RT @NeurosoftBio: We are excited to present our novel minimally invasive Brain-Computer Interface (#BCI) powered by our stretchable electro…
RT @NeuroTechLDN: Congrats to @NeurosoftBio on the announcement of their incredible minimially invasive brain-computer interface @EPFL_en…
Looking forward to exploring further chances of combining soft robotics and bioelectronics at @Empa_CH !!
Deployment of an electrocorticography system with a soft robotic actuator - published in Science Robotics @ScienceMagazine. Leading scientist Sukho Song from #Empa, formerly @EPFL ▶ https://t.co/6PztBftobl #robotics #softrobotics #electrocorticography
Congrats to @NeurosoftBio on the announcement of their incredible minimially invasive brain-computer interface @EPFL_en @splacour40 #neurotech #BCI
RT @isciverse: Deployment of an electrocorticography system with a soft robotic actuator @SciRobotics #Robotics #science #technology htt…
Deployment of an electrocorticography system with a soft robotic actuator @SciRobotics #Robotics #science #technology https://t.co/tkeeJhJhza
Neurosoft Bioelectronics showcases a galaxy-shaped soft implant for minimally invasive cortical surgery. The results, published in Science Robotics (https://t.co/sqnrFeDIGR), include a video that shows the insertion and unfolding of the implant (https://t.
RT @splacour40: Deployable brain implant integrating soft bioelectronics & soft robotics! Well done @SongSukho and EPFL LSBI team @Neuro_X…
Clinical electrocorticography maps brain dysfunction in patients with seizures. It involves a large craniotomy, which can lead to complications like neuroinflammation. Using a much smaller craniotomy, this new soft robot was able to record activity in an
RT @medical_xpress: Deployable electrodes for minimally invasive craniosurgery @epfl_en @SciRobotics https://t.co/Ogc0L9CRdv https://t.co/3…
Deployment of an electrocorticography system with a soft robotic actuator https://t.co/IYr8QWeL2h
RT @SciRobotics: Tested in a minipig model, a new device can safely unfurl specially designed flexible electrodes across the brain cortex’s…
Tested in a minipig model, a new device can safely unfurl specially designed flexible electrodes across the brain cortex’s surface. @EPFL_en @SongSukho @splacour40 📄: https://t.co/8iYoSTvVdt Focus: https://t.co/z9rrfVjB01 https://t.co/AEEmghASAI
RT @NeurosoftBio: We are excited to present our novel minimally invasive Brain-Computer Interface (#BCI) powered by our stretchable electro…
RT @SciRobotics: A new soft robotic system can deploy electrocorticography electrode arrays over a large surface area of the brain cortex v…
Way to go Neurosoft!
RT @SciRobotics: A new soft robotic system can deploy electrocorticography electrode arrays over a large surface area of the brain cortex v…
@NeurosoftBio presents their new ECoG-based BCI in a new paper. The device is implanted through a small hole in the skull after which several little electrode-covered arms spread our under the skull to increase coverage. Very cool!
RT @NeurosoftBio: We are excited to present our novel minimally invasive Brain-Computer Interface (#BCI) powered by our stretchable electro…
RT @mocost: "we report on a scalable technique for the fabrication of large-area soft robotic electrode arrays and their deployment on the…
RT @mocost: "we report on a scalable technique for the fabrication of large-area soft robotic electrode arrays and their deployment on the…
"we report on a scalable technique for the fabrication of large-area soft robotic electrode arrays and their deployment on the cortex through a square-centimeter burr hole" https://t.co/RyfaBuJqr7
RT @splacour40: Deployable brain implant integrating soft bioelectronics & soft robotics! Well done @SongSukho and EPFL LSBI team @Neuro_X…
RT @SciRobotics: A new soft robotic system can deploy electrocorticography electrode arrays over a large surface area of the brain cortex v…
RT @splacour40: Deployable brain implant integrating soft bioelectronics & soft robotics! Well done @SongSukho and EPFL LSBI team @Neuro_X…
Deployment of an electrocorticography system with a soft robotic actuator https://t.co/wfawuaFdFP
RT @SciRobotics: A new soft robotic system can deploy electrocorticography electrode arrays over a large surface area of the brain cortex v…
RT @splacour40: Deployable brain implant integrating soft bioelectronics & soft robotics! Well done @SongSukho and EPFL LSBI team @Neuro_X…
RT @splacour40: Deployable brain implant integrating soft bioelectronics & soft robotics! Well done @SongSukho and EPFL LSBI team @Neuro_X…
RT @medical_xpress: Deployable electrodes for minimally invasive craniosurgery @epfl_en @SciRobotics https://t.co/Ogc0L9CRdv https://t.co/3…
RT @NeurosoftBio: We are excited to present our novel minimally invasive Brain-Computer Interface (#BCI) powered by our stretchable electro…
RT @SciRobotics: A new soft robotic system can deploy electrocorticography electrode arrays over a large surface area of the brain cortex v…
RT @splacour40: Deployable brain implant integrating soft bioelectronics & soft robotics! Well done @SongSukho and EPFL LSBI team @Neuro_X…
RT @lgomezperu: @SciRobotics A new #softroboticsystem can deploy electrocorticography electrode arrays over a large surface area of the bra…
RT @SciRobotics: A new soft robotic system can deploy electrocorticography electrode arrays over a large surface area of the brain cortex v…
RT @NeurosoftBio: We are excited to present our novel minimally invasive Brain-Computer Interface (#BCI) powered by our stretchable electro…
RT @_smicera: Congrats to my amazing colleague @splacour40 for setting a new milestone in #neural #interfaces with electrocorticography s…
It was my great honor to work with @splacour40 on this exciting project for the development of soft robotic neural interfaces! This combination of soft bioelectronics & soft robotics can indeed have high impact!!
