from human #PluripotentStemCells https://t.co/DH83gTVMyV
RT @medical_xpress: Artificial mini-brains without animal components offer neuroscience opportunities @umich https://t.co/4q502zwQz0 https:…
Whoa. 🤯
RT @NeuroscienceNew: “Engineered extracellular matrices facilitate brain organoids from human pluripotent stem cells” by Joerg Lahann et al…
RT @NeuroscienceNew: “Engineered extracellular matrices facilitate brain organoids from human pluripotent stem cells” by Joerg Lahann et al…
RT @NeuroscienceNew: “Engineered extracellular matrices facilitate brain organoids from human pluripotent stem cells” by Joerg Lahann et al…
“Engineered extracellular matrices facilitate brain organoids from human pluripotent stem cells” by Joerg Lahann et al. Annals of Clinical and Translational Neurology https://t.co/MiQOJ52Dct 2/2
“There is a possibility to take stem cells from a patient with a condition such as ALS or Alzheimer’s and, essentially, build an avatar mini brain of that patients to investigate possible treatments or model [disease progession].” -@EvaFeldmanMDPhD. Study:
RT @medical_xpress: Artificial mini-brains without animal components offer neuroscience opportunities @umich https://t.co/4q502zwQz0 https:…
Artificial mini-brains without animal components offer neuroscience opportunities @umich https://t.co/4q502zwQz0 https://t.co/JSWOA0tQKd
RT @organoidscience: Investigators from @UMich, alongside Drs. Joerg Lahann and Eva Feldman, generated #BrainOrganoids 🧠 using engineered e…
RT @organoidscience: Investigators from @UMich, alongside Drs. Joerg Lahann and Eva Feldman, generated #BrainOrganoids 🧠 using engineered e…
Investigators from @UMich, alongside Drs. Joerg Lahann and Eva Feldman, generated #BrainOrganoids 🧠 using engineered extracellular matrix comprised of human fibrillar #fibronectin supported by a highly porous polymer scaffold. Learn more: 📑 https://t.co/Q
RT @iamtugbatopal: Our work is online! 😎 🧠🧫 @LahannLab @EvaFeldmanMDPhD @UMBiointerfaces @UMengineering @UMichChE
Our work is online! 😎 🧠🧫 @LahannLab @EvaFeldmanMDPhD @UMBiointerfaces @UMengineering @UMichChE
🧠 Drs. Eva Feldman, Joerg Lahann at @umich_NeuroNet, and their team generated brain organoids using engineered extracellular matrix comprised of human fibrillar fibronectin supported by a highly porous polymer scaffold. https://t.co/yBVHUGOsGz https://t.