RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
Thanks @SciRobotics !
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
Ferromagnetic soft continuum robots | Science Robotics https://t.co/cmvW2T5Vgj
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @BrianHoward_MD: Pretty cool #somuchforjobsecurity @sciencemagazine https://t.co/2vFiHwLshU
RT @BrianHoward_MD: Pretty cool #somuchforjobsecurity @sciencemagazine https://t.co/2vFiHwLshU
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @_Katyucia_: Time to beef up retirement account 😱 https://t.co/v6NO5EvCVX
RT @danny_mercer: Interesting study with correlates for endovasc thrombolysis in the “near future”... #neuro #neurosurgery #neurology https…
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
Interesting study with correlates for endovasc thrombolysis in the “near future”... #neuro #neurosurgery #neurology https://t.co/UIetYnuVuM
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
Ferromagnetic soft continuum robots #healthcare #surgery https://t.co/AMBGloBeIg
Gelecek endovasküler girişimde ama halen kullanılan materyal damar lümeni ile füzyon yapamıyor. O yüzden cerrahiye kesin üstünlük sağlayamıyor.
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
RT @IDavidConnolly: A soft robotic catheter with omnidirectional steering via magnetic actuation from ferrous microparticles incorporated t…
A soft robotic catheter with omnidirectional steering via magnetic actuation from ferrous microparticles incorporated throughout the catheter. A glimpse of the future of endovascular neurosurgery! #softrobotics #endovascular #neurosurgery #aneurysm
A great surgery tool hopefully developed and approved in the near future. Ferromagnetic soft continuum robots https://t.co/JCUL9OwQew
RT @BrianHoward_MD: Pretty cool #somuchforjobsecurity @sciencemagazine https://t.co/2vFiHwLshU
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
Time to beef up retirement account 😱
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
Amazing - when robots meet the brain circulation - the paper & science behind the #brainworm #robotics #robotworm #neuroscience https://t.co/fcxXau5WP9
RT @carlaetal: Aquest minirobot en forma de serp es capaç de moure's en un model de cervell!! 😱😱😱 El futur ja està aqui?? https://t.co/r9T…
I am hoping to finish my fellowship and work before a robot fills my spot😬😜
More: https://t.co/bLJ4P1Af6g @ProfZhaoMIT @MIT
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
Aquest minirobot en forma de serp es capaç de moure's en un model de cervell!! 😱😱😱 El futur ja està aqui??
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
RT @BrianHoward_MD: Pretty cool #somuchforjobsecurity @sciencemagazine https://t.co/2vFiHwLshU
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @stonemcguire: This is fascinating - advancing #robotics in #neurosurgery could potentially be used to treat #aneurysms one day! https:/…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
Mini robot can navigate winding spaces in models of the brain!!! #brain #neurosugery #ArtificialIntelligence
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
RT @ProfZhaoMIT: A thread-like soft robot navigating through a real-size phantom of highly tortuous blood vessels of the human brain. Read…
Congratulations to Prof. Zhao and his team!
A piece of amazing work.
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
Very cool and smart robot!
RT @BrianHoward_MD: Pretty cool #somuchforjobsecurity @sciencemagazine https://t.co/2vFiHwLshU
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @SciRobotics: This mini snake-shaped #robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstrating t…
RT @drluisley: The future of #Neurointerventionism #Neurosurgery https://t.co/yfDgW8VAGc
How wonderful and scary!
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
مثلا این مقاله که توی Science Robotics چاپ شده: MIT یک ربات مارگونه (بیشتر مثل کرمه اکچولی) ساخته که توی بافت نرم به راحتی حرکت میکنه بدون پاره کردن هیچ غشایی. توی هیدروژل با ساختار مشابه بافت نرم هم تستش کردن. خودش یک تنه نوروسرجری رو سالها میندازه جلو! h
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @BrianHoward_MD: Pretty cool #somuchforjobsecurity @sciencemagazine https://t.co/2vFiHwLshU
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @Bioanalytik_MS: A mini snake-shaped #robot able to navigate in the brain #Health #healttech @NOBEL_Project https://t.co/KW5USWukH2
RT @SciRobotics: This mini snake-shaped #robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstrating t…
A mini snake-shaped #robot able to navigate in the brain #Health #healttech @NOBEL_Project
RT @AmnaShath: Wow 😱 https://t.co/wdh5ITtbJr
Wow 😱
Astonishing.
RT @drluisley: The future of #Neurointerventionism #Neurosurgery https://t.co/yfDgW8VAGc
This seems fine...
The future of #Neurointerventionism #Neurosurgery
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @SciRobotics: This mini snake-shaped #robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstrating t…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
Выглядит кстати довольно крипово, но интересно. https://t.co/4XWxlXNFFa
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
And for a real nightmare, imagine this thing was sentient. #robots #AI #biomedicalengineering
RT @stonemcguire: This is fascinating - advancing #robotics in #neurosurgery could potentially be used to treat #aneurysms one day! https:/…
RT @stonemcguire: This is fascinating - advancing #robotics in #neurosurgery could potentially be used to treat #aneurysms one day! https:/…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…