RT @splacour40: Deployable brain implant integrating soft bioelectronics & soft robotics! Well done @SongSukho and EPFL LSBI team @Neuro_X…
Deployable brain implant integrating soft bioelectronics & soft robotics! Well done @SongSukho and EPFL LSBI team @Neuro_X_EPFL @EPFLEngineering https://t.co/tNYrDio6k6
RT @_smicera: Congrats to my amazing colleague @splacour40 for setting a new milestone in #neural #interfaces with electrocorticography s…
So happy to see this hard work finally bearing fruit in science robotics!! Soft robotics can find unique contributions in soft bioelectronics to mobilize the electrodes for minimally invasive implantation.
RT @SciRobotics: A new soft robotic system can deploy electrocorticography electrode arrays over a large surface area of the brain cortex v…
@SciRobotics A new #softroboticsystem can deploy electrocorticography electrode arrays over a large surface area of the brain cortex via a small entry point on the skull. @EPFL_en @SongSukho @splacour40 https://t.co/qTpEhNPy5a
Everything about this looks so cool and futuristic 😱
ฅNya! Here's the latest 🗞 from [ Science Robotics ]: " Deployment of an electrocorticography system with a soft robotic actuator" 🔗: https://t.co/rO6Mvke8P1
RT @medical_xpress: Deployable electrodes for minimally invasive craniosurgery @epfl_en @SciRobotics https://t.co/Ogc0L9CRdv https://t.co/3…
RT @NeurosoftBio: We are excited to present our novel minimally invasive Brain-Computer Interface (#BCI) powered by our stretchable electro…
Congrats to my amazing colleague @splacour40 for setting a new milestone in #neural #interfaces with electrocorticography system with a soft robotic actuator now in @SciRobotics https://t.co/mnhQWIRB3W
RT @SciRobotics: A new soft robotic system can deploy electrocorticography electrode arrays over a large surface area of the brain cortex v…
We are excited to present our novel minimally invasive Brain-Computer Interface (#BCI) powered by our stretchable electrode technology. Check out the recent publication from the @EPFL_en lab of Prof. @splacour40 in Science Robotics https://t.co/BEcVmPmmdF
RT @SciRobotics: A new soft robotic system can deploy electrocorticography electrode arrays over a large surface area of the brain cortex v…
A new soft robotic system can deploy electrocorticography electrode arrays over a large surface area of the brain cortex via a small entry point on the skull. @EPFL_en @SongSukho @splacour40 📄: https://t.co/QoTeRthK5h Focus: https://t.co/7yvcPxjUeS https:
RT @medical_xpress: Deployable electrodes for minimally invasive craniosurgery @epfl_en @SciRobotics https://t.co/Ogc0L9CRdv https://t.co/3…
RT @medical_xpress: Deployable electrodes for minimally invasive craniosurgery @epfl_en @SciRobotics https://t.co/Ogc0L9CRdv https://t.co/3…
RT @medical_xpress: Deployable electrodes for minimally invasive craniosurgery @epfl_en @SciRobotics https://t.co/Ogc0L9CRdv https://t.co/3…
Deployable electrodes for minimally invasive craniosurgery @epfl_en @SciRobotics https://t.co/Ogc0L9CRdv https://t.co/3WlLl7988M