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 @LaskerFDN: Scientists at @MIT have developed a miniature worm-shaped robot that can navigate through complex and constrained environmen…
wow
Scientists at @MIT have developed a miniature worm-shaped robot that can navigate through complex and constrained environments, such as a silicone model of the brain’s blood vessels. @SciRobotics https://t.co/BLPM4z8aqm https://t.co/6e1Hl2E9co
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…
RT @NaifMA1: Robotic-like wires for endovascular neurosurgery by @MIT ! Great to see @MGHneurosurg Dr. Aman Patel as the neurosurgeon consu…
RT @NaifMA1: Robotic-like wires for endovascular neurosurgery by @MIT ! Great to see @MGHneurosurg Dr. Aman Patel as the neurosurgeon consu…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
Robotic-like wires for endovascular neurosurgery by @MIT ! Great to see @MGHneurosurg Dr. Aman Patel as the neurosurgeon consultant for this work! https://t.co/bFAieczM7F
Medically Amazing. Personally Disturbing.
Check out this new technology for accessing the brain's blood vessels!
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @stonemcguire: This is fascinating - advancing #robotics in #neurosurgery could potentially be used to treat #aneurysms one day! https:/…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
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…
Ferromagnetic soft continuum robots https://t.co/sz2xGPEg0b https://t.co/N5JhDbLJpL
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @serbonline: Researchers from MIT through intuitive manipulation of ferromagnetic soft continuum made robots to address the challenges a…
RT @serbonline: Researchers from MIT through intuitive manipulation of ferromagnetic soft continuum made robots to address the challenges a…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
Researchers from MIT through intuitive manipulation of ferromagnetic soft continuum made robots to address the challenges and unmet needs in healthcare,especially cerebrovascular diseases. @Ashutos61 @Sandeep_1966 https://t.co/tCZbGPLFRw
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
RT @AndyBiotech: Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.c…
Wow, this is very cool! https://t.co/ah6vdHGkOA Worm robot designed to slip through the brain’s blood vessels https://t.co/wVs2MookR4 https://t.co/RGQS9SJAyO
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…
#medicalapplications #omnidirectional steering and navigation #robotics https://t.co/g1AMtkJ54b
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 @ichiipsy: マサチューセッツ工科大学から、脳梗塞治療の新たなワイヤーが開発されました。脳血管内は入り組んでおり、血栓や動脈瘤にたどり着くまでいくつものカーブを曲がる必要があります。今回開発されたワイヤーは磁力を使って曲げることができ、血管の壁を傷つけずに進めるよ…
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
#ヘビ型ロボ がサブミリレベルに到達。ハイドロゲル皮膚の下の強磁性微粒子群をプログラムできるようにした。動脈瘤で曲った脳血管内をくねくね進む。…simple yet effective theoretical framework、と:MIT。 https://t.co/502D6MVCXy
RT @napocornejo: Estos robots en forma de gusano desarrollados en el MIT pueden teledirigirse por los vasos mas delicados del cuerpo. http…
RT @napocornejo: Estos robots en forma de gusano desarrollados en el MIT pueden teledirigirse por los vasos mas delicados del cuerpo. http…
RT @napocornejo: Estos robots en forma de gusano desarrollados en el MIT pueden teledirigirse por los vasos mas delicados del cuerpo. http…
