RT @DaveGennert: Dominique Bonnet @TheCrick talks LSC/BM/normal microenv't cross-talk at #aacramlmds, including work in @BCD_AACR on how th…
RT @DaveGennert: Dominique Bonnet @TheCrick talks LSC/BM/normal microenv't cross-talk at #aacramlmds, including work in @BCD_AACR on how th…
RT @DaveGennert: Dominique Bonnet @TheCrick talks LSC/BM/normal microenv't cross-talk at #aacramlmds, including work in @BCD_AACR on how th…
Dominique Bonnet @TheCrick talks LSC/BM/normal microenv't cross-talk at #aacramlmds, including work in @BCD_AACR on how they model #MDS stem cell niche in mouse: https://t.co/lJXkc5uMsl https://t.co/4MttOL0EPA
Researchers like Syed Mian ⬇️ are essential to look at sub-groups of #MDS. Mutations are crucial information that will help to guide treatment choices and prognosis. But more work needed... #MDSWAD2021 #learnyourtype
New article: Ectopic Humanized Mesenchymal Niche in Mice Enables Robust Engraftment of Myelodysplastic Stem Cells https://t.co/UAmwIfMUOR #MDS #mdssm #hematology https://t.co/4Fx2US1HUN
#ICYMI: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollegeLon @CICbiomaGUNE @QMBCI @TheCrick https://t.co/2PZthybI5N https://t.co/1kU4M5W76F
RT @BCD_AACR: #ICYMI: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollege…
RT @BCD_AACR: #ICYMI: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollege…
RT @BCD_AACR: #ICYMI: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollege…
RT @BCD_AACR: #ICYMI: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollege…
RT @BCD_AACR: #ICYMI: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollege…
#ICYMI: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollegeLon @CICbiomaGUNE @QMBCI @TheCrick https://t.co/La1ABBWFcu https://t.co/I0qbAQpldF
RT @BCD_AACR: #ICYMI: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollege…
New article: Ectopic humanized mesenchymal niche in mice enables robust engraftment of myelodysplastic stem cells https://t.co/JNlA6nPvIe #MDS #mdssm #hematology https://t.co/7FCrnFZ9iT
RT @BCD_AACR: #ICYMI: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollege…
Click and have a look to this amazing paper from my colleagues! 👏👏👏👏
RT @BCD_AACR: #ICYMI: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollege…
RT @BCD_AACR: #ICYMI: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollege…
#ICYMI: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollegeLon @CICbiomaGUNE @QMBCI @TheCrick https://t.co/aPnGxecfGZ https://t.co/YWQeDAiREG
RT @BCD_AACR: From the March issue: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells.…
RT @BCD_AACR: From the March issue: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells.…
From the March issue: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollegeLon @CICbiomaGUNE @QMBCI @TheCrick https://t.co/apmV9w1IBy https://t.co/yE8kBVzPFw
RT @SyedAMian: Excited to share our recent story that opens new avenues to study #MDS #StemCells, #Clonaldynamics, #microenvironment!!! #he…
RT @SyedAMian: Excited to share our recent story that opens new avenues to study #MDS #StemCells, #Clonaldynamics, #microenvironment!!! #he…
RT @SyedAMian: Excited to share our recent story that opens new avenues to study #MDS #StemCells, #Clonaldynamics, #microenvironment!!! #he…
Excited to share our recent story that opens new avenues to study #MDS #StemCells, #Clonaldynamics, #microenvironment!!! #hematopoiesis #MSCs #mutations https://t.co/b85nwZrafo
Productive end to crappy 2020 https://t.co/DsjhLM8HyO #MDS #Hematopoiesis #Stemcells #MSCs #bloodcancers
RT @KordastiL: Great work by Syed Mian and Dominique Bonnet. https://t.co/Gk3AoYtCZh
Great work from @SyedAMian and colleagues. Happy to have contributed. #MDS have always been challenging to engraft. This model opens new perspectives to study MDS clonal dynamic in their micro-environment.
Modelling of the mesenchymal niche and myelodysplasia with humanised ossicles! Congrats @SyedAMian and the Bonnet lab!
RT @DoctorDianaP: Great work from @SyedMian8 and colleagues at @TheCrick on in vivo human #organoids for myeloid #leukemia 👏🏻
Great work from @SyedMian8 and colleagues at @TheCrick on in vivo human #organoids for myeloid #leukemia 👏🏻
Super exciting new way to study the stem cell niche
RT @KordastiL: Great work by Syed Mian and Dominique Bonnet. https://t.co/Gk3AoYtCZh
Great work by Syed Mian and Dominique Bonnet. https://t.co/Gk3AoYtCZh
RT @BCD_AACR: Just published #OnlineFirst: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem…
RT @BCD_AACR: Just published #OnlineFirst: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem…
RT @BCD_AACR: Just published #OnlineFirst: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem…
RT @BCD_AACR: Just published #OnlineFirst: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem…
RT @BCD_AACR: Just published #OnlineFirst: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem…
Just published #OnlineFirst: Ectopic humanized mesenchymal niche in mice enables robust engraftment of #myelodysplastic stem cells. @KingsCollegeLon @CICbiomaGUNE @QMBCI @TheCrick https://t.co/oVomfmtQXT https://t.co/veWwCnskYw