RT @norionakatsuji: 因みに、論文で使われた原材料の細胞は、ヒトiPS細胞らしい。https://t.co/1aQngX0FRP
RT @norionakatsuji: 因みに、この論文で使った原材料の細胞は、ヒトiPS細胞らしい。https://t.co/1aQngX0FRP
RT @norionakatsuji: 因みに、この論文で使った原材料の細胞は、ヒトiPS細胞らしい。https://t.co/1aQngX0FRP
RT @norionakatsuji: 因みに、論文で使われた原材料の細胞は、ヒトiPS細胞らしい。https://t.co/1aQngX0FRP
因みに、論文で使われた原材料の細胞は、ヒトiPS細胞らしい。https://t.co/1aQngX0FRP
因みに、この論文で使った原材料の細胞は、ヒトiPS細胞らしい。https://t.co/1aQngX0FRP
RT @patologiaesaude: Você sabia? Atualmente existem impressoras 3D que estão trabalhando no desenvolvimento de órgãos. Não é incrível quand…
Você sabia? Atualmente existem impressoras 3D que estão trabalhando no desenvolvimento de órgãos. Não é incrível quando a ficção científica encontra a realidade? Leia o artigo na integra: https://t.co/acfUlLZarU #3dprinter #3Dprinting #saude #patologiaesa
RT @UMNIEM: #FunFactFriday The Best Manuscript Award in 2020 from Circulation Research was awarded to a UMN research team that includes Pro…
Excited to be involved in the next steps of developing this 3D-printed heart model! 🎉
#FunFactFriday The Best Manuscript Award in 2020 from Circulation Research was awarded to a UMN research team that includes Profs. Brenda Ogle & Alena G. Tolkacheva, PhD alum Molly Kupfer, & PhD students Wei-Han Lin and Ryan R. Mahutga! Congrats, t
ICYMI: Focus on the @CircRes article https://t.co/vFpKYvjCui https://t.co/tNbVjJOIF2
RT @OgleLab: The Ogle Lab wins Best Manuscript Award, Circulation Research, 2020!! https://t.co/5phXUY671t
RT @OgleLab: The Ogle Lab wins Best Manuscript Award, Circulation Research, 2020!! https://t.co/5phXUY671t
RT @OgleLab: The Ogle Lab wins Best Manuscript Award, Circulation Research, 2020!! https://t.co/5phXUY671t
Great to see this work recognized!
The Ogle Lab using #FRESH to print a heart chambered organoid has won Best Manuscript Award from Circulation Research in 2020! Congratulations!!
The Ogle Lab wins Best Manuscript Award, Circulation Research, 2020!! https://t.co/5phXUY671t
RT @Vilavaite: #3Dprinted tiny #heart muscle "pump" using human cells #bioprinting Using pluripotent stem cells programmed to become #car…
RT @Vilavaite: #3Dprinted tiny #heart muscle "pump" using human cells #bioprinting Using pluripotent stem cells programmed to become #car…
RT @Vilavaite: #3Dprinted tiny #heart muscle "pump" using human cells #bioprinting Using pluripotent stem cells programmed to become #car…
This is amazing...Can you imagine what 10 years form now will bring us @Vilavaite
RT @Vilavaite: #3Dprinted tiny #heart muscle "pump" using human cells #bioprinting Using pluripotent stem cells programmed to become #car…
RT @Vilavaite: #3Dprinted tiny #heart muscle "pump" using human cells #bioprinting Using pluripotent stem cells programmed to become #car…
#3Dprinted tiny #heart muscle "pump" using human cells #bioprinting Using pluripotent stem cells programmed to become #cardiomyocytes Within a month, the cells began #beating together, similar to a human #heart https://t.co/zgca6lUTXG https://t.co/6CxZ
