“ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 | Communications Engineering | Nature Portfolio” https://t.co/XcEYppAXkS
Using a robotic shoulder to grow tendon tissue https://t.co/KH0R0YxJ40 https://t.co/dH0uYOZssY https://t.co/f8m9NfyV9y
Humanoid robots to mechanically stress human cells grown in soft bioreactors https://t.co/BZhaCS2hpF
RT @Sarah_JB_S: Humanoid robots to mechanically stress human cells grown in soft bioreactors Congratulations to Pierre-Alexis Mouthuy and…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NatureJapan: ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 注目のハイライト | Communications Engineering #ロボット工学 #ヒューマノイドロボット https://t.co/bgnNfFlYQ9
RT @lamethodeFC: [L’étude à découvrir] 05/2022 > Des robots humanoïdes pour stresser mécaniquement les cellules humaines cultivées dans des…
RT @lamethodeFC: [L’étude à découvrir] 05/2022 > Des robots humanoïdes pour stresser mécaniquement les cellules humaines cultivées dans des…
[L’étude à découvrir] 05/2022 > Des robots humanoïdes pour stresser mécaniquement les cellules humaines cultivées dans des bioréacteurs souples https://t.co/FhjGRqd93H via @Nature #LaMethSci
RT @HaoYin20: A real-size humanoid Robotic shoulder to grow #SupraspinatusTendon Bioreactor scaffold: Electrospun parallel PCL filaments,…
A real-size humanoid Robotic shoulder to grow #SupraspinatusTendon Bioreactor scaffold: Electrospun parallel PCL filaments, 550 MPa stiffness Abduction-Adduction motion 500k fibroblast 14 d-> transcriptomics Dr. Pierre-Alexis Mouthuy lab @CommsEng 2
3D Printing and Electro-spinning technologies combined with a revolutionary concept of a dynamic soft bioreactor can create tissues to be used as functional grafts that can translate into clinical applications. #3dprinting #bioprinting https://t.co/Sk1qv
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
この事業をしたいとなると学ぶべきはバイオかな
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NEOdotLIFE: …with a soft, flexible chamber for cultured cells, and in a proof-of-concept experiment, showed promising results growing c…
RT @NEOdotLIFE: …with a soft, flexible chamber for cultured cells, and in a proof-of-concept experiment, showed promising results growing c…
…with a soft, flexible chamber for cultured cells, and in a proof-of-concept experiment, showed promising results growing cells in them. 5/ @JoletMimpen @AlonaKharchenko @rhostettler @Sarah_JB_S https://t.co/UW621qwJLg
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NatureJapan: ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 注目のハイライト | Communications Engineering #ロボット工学 #ヒューマノイドロボット https://t.co/bgnNfFlYQ9
RT @NatureJapan: ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 注目のハイライト | Communications Engineering #ロボット工学 #ヒューマノイドロボット https://t.co/bgnNfFlYQ9
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @medical_xpress: Using a robotic #shoulder to grow tendon #tissue https://t.co/yMNTxFES53 https://t.co/xyhqkFuQ5p
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone. The findings could improve the production and quality of tissue grafts for future use in patients. https://t.co/iAacUtSIx4 https://t.co/DC
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 | Communications Engineering | Nature Portfolio https://t.co/j59sX8GI5q
Testing new artificial cells with robotic joints https://t.co/JEGUsG5ifv
Robots humanoides para estresar mecánicamente las células humanas cultivadas en biorreactores blandos | Ingeniería de Comunicaciones https://t.co/UeOpwpamUG
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @yasuokajihei: @maru5657 ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 https://t.co/KgmdT5W0G2
一瞬、いよいよヒト細胞を用いたアンドロイドの開発かと思ったら、移植用組織に刺激を与えて培養継続するためのロボット開発だった。 https://t.co/sn76zQk1VD
RT @yasuokajihei: @Nada0064 ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 https://t.co/KgmdT5W0G2
@maru5657 ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 https://t.co/KgmdT5W0G2
@HrysSt ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 https://t.co/KgmdT5W0G2
@heike333kyoto ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 https://t.co/KgmdT5EpOu
@kafukanoochan ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 https://t.co/KgmdT5W0G2
@LEIwvKSgLa5dDwM ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 https://t.co/KgmdT5W0G2
@Nada0064 ロボット工学:ヒューマノイドロボットを用いたヒト組織移植片の培養 https://t.co/KgmdT5W0G2
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @IvetteMeans: An open-source robot skeleton designed by the engineers at Devanthro was adapted to create a custom growing environment fo…
An open-source robot skeleton designed by the engineers at Devanthro was adapted to create a custom growing environment for cells that can be fitted into the skeleton to bend and flex as required. #biotech https://t.co/FK7YuiJGBc
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @Sarah_JB_S: Humanoid robots to mechanically stress human cells grown in soft bioreactors Congratulations to Pierre-Alexis Mouthuy and…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
Tá aí algo que eu tenho muita vontade de estudar em detalhes. Os modelos mecânicos desees robôs antropomórficos são muito interessantes, mas utilizam uma quantidade enorme de motores pra reproduzir os movimentos dos tendões
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
RT @NaturePortfolio: A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stre…
A @Nature video explores new research that suggests robot bodies could provide tendon cells with the same kind of stretching and twisting as they would experience in a real human body. Read the @CommsEng paper: https://t.co/XqMqUAvGRM https://t.co/J4rAhNy9
RT @Sarah_JB_S: Humanoid robots to mechanically stress human cells grown in soft bioreactors Congratulations to Pierre-Alexis Mouthuy and…
2/2 Also #mechanobiology in England in 2022: 👇👇 https://t.co/OUrvvDDdjH
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
Congratulations to Pierre-Alexis Mouthuy & team! It was great to be able to contribute in a small way to this work.
RT @Sarah_JB_S: Humanoid robots to mechanically stress human cells grown in soft bioreactors Congratulations to Pierre-Alexis Mouthuy and…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
Wow, just wow - this is next level tissue engineering. It is insanely hard to make tendon.
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
Humanoid robots to mechanically stress human cells grown in soft bioreactors https://t.co/NNKpfgMe5b
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
RT @NaturePortfolio: A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone.…
A @CommsEng paper reports a human-like robotic system for growing human tendon tissue, which connects muscle to bone. The findings could improve the production and quality of tissue grafts for future use in patients. https://t.co/XqMqUAvGRM https://t.co/dj
RT @medical_xpress: Using a robotic #shoulder to grow tendon #tissue https://t.co/yMNTxFES53 https://t.co/xyhqkFuQ5p
RT @PrasannaPadman7: interesting biomechanical approach, to mechanically stress human cells grown in soft bioreactors - humanoid robots!
interesting biomechanical approach, to mechanically stress human cells grown in soft bioreactors - humanoid robots!
RT @Sarah_JB_S: Humanoid robots to mechanically stress human cells grown in soft bioreactors Congratulations to Pierre-Alexis Mouthuy and…
RT @Sarah_JB_S: Humanoid robots to mechanically stress human cells grown in soft bioreactors Congratulations to Pierre-Alexis Mouthuy and…
RT @medical_xpress: Using a robotic #shoulder to grow tendon #tissue https://t.co/yMNTxFES53 https://t.co/xyhqkFuQ5p
RT @medical_xpress: Using a robotic #shoulder to grow tendon #tissue https://t.co/yMNTxFES53 https://t.co/xyhqkFuQ5p
RT @Sarah_JB_S: Humanoid robots to mechanically stress human cells grown in soft bioreactors Congratulations to Pierre-Alexis Mouthuy and…
WOW! This is super cool.
RT @BfitGetxo: Flipando 😮😮😍