BERKELEY, CA /Marketwire/ -- Berkeley Bionics, developer and maker of bionic exoskeletons that augment human strength, endurance, and mobility, unveiled eLEGS, a wearable, artificially intelligent, bionic device that powers paraplegics up to get them standing and walking.
eLEGS was unveiled at a press conference in San Francisco by Berkeley Bionics' CEO, Eythor Bender, who explained that the company's mission is to provide people with unprecedented mobility options. "Many of the 6 million Americans who live with some form of paralysis today were highly active and at the top of their game when they sustained their injury. As they research their options for increased mobility, they discover that wheelchairs are pretty much it. This has been the only alternative—their only hope—for nearly 500 years," he said. "We want to enhance their independence and freedom of movement," he added, "and with eLEGS, they can stand up and walk for the first time since their injury."
"As a wheelchair user, I experience the multiple health and fitness benefits of mobility from the standing position. I can't wait to share this alternative with other individuals," shared eLEGS tester and a partial quadriplegic herself, Dr. Suzy Kim, an Assistant Clinical Professor at the Department of Orthopaedic Surgery, Physical Medicine and Rehabilitation, UCI Medical Center, as well as Director, Clinical Spinal Cord Injury Program and Scientific Liaison for Reeve-Irvine Research Center. "The application of eLEGS will revolutionize the field of neurologic rehabilitation from the hospital to the home setting."
Initially, the device will be offered to rehabilitation centers for use under medical supervision, and can be adjusted to fit most people between 5'2" and 6'4" and weighing 220 lbs. or less, in a matter of minutes. Users must be able to self-transfer from their wheelchair. Simple Velcro straps, backpack-style clips, and shoulder straps secure eLEGS to the user, over their clothing and shoes, and with a little practice, users can put eLEGS on and take it off in a minute or two.
eLEGS provides unprecedented knee flexion, which translates into the most natural human gait available in any exoskeleton today, making it better equipped to handle mixed terrains. It is also relatively quiet while in operation. Walking speeds depend on each patient's aptitude and condition, but speeds in excess of 2 mph can be attained, and speeds can be varied. The device is battery-powered and has a gesture-based human-machine interface, which—using sensors—observes the gestures the user makes to determine their intentions and then acts accordingly. A real-time computer draws on sensors and input devices to orchestrate every aspect of a single stride.
Clinical trials will commence early next year at select rehabilitation clinics in the U.S. A limited release of eLEGS is scheduled during the second half of 2011 at several of the most respected rehabilitation facilities around the country. At that time, eligible patients will have the opportunity to enroll in a medically supervised eLEGS gait training program, working with their physical therapist. Therapists will undergo training to become eLEGS-certified prior to assisting patients.
Berkeley Bionics "developed the first practical exoskeleton and the first untethered exoskeleton in the world." Lockheed Martin Corp. entered into a licensed agreement with Berkeley Bionics in January 2009 and is currently productizing the Human Universal Load Carrier (HULC). HULC's users can carry up to 200 lbs for hours and over all terrains.
About Berkeley Bionics
Berkeley Bionics, based in Berkeley, CA