İnsan hücreleri ve 3B biyoyazıcı kullanarak küçük bir kalp yapılmış. Bir farenin karın boşluğuna sığacak şekilde boyutlandırılan model kalp, bir gün yeni kalp ilaçları ve diğer tedaviler üzerinde çalışmak için yararlı olabilir. https://t.co/27AGgJywK1 ht
In Situ Expansion, Differentiation, and Electromechanical Coupling of Human Cardiac Muscle in a 3D Bioprinted, Chambered Organoid https://t.co/3o6eYRWEff
@MPN_Magazine @UMNews See the related @CircRes article from our July 3, 2020 issue here: https://t.co/GYyQNK8p60
Need a replacement? 3D-bioprinting is a game changer. https://t.co/h0nFNoS9P0
In Situ Expansion, Differentiation, and Electromechanical Coupling of Human Cardiac Muscle in a 3D Bioprinted, Chambered Organoid | Circulation Research https://t.co/HAGQXw2RXo
RT @DRKAMALAYOUB: لاول مرة النجاح في انتاج قلب من خلايا حية قادر على الانقباض والقيام بوظائفه باستخدام تقنية الطباعة ثلاثية الابعاد . القلب…
RT @USAnesthesia: Scientists 3D-Print Human Heart Pump https://t.co/O8kfnJLqO1 #pocus #heart #3dheart #humanheartpump https://t.co/BujTvQ58…
Scientists 3D-Print Human Heart Pump https://t.co/O8kfnJLqO1 #pocus #heart #3dheart #humanheartpump https://t.co/BujTvQ58Lx
RT @EplabW: 3D printing of human heart one step closer: "In Situ Expansion, Differentiation, and Electromechanical Coupling of Human Cardia…
3D printing of human heart one step closer: "In Situ Expansion, Differentiation, and Electromechanical Coupling of Human Cardiac Muscle in a 3D Bioprinted, Chambered Organoid" | Circulation Research https://t.co/QOU2nyxW6K https://t.co/IcHlQFwtTl
Here is the link to the paper: https://t.co/rzbDaIe69w
In Situ Expansion, Differentiation, and Electromechanical Coupling of Human Cardiac Muscle in a 3D Bioprinted, Chambered Organoid https://t.co/a0b6QeTC3u
RT @craibiologia: 🫀 Reproducció en 3D del cor humà per estudiar i tractar malalties cardiovasculars via @IyC_es @mpulidosalgado @BiologiaUB…
RT @DRKAMALAYOUB: لاول مرة النجاح في انتاج قلب من خلايا حية قادر على الانقباض والقيام بوظائفه باستخدام تقنية الطباعة ثلاثية الابعاد . القلب…
RT @FluidForm3D: Congrats to the @OgleLab for their recent publication in Circulation Research! We're really excited to see FRESH get used…
Congrats to the @OgleLab for their recent publication in Circulation Research! We're really excited to see FRESH get used in high impact research and journals! #3DBioprinting #TissueEngineering #FRESH https://t.co/m1LOiTAtj8
RT @DRKAMALAYOUB: لاول مرة النجاح في انتاج قلب من خلايا حية قادر على الانقباض والقيام بوظائفه باستخدام تقنية الطباعة ثلاثية الابعاد . القلب…
RT @craibiologia: 🫀 Reproducció en 3D del cor humà per estudiar i tractar malalties cardiovasculars via @IyC_es @mpulidosalgado @BiologiaUB…
RT @craibiologia: 🫀 Reproducció en 3D del cor humà per estudiar i tractar malalties cardiovasculars via @IyC_es @mpulidosalgado @BiologiaUB…
🫀 Reproducció en 3D del cor humà per estudiar i tractar malalties cardiovasculars via @IyC_es @mpulidosalgado @BiologiaUB @GeneticsUB 👉Art. Ref. (Circ. Res., 127,2 p. 207–224): https://t.co/byJx6KLxia (open access) https://t.co/VIx8ihZZdX
RT @DRKAMALAYOUB: لاول مرة النجاح في انتاج قلب من خلايا حية قادر على الانقباض والقيام بوظائفه باستخدام تقنية الطباعة ثلاثية الابعاد . القلب…
