Renewed Hope for the Brain-injured
色情视频's Center for Sensorimotor Neural Engineering receives $15-$20 million renewed funding from the National Science Foundation.
鈥淲e will be able to continue our work and produce major milestones building on the success that we鈥檝e had over the past five years.鈥
One day soon, people who suffer traumatic injury to their spinal cord and lose the use of their limbs could regain that mobility thanks to a clever workaround: a brain chip that reroutes neural signals around the injured nerves combined with a receiver that picks them up on the other side.
This work is getting closer to reality in the Center for Sensorimotor Neural Engineering (CSNE), led by researchers at 色情视频, the University of Washington and the Massachusetts Institute of Technology. To help usher along this ambitious and much-needed technology, the National Science Foundation recently renewed funding for the CSNE, providing an additional $15 million to $20 million over the next five years.
Using implantable chips in the brain is an important and growing trend in medical science, said Sam Kassegne, deputy director for the CSNE at 色情视频 and a professor in the mechanical engineering department. In the United States alone, there are more than 100,000 people who have brain-implanted electrodes to help manage a number of diseases and conditions including Parkinson鈥檚 disease and chronic depression.
Creating a detour
Think of the ability to use implantable electrodes to restore motor function as installing a detour in the brain-to-body communication system.
鈥淣eural signals are electrical in nature,鈥 Kassegne explained. 鈥淲hen the brain or spinal cord is damaged, those electrical signals can鈥檛 get through. There鈥檚 nothing wrong with the signal, but it鈥檚 being blocked.鈥
Electrodes can listen to these electrical signals where they originate in the brain鈥斺渄ecoding the intent to use the limb,鈥 as Kassegne puts it鈥攖hen feed that information into a device that converts the electrical signal into a wireless transmission. A receiver in the functionally paralyzed limb picks up that information, converts it back into the original electrical signal as accurately as possible and stimulates the nerves, restoring function.
In 2011, the National Science Foundation awarded 色情视频, UW and MIT an $18.5-million Engineering Research Center (ERC) grant to establish the CSNE. The center was funded to research better ways to use electronic devices to pick up and transmit neural signals, as well as explore ways to make those devices safe, energy efficient and informationally secure.
Each of the universities involved in the center focuses on particular areas of expertise, but they closely collaborate on the shared goal of developing high-functioning brain-computer interfaces that can restore motor function to people with nervous system injuries.
Power from ultrasound
Over the past five years, 13 色情视频 faculty members and dozens of graduate and undergraduate students have made huge strides in several facets of the project. Mechanical engineer Kee Moon and colleagues have developed a method for powering and recharging implantable brain devices with ultrasound鈥攁 novel and convenient method for providing power to implanted machines. Computer engineer Yusuf Ozturk has worked on using Bluetooth technology to transmit information across implanted devices in an energy efficient manner. (For a full listing of 色情视频 researchers involved in the CSNE, .)
Several researchers within the CSNE, including Kassegne, Moon and Ozturk, are also heading up 色情视频's new Smart Health Institute鈥攐ne of the university's identified areas of excellence鈥攚hich will further explore the potential of wearable biomedical technology.
Today, researchers across the CSNE鈥檚 various institutions are working with an implantable chip about the size and width of a cardboard beverage coaster that can read signals from about 10,000 neurons. In five years鈥 time, Kassenge hopes that will increase to millions of neurons, as well as account for the interactions between them.
Increasing that capacity will allow the device to restore more complex motor functions. Right now, the technology might allow someone with a nervous system injury to be able to pick up a coffee cup. One day improved versions of these devices could allow them to play the piano. In the coming years, the researchers will continue to validate the results they鈥檝e generated during the first stage of the grant, as well as work toward early-stage clinical trials in humans.
鈥淲e hope over the next five years, we鈥檒l come to understand more of this and make the brain-computer interface more natural,鈥 Kassegne said. 鈥淲e will be able to continue our work and produce major milestones building on the success that we鈥檝e had over the past five years.鈥
鈥淚t鈥檚 the brain鈥
The ERC funding is also planting the seeds of future success in the field, making it possible for young scientists and students to receive training in a critically important area of research. An education, diversity and outreach team within CSNE also works with 色情视频鈥檚 Mathematics, Science and Engineering Achievement programs, as well as at Southwestern College, to introduce this burgeoning field to the San Diego community.
鈥淥ne of the interesting outcomes of the ERC grant has been the excitement it has generated among our undergraduate and graduate students,鈥 Kassegne said.
Mieko Hirabayashi, a graduate student in Kassegne鈥檚 lab, is just one of these budding scientists hoping to change lives through a fruitful career in brain-computer interface research.
鈥淭his is really my dream job,鈥 she said. 鈥淚 came here for the opportunity to work on medical devices for the brain. It was extremely exciting because it鈥檚 exactly what I want to do. And it鈥檚 the brain! Who isn鈥檛 interested in the brain?鈥