Estudio revela nuevo mecanismo para la comunicación celular a larga distancia. Clave para usar vesículas extracelulares o EV, como un tratamiento terapéutico que se dirige a enfermedades, como la lesión pulmonar y el cáncer. https://t.co/lnY5GuHJtG https:/
Now, even when #extracellularvesicles are characterised and loaded with their desired drug, we still need to understand other factors during their interaction with target tissue. One example would be interaction with extracellular matrices https://t.co/rqG
RT @nih_nhlbi: #NHLBI-funded research may inform how extracellular vesicles, best known for shuttling molecules from cell to cell, could be…
RT @nih_nhlbi: #NHLBI-funded research may inform how extracellular vesicles, best known for shuttling molecules from cell to cell, could be…
RT @nih_nhlbi: #NHLBI-funded research may inform how extracellular vesicles, best known for shuttling molecules from cell to cell, could be…
#NHLBI-funded research may inform how extracellular vesicles, best known for shuttling molecules from cell to cell, could be used therapeutically to better facilitate their delivery through tissue extracellular matrices. https://t.co/1u7wNXDBCl https://t.c
RT @exRNA: from @UICPharmacology in @NatureNano: Matrix mechanics and water permeation regulate #extracellularvesicle transport https://t.c…
RT @exRNA: from @UICPharmacology in @NatureNano: Matrix mechanics and water permeation regulate #extracellularvesicle transport https://t.c…
from @UICPharmacology in @NatureNano: Matrix mechanics and water permeation regulate #extracellularvesicle transport https://t.co/iKUFy20IWB
RT @AaronJonScott: This is cool. I've always wondered how extracellular vesicles travel through ECM, seems a difficult yet necessary traver…
RT @AaronJonScott: This is cool. I've always wondered how extracellular vesicles travel through ECM, seems a difficult yet necessary traver…
RT @AaronJonScott: This is cool. I've always wondered how extracellular vesicles travel through ECM, seems a difficult yet necessary traver…
RT @AaronJonScott: This is cool. I've always wondered how extracellular vesicles travel through ECM, seems a difficult yet necessary traver…
RT @AaronJonScott: This is cool. I've always wondered how extracellular vesicles travel through ECM, seems a difficult yet necessary traver…
RT @AaronJonScott: This is cool. I've always wondered how extracellular vesicles travel through ECM, seems a difficult yet necessary traver…
RT @AaronJonScott: This is cool. I've always wondered how extracellular vesicles travel through ECM, seems a difficult yet necessary traver…
RT @AaronJonScott: This is cool. I've always wondered how extracellular vesicles travel through ECM, seems a difficult yet necessary traver…
RT @AaronJonScott: This is cool. I've always wondered how extracellular vesicles travel through ECM, seems a difficult yet necessary traver…
This is cool. I've always wondered how extracellular vesicles travel through ECM, seems a difficult yet necessary traverse... This is the first paper I've seen that begins looking into this https://t.co/HwuIksgAJo https://t.co/6eA7ogqotb
RT @ChristineHorejs: Ever wondered how #ExtracellularVesicles can get through the dense extracellular matrix despite their size? Wonder no…
RT @BurdickLab: Recent work suggests potential implications of matrix mechanics and water permeation on extracellular vesicle transport htt…
RT @BurdickLab: Recent work suggests potential implications of matrix mechanics and water permeation on extracellular vesicle transport htt…
Recent work suggests potential implications of matrix mechanics and water permeation on extracellular vesicle transport https://t.co/t3vE0qKjrp #BurdickLabReads
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
Exciting work!
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @FuhrmannGregor: A very recent manuscript looks at the transport and diffusion of #ExtracellularVesicles within hydrogel matrices https:…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @FuhrmannGregor: And also check out our News and Views contribution on this work https://t.co/vsUZMqVwsD @NatureNano. It is currently no…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @FuhrmannGregor: A very recent manuscript looks at the transport and diffusion of #ExtracellularVesicles within hydrogel matrices https:…
Really great work @regenknol and others
Congrats, Jae, Stephen and team! This is a very interesting story
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
Congratulations Jae Won.
RT @ChristineHorejs: Ever wondered how #ExtracellularVesicles can get through the dense extracellular matrix despite their size? Wonder no…
RT @ChristineHorejs: Ever wondered how #ExtracellularVesicles can get through the dense extracellular matrix despite their size? Wonder no…
EV's and Matrix ! My favorites in one cool paper.
