SetPoint Medical, a medtech company based in California, is developing a neuromodulatory device that is intended to treat rheumatoid arthritis. The overlap between the nervous and immune systems is increasingly appreciated, and this technology aims to capitalize on this to cre...
Read moreIn this EM Quick Hits podcast: Justin Hensley and Aaron Billin on Wilderness Medicine, Elisha Targonsky on Bowel Prep Hyponatremia, Brit Long on Non-Convulsive Status Epilepticus, Andrew Petrosoniak on Morel Lavallee Lesions, Jesse McLaren on Pacemaker ECGs and Matt Poyner ...
Read moreIn this EM Quick Hits podcast: Justin Hensley and Aaron Billin on Wilderness Medicine, Elisha Targonsky on Bowel Prep Hyponatremia, Brit Long on Non-Convulsive Status Epilepticus, Andrew Petrosoniak on Morel Lavallee Lesions, Jesse McLaren on Pacemaker ECGs and Matt Poyner ...
Read moreResearchers at Washington University in St. Louis have developed a technique that can release difficult-to-access biomarker proteins from the brain. At present, the researchers are focused on releasing tau proteins that are implicated in Alzheimer’s disease and other neurodege...
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...
Read moreA 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 the University of Arkansas have developed a nanopore sensor to study the aggregation of tau and tubulin protein molecules. These proteins, and specifically their aggregation in the brain, are implicated in neurodegenerative diseases such as Parkinson’s and Alzhe...
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...
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