UW News

Center for Sensorimotor Neural Engineering


June 27, 2017

Brain signals deliver first targeted treatment for world’s most common movement disorder

A new closed-loop deep brain stimulation system (results at right) developed by the UW-based CNSE delivers relief from symptoms of essential tremor that cause patients hands to shake (left) as successfully as current DBS methods (middle), but using far less battery life.

For the first time, University of Washington researchers have delivered targeted treatment for essential tremor – the world’s most common neurological movement disorder – by decoding brain signals to sense when patients’ limbs are shaking.


December 5, 2016

No peeking: Humans play computer game using only direct brain stimulation

The UW researchers used a magnetic coil placed at the back of the skull to noninvasively stimulate test subjects’ brains. Players used the absence or presence of phosphenes — blobs of light that appear when researchers stimulate a specific region of the visual cortex — to guide them through a maze without actually seeing the maze.

UW researchers have published the first demonstration of humans playing a simple, two-dimensional computer game using only input from direct brain stimulation — without relying on any usual sensory cues from sight, hearing or touch.


October 26, 2016

For the first time in humans, researchers use brain surface stimulation to provide ‘touch’ feedback to direct movement

CSNE M.D./Ph.D. student and GRIDLab member David Caldwell tests the hardware used for stimulating and recording a patient’s brain surface, along with a cyber glove to track hand joint angles and finger motions.

For the first time in humans, UW Center for Sensorimotor Neural Engineering (CSNE) researchers have used direct stimulation of the human brain surface to provide basic sensory feedback through artificial electrical signals, enabling patients to control movement while opening and closing their hand.


June 21, 2016

UW-led team awarded $1M bioelectronics innovation prize

diagram of how device works

An international team led by researchers at the Center for Sensorimotor Neural Engineering (CSNE) based at the University of Washington is one of three finalists in a race to produce an implantable wireless device that can assess, stimulate and block the activity of nerves that control organs.


December 28, 2015

UW center receives $16M to work on first implantable device to reanimate paralyzed limbs

Photo of CSNE researchers

The UW’s Center for Sensorimotor Neural Engineering has won a $16M NSF grant to develop the first implantable device to reanimate paralyzed limbs and restore motor function in stroke or spinal cord injury patients.


October 8, 2014

Arts Roundup: Drama, music — and Anne Hamilton’s ‘The Common S E N S E’

Ann Hamilton

Fall is a busy time for the arts on campus, with a dizzying array of performances and exhibitions to take advantage of.


June 26, 2014

Ask the crowd: Robots learn faster, better with online helpers

The UW's robot builds a turtle model.

University of Washington computer scientists have shown that crowdsourcing can be a quick and effective way to teach a robot how to complete tasks.


May 14, 2014

$31M gift will fund early stage UW research by high-tech entrepreneurs

Neil King and graduate student Yu-Ru Lin observe bacterial colony growth at the Institute for Protein Design.

The University of Washington is receiving a $31.2 million gift from Washington Research Foundation to boost entrepreneurship and support research that tackles some of society’s most crucial challenges. The award will fund four interdisciplinary initiatives that seek to advance global innovation in clean energy, protein design, big data science and neuroengineering.