A team of researchers at North Carolina State University have developed an ultrasound transducer that can disrupt blood clots in the brain quickly by creating an ultrasound vortex or ‘tornado’. The transducer is designed to be housed in a catheter that can be advanced through ...
Read moreResearchers at Linköping University in Sweden have developed artificial neurons that demonstrate 15 of the 20 characteristics of biological neural cells and can communicate with natural neurons in the body. The researchers call their device the “conductance-based organic elect...
Read moreA team of researchers at the Harvard Wyss Institute have developed a soft, hydrogel scaffold that can function as a living electrode for brain-computer interface applications. The researchers used electrically conductive materials and created a porous and flexible scaffold usi...
Read moreScientists at MIT have developed an optogenetics technique that can lead to long-term changes in neuronal excitability by altering neuronal membrane capacitance. Unlike conventional optogenetics, which involves using light to rapidly activate ion channels on engineered neurons...
Read moreMedical Microinstruments, a medtech company with offices in Pisa, Italy and Delaware, USA, has developed the Symani Microsurgical Robot. The robotic system is designed to assist with microsurgical procedures, and it boasts a variety of advanced features to achieve this goal. T...
Read moreResearchers at Imperial College London in the UK have developed a flexible catheter system that is designed to enable access and treatment of the deep areas of the brain. At present, catheters intended for such applications can suffer from rigidity, making it difficult to acce...
Read moreResearchers at Carnegie Mellon University have used a nanoscale 3D printing technique that allows them to customize the microelectrode arrays used for brain computer interfaces. The approach is called Aerosol Jet 3D printing, and the researchers used it to create three-dimensi...
Read moreResearchers at Johns Hopkins University have created tiny EEG caps for brain organoids. The team was inspired by full size EEG caps that are used to measure brain activity in human patients. Previously, the Hopkins researchers were forced to use flat electrode arrays that were...
Read moreScientists at Rice University developed a system to wirelessly and rapidly activate specific brain circuits using magnetic fields. The technology has been developed in fruit flies, a common experimental animal, but the researchers hope that it could help in understanding the b...
Read moreBlackrock Neurotech, a medtech company based in Salt Lake City, has pioneered an array of brain-computer interface technologies. Medgadget last spoke with Blackrock Neurotech a year ago about their thought-to-text brain computer interface, but since the company signed an agree...
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