RT @napocornejo: Estos robots en forma de gusano desarrollados en el MIT pueden teledirigirse por los vasos mas delicados del cuerpo. http…
Estos robots en forma de gusano desarrollados en el MIT pueden teledirigirse por los vasos mas delicados del cuerpo. https://t.co/yUFCQ7Oj21 https://t.co/wAXx01AZrM
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @ichiipsy: マサチューセッツ工科大学から、脳梗塞治療の新たなワイヤーが開発されました。脳血管内は入り組んでおり、血栓や動脈瘤にたどり着くまでいくつものカーブを曲がる必要があります。今回開発されたワイヤーは磁力を使って曲げることができ、血管の壁を傷つけずに進めるよ…
RT @ichiipsy: マサチューセッツ工科大学から、脳梗塞治療の新たなワイヤーが開発されました。脳血管内は入り組んでおり、血栓や動脈瘤にたどり着くまでいくつものカーブを曲がる必要があります。今回開発されたワイヤーは磁力を使って曲げることができ、血管の壁を傷つけずに進めるよ…
RT @ichiipsy: マサチューセッツ工科大学から、脳梗塞治療の新たなワイヤーが開発されました。脳血管内は入り組んでおり、血栓や動脈瘤にたどり着くまでいくつものカーブを曲がる必要があります。今回開発されたワイヤーは磁力を使って曲げることができ、血管の壁を傷つけずに進めるよ…
RT @ichiipsy: マサチューセッツ工科大学から、脳梗塞治療の新たなワイヤーが開発されました。脳血管内は入り組んでおり、血栓や動脈瘤にたどり着くまでいくつものカーブを曲がる必要があります。今回開発されたワイヤーは磁力を使って曲げることができ、血管の壁を傷つけずに進めるよ…
RT @ichiipsy: マサチューセッツ工科大学から、脳梗塞治療の新たなワイヤーが開発されました。脳血管内は入り組んでおり、血栓や動脈瘤にたどり着くまでいくつものカーブを曲がる必要があります。今回開発されたワイヤーは磁力を使って曲げることができ、血管の壁を傷つけずに進めるよ…
RT @ichiipsy: マサチューセッツ工科大学から、脳梗塞治療の新たなワイヤーが開発されました。脳血管内は入り組んでおり、血栓や動脈瘤にたどり着くまでいくつものカーブを曲がる必要があります。今回開発されたワイヤーは磁力を使って曲げることができ、血管の壁を傷つけずに進めるよ…
RT @ichiipsy: マサチューセッツ工科大学から、脳梗塞治療の新たなワイヤーが開発されました。脳血管内は入り組んでおり、血栓や動脈瘤にたどり着くまでいくつものカーブを曲がる必要があります。今回開発されたワイヤーは磁力を使って曲げることができ、血管の壁を傷つけずに進めるよ…
RT @ichiipsy: マサチューセッツ工科大学から、脳梗塞治療の新たなワイヤーが開発されました。脳血管内は入り組んでおり、血栓や動脈瘤にたどり着くまでいくつものカーブを曲がる必要があります。今回開発されたワイヤーは磁力を使って曲げることができ、血管の壁を傷つけずに進めるよ…
マサチューセッツ工科大学から、脳梗塞治療の新たなワイヤーが開発されました。脳血管内は入り組んでおり、血栓や動脈瘤にたどり着くまでいくつものカーブを曲がる必要があります。今回開発されたワイヤーは磁力を使って曲げることができ、血管の壁を傷つけずに進めるようです https://t.co/HegEMZsVNF
RT @iSciencesi: الورقة العلمية متاحة للقراءة -مجانًا- للاستزادة والاطلاع: https://t.co/C1KP2iNx4x
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
الورقة العلمية متاحة للقراءة -مجانًا- للاستزادة والاطلاع: https://t.co/C1KP2iNx4x
Ferromagnetic soft continuum robots https://t.co/1AKuwVfhe4
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
RT @LightUpScience: Guided by a magnetic field, a soft wiry robot less than 1mm wide wends its way through a replica of the blood vessels i…
#Ferromagnetic soft continuum #robots https://t.co/Qg1hdxyjQX
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
Guided by a magnetic field, a soft wiry robot less than 1mm wide wends its way through a replica of the blood vessels in the human brain. https://t.co/jNcSNXrnVV https://t.co/xlCIm7zsNd
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…
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…
@MIT scientists have engineered a miniature soft continuum #robot that was able to slither with minimal friction through tortuous and compact environments – including a silicone model of #brain #vasculature: https://t.co/DhRBZefrS2 https://t.co/P3cj4fsKOY
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…
すごー!!!!
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 @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 @jetjocko: Oh, so it’s just a tiny robot snake that swims in your brain, is it? Oh. Uh-huh. https://t.co/ePn9v9kqPf
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 https://t.co/QIrfsvFPhV
RT @sciencemagazine: This mini snake-shaped robot by @MIT engineers can navigate winding spaces in models of the inner #brain, demonstratin…