Researchers at the Institute of Science and Technology Austria have developed a brain imaging technique called Live Information Optimized Nanoscopy Enabling Saturated Segmentation (LIONESS). The method lets the researchers create high-resolution 3D images of living brain tissu...
Read moreNevro, a medtech company based in California, has developed the HFX iQ spinal cord stimulation system, which is intended to treat chronic pain. While spinal cord stimulators can be very useful in controlling certain types of chronic pain, at present, patients must attend with ...
Read moreResearchers at MIT have developed a metal-free electrode using conductive polymers. The electrode is flexible and strong enough for long-term implantation in the body. The device is intended as an advanced replacement for rigid metal electrodes that can cause tissue damage and...
Read moreResearchers at the University of Connecticut have developed an ultrasound implant that can assist in opening the blood brain barrier to allow chemotherapy to enter and treat brain cancer. However, unlike cumbersome ultrasound systems, this technology can be implanted directly ...
Read moreScientists at Rice University have developed a highly flexible nanoelectrode that is designed for long-term implantation in the brain. The brain stimulation provided by the technology is incredibly fine-grained, thanks to the very low current it can deliver. This results in a ...
Read moreResearchers at Ecole Polytechnique Fédérale de Lausanne (EPFL) in Switzerland have developed a soft robotic electrode, that can be advanced through a small hole in the skull and then opened into a series of spiral arms, to provide electrocorticography measurements from a relat...
Read moreResearchers at Northwestern University have trailed an implanted ultrasound device in patients, which is used in combination with microbubbles to transiently open pores in the blood brain barrier, allowing chemo drugs to enter. We have reported on this technique before as a la...
Read moreResearchers at Linköping University in Sweden have developed a method whereby the body can ‘grow its own’ electrodes. The minimally invasive technique involves injecting a hydrogel that is laden with enzymes into target tissues. The enzymes interact with molecules that are pre...
Read moreResearchers at Ecole Polytechnique Fédérale de Lausanne in Switzerland have designed an advanced neural chip that can detect and suppress symptoms from a variety of neurological disorders, including Parkinson’s and epilepsy. The closed-loop neuromodulation system, which the re...
Read moreResearchers at Penn State designed a pop-up electrode for brain monitoring and other applications requiring neural interfacing. The pop-up design starts life as a folded two-dimensional structure with a rigid outer coating that makes it easy to insert into the brain. Once in p...
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