RT @DRKAMALAYOUB: لاول مرة النجاح في انتاج قلب من خلايا حية قادر على الانقباض والقيام بوظائفه باستخدام تقنية الطباعة ثلاثية الابعاد . القلب…
RT @DRKAMALAYOUB: لاول مرة النجاح في انتاج قلب من خلايا حية قادر على الانقباض والقيام بوظائفه باستخدام تقنية الطباعة ثلاثية الابعاد . القلب…
لاول مرة النجاح في انتاج قلب من خلايا حية قادر على الانقباض والقيام بوظائفه باستخدام تقنية الطباعة ثلاثية الابعاد . القلب المنتج هو نموذج مصغر يبلغ طوله ١.٥ سم .https://t.co/bk0LWgHnzh
Research from the @OgleLab is the latest @CircRes cover story. #3Dprinting with #stemcells generated a beating, human #cardiac #organoid model: https://t.co/GN8zKVGVa3
RT @MollyKupfer: Our work is on the cover of the July 3rd issue of @CircRes! #3Dprinting with #stemcells to generate a living, human #cardi…
RT @CircRes: Using #3Dprinting to create #beating human #heart #organoids: is this the future? https://t.co/PBAHcvuKKe @MollyKupfer @UMN…
RT @MollyKupfer: Our work is on the cover of the July 3rd issue of @CircRes! #3Dprinting with #stemcells to generate a living, human #cardi…
RT @MollyKupfer: Our work is on the cover of the July 3rd issue of @CircRes! #3Dprinting with #stemcells to generate a living, human #cardi…
RT @MuscleStemCell: In Situ Expansion, Differentiation and Electromechanical Coupling of Human Cardiac Muscle in a 3D Bioprinted, Chambered…
RT @MollyKupfer: Our work is on the cover of the July 3rd issue of @CircRes! #3Dprinting with #stemcells to generate a living, human #cardi…
RT @MollyKupfer: Our work is on the cover of the July 3rd issue of @CircRes! #3Dprinting with #stemcells to generate a living, human #cardi…
RT @MollyKupfer: Our work is on the cover of the July 3rd issue of @CircRes! #3Dprinting with #stemcells to generate a living, human #cardi…
Our work is on the cover of the July 3rd issue of @CircRes! #3Dprinting with #stemcells to generate a living, human #cardiac organoid model. Read here: https://t.co/CtNmZMR1rO @OgleLab @UMNBME
"In Situ Expansion, Differentiation, and Electromechanical Coupling of Human Cardiac Muscle in a 3D Bioprinted, Chambered Organoid" by @OgleLab (@UMNews) in @CircRes (#Cardiology, #Bioprinting, #Science, #Research) https://t.co/JR1kgkB4q8 https://t.co/I
RT @CircRes: Using #3Dprinting to create #beating human #heart #organoids: is this the future? https://t.co/PBAHcvuKKe @MollyKupfer @UMN…
In Situ Expansion, Differentiation, and Electromechanical Coupling of Human Cardiac Muscle in a 3D Bioprinted, Chambered Organoid | Circulation Research https://t.co/eM55eYefvD
RT @CircRes: Using #3Dprinting to create #beating human #heart #organoids: is this the future? https://t.co/PBAHcvuKKe @MollyKupfer @UMN…
Using #3Dprinting to create #beating human #heart #organoids: is this the future? https://t.co/PBAHcvuKKe @MollyKupfer @UMNBME https://t.co/k4tw0RsSmd
#3dbioprinting a heart - although not my direct area of expertise, this study seems transformational. https://t.co/NUXLee1Npv
In Situ Expansion, Differentiation and Electromechanical Coupling of Human Cardiac Muscle in a 3D Bioprinted, Chambered Organoid. https://t.co/dPxay7ZmOx