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @NatureNano: New content online: Matrix mechanics and water permeation regulate extracellular vesicle transport https://t.co/rw9mhI1UtZ…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @NatureNano: New content online: Matrix mechanics and water permeation regulate extracellular vesicle transport https://t.co/rw9mhI1UtZ…
RT @NatureNano: New content online: Matrix mechanics and water permeation regulate extracellular vesicle transport https://t.co/rw9mhI1UtZ…
RT @NatureNano: New content online: Matrix mechanics and water permeation regulate extracellular vesicle transport https://t.co/rw9mhI1UtZ…
RT @NatureNano: New content online: Matrix mechanics and water permeation regulate extracellular vesicle transport https://t.co/rw9mhI1UtZ…
New content online: Matrix mechanics and water permeation regulate extracellular vesicle transport https://t.co/rw9mhI1UtZ https://t.co/NCxOvxp8ib
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @FuhrmannGregor: A very recent manuscript looks at the transport and diffusion of #ExtracellularVesicles within hydrogel matrices https:…
RT @FuhrmannGregor: A very recent manuscript looks at the transport and diffusion of #ExtracellularVesicles within hydrogel matrices https:…
RT @FuhrmannGregor: A very recent manuscript looks at the transport and diffusion of #ExtracellularVesicles within hydrogel matrices https:…
RT @ChristineHorejs: Ever wondered how #ExtracellularVesicles can get through the dense extracellular matrix despite their size? Wonder no…
RT @ChristineHorejs: Ever wondered how #ExtracellularVesicles can get through the dense extracellular matrix despite their size? Wonder no…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @ChristineHorejs: Ever wondered how #ExtracellularVesicles can get through the dense extracellular matrix despite their size? Wonder no…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
Congratulations Jae-Won (@regenknol ) and everyone involved. Nice work!
Matrix mechanics and water permeation regulate extracellular vesicle transport https://t.co/0u6jiKOnPS https://t.co/mXCKkQjbQE
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @ChristineHorejs: Ever wondered how #ExtracellularVesicles can get through the dense extracellular matrix despite their size? Wonder no…
RT @regenknol: Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats,…
RT @ChristineHorejs: Ever wondered how #ExtracellularVesicles can get through the dense extracellular matrix despite their size? Wonder no…
RT @FuhrmannGregor: A very recent manuscript looks at the transport and diffusion of #ExtracellularVesicles within hydrogel matrices https:…
Potential implications in the evolution of biological particles for intercellular communications through matrices. Congrats, Stephen Lenzini (PhD student) and co-authors! https://t.co/DbxUsMfMDR @NatureNano @UICPharmacology @UICEngineering #extracellularv
RT @ChristineHorejs: Ever wondered how #ExtracellularVesicles can get through the dense extracellular matrix despite their size? Wonder no…
RT @ChristineHorejs: Ever wondered how #ExtracellularVesicles can get through the dense extracellular matrix despite their size? Wonder no…
Ever wondered how #ExtracellularVesicles can get through the dense extracellular matrix despite their size? Wonder no more! @NatureNano https://t.co/GMCIHzN5PU
RT @nanotrac: https://t.co/jiio7ZCRs3 Matrix mechanics and water permeation regulate extracellular vesicle transport https://t.co/wK1W0vYp8…
RT @FuhrmannGregor: And also check out our News and Views contribution on this work https://t.co/vsUZMqVwsD @NatureNano. It is currently no…
https://t.co/jiio7ZCRs3 Matrix mechanics and water permeation regulate extracellular vesicle transport https://t.co/wK1W0vYp8s Via @NatureNano https://t.co/tT8RVZqD9Z
RT @FuhrmannGregor: And also check out our News and Views contribution on this work https://t.co/vsUZMqVwsD @NatureNano. It is currently no…
And also check out our News and Views contribution on this work https://t.co/vsUZMqVwsD @NatureNano. It is currently not well-understood how #ExtracellularVesicles navigate within complex matrices. Now this has been addressed.
A very recent manuscript looks at the transport and diffusion of #ExtracellularVesicles within hydrogel matrices https://t.co/ZRNxvu2pFV Very nice work on fundamental mechanical EV processes in the extracellular matrix