The birth of artificial-intelligence research as an autonomous discipline is generally thought to have been the monthlong Dartmouth Summer Research Project on Artificial Intelligence in 1956, which convened 10 leading electrical engineers — including MIT’s Marvin Minsky and Claude Shannon — to discuss “how to make machines use language” and “form abstractions and concepts.”
European Launch of New Version of Codman Neuro’s Revive SE Thrombectomy Device for Treatment of Acute Ischemic StrokeSeptember 9, 2013 2:06 pm | by Codman Neuro | News | Comments
Codman Neuro, part of DePuy Synthes Companies of Johnson & Johnson, announced the European launch of the REVIVE™ SE Thrombectomy Device, a next generation clot removal device offering enhanced navigation through the cerebral vasculature and rapid restoration of blood flow to the brain after an ischemic stroke.
Two scientists who illuminated how brain cells communicate, three researchers who developed implants that let deaf people hear and philanthropists Bill and Melinda Gates have won prestigious Lasker Awards for medical research and contributions to public health.
Researchers in Vienna develop new imaging technique to study the function of entire nervous systems Scientists at the Campus Vienna Biocenter have found a way to overcome some of the limitations of light microscopy. Applying the new technique, they can record the activity of a worm’s brain with high temporal and spatial resolution, ultimately linking brain anatomy to brain function.
Keystone Heart, a leader in the development of cerebral protection devices for interventional cardiology and cardiac surgery procedures, announced today that its TriGuardT Cerebral Protection Device has received CE Marking, enabling the company to commercially market the TriGuard in Europe and other territories.
Medtronic is working with New England hospitals and government health officials to track the movement of surgical medical equipment involved in several cases of possible patient exposure to Creutzfeldt-Jakob disease, a rare and fatal relative to the more commonly known "mad cow" disease.
For the 1st time Mazor Robotics' Renaissance robot-assisted surgical system system was used to to treat a Parkinson's patient, implanting a battery-sized neurostimulator that delivers mild electrical stimulation to targeted areas of the brain. The landmark procedure took place at a Florida hospital earlier this month.
Despite all the research done on Alzheimer’s, there is still no early diagnostic tool for the disease. By looking at the brain wave components of individuals with the disease, Professor Tiago H. Falk of INRS’s Centre Énergie Matériaux Télécommunications has identified a promising avenue of research that may not only help diagnose the disease, but also assess its severity.
A team of University of California, Riverside researchers have developed a novel transparent skull implant that literally provides a "window to the brain", which they hope will eventually open new treatment options for patients with life-threatening neurological disorders, such as brain cancer and traumatic brain injury.
With a five-year, $3 million R01 award from the National Institutes of Health, through the National Cancer Institute, a team of researchers led by Gregory Fischer, Ph.D. will test a new, minimally invasive approach to treating brain tumors that promises to accurately destroy malignant tissue while leaving surrounding tissue unaffected.
Reversing inflammation in the fluid surrounding the brain’s cortex may provide a solution to the complex riddle of Parkinson’s, according to researchers who have found a link between pro-inflammatory biomarkers and the severity of symptoms such as fatigue, depression and anxiety in patients with the chronic disease.
Scientists have found a compelling clue in the quest to learn what causes age-related memory problems, and to one day be able to tell if those misplaced car keys are just a senior moment or an early warning of something worse. Wednesday's report offers evidence that age-related memory loss really is a distinct condition from pre-Alzheimer's...
Complex human brain tissue has been successfully developed in a three-dimensional culture system established in an Austrian laboratory. The method described in the current issue of NATURE allows pluripotent stem cells to develop into cerebral organoids – or "mini brains" – that consist of several discrete brain regions.
The Vivistim System has been developed to treat stroke patients that experience an upper-limb deficit following their stroke. These are patients that are unable to fully recover the use of their upper-limbs at least 6 months following their stroke. A United Kingdom based clinical trial is underway using the Vivistim System in the Glasgow and Newcastle areas.
University of Washington researchers have performed what they believe is the first noninvasive human-to-human brain interface, with one researcher able to send a brain signal via the Internet to control the hand motions of a fellow researcher.
A video of example trials from a pilot study of direct brain-to-brain communication in humans conducted by Rajesh Rao, Andrea Stocco, and colleagues at the U of Washington, Seattle. Using electrical brain recordings and a form of magnetic stimulation, Rajesh Rao sent a brain signal to Andrea Stocco on the other side of the UW campus, causing Stocco’s finger to move on a keyboard.
In the United States there are millions of sports related concussions each year, but many go undiagnosed because for some athletes, the fear of being benched trumps the fear of permanent brain damage, and there is no objective test available to accurately diagnose concussions on the sidelines. Researchers at San Diego State University have set out to change that.
InVivo Therapeutics announced a push-back on its time-lines for enrollment in a clinical trial examining its spinal cord injury treatment, a move that brought NVIV shares down by nearly half today. InVivo announced that, under the terms of its FDA investigational device exemption, each trial patient must be followed for 3 months...
This week on Kickstarter, we are monitoring our brainwaves and moving objects with just our thoughts with the Emotiv Insight, a 5-channel, wireless headset from Tan Le, founder and CEO.
The BMI works by interpreting brain waves that allow patients to control, with their thoughts, robotic legs and below-elbow amputees to control neuroprosthetic limbs. Contreras-Vidal has partnered with Dr. Robert Grossman at TMHRI on the research project.
Brain imaging equipment has been around since the 1930s, but we have made very little progress in understanding the human brain, explains Tan Le, Founder and CEO of Emotiv Insight. With almost a decade of experience in the field, she hopes to change this.
Spinal Modulation Enrolls First Patient in U.S. Pivotal Study of the Investigational Axium Neurostimulator System for Chronic PainAugust 27, 2013 11:30 am | by Spinal Modulation | News | Comments
Spinal Modulation, Inc., a privately held global medical device company, today announced the first patient enrollment in its U.S. pivotal clinical trial. The ACCURATE study is a prospective, randomized, multi-center, controlled trial that will evaluate the safety and efficacy of the Axium™ Neurostimulator System for the treatment of chronic lower limb pain.
“Reverse-engineering the brain” is one of the National Academy of Engineering’s Grand Challenges for the 21st Century, and last spring President Barack Obama renewed the call for more advanced neurological research by launching the “BRAIN” initiative.
A new system for visualizing the brain during surgery is helping neurosurgeons more accurately diagnose and treat patients and is even allowing them to perform some procedures that until now have been extremely difficult or even impossible.
The ability to measure brain functions non-invasively is important both for clinical diagnoses and research in Neurology and Psychology. Two main imaging techniques are used: positron emission tomography (PET), which reveals metabolic processes in the brain; and activity of different brain regions is measured on the basis of the cells’ oxygen consumption by magnetic resonance imaging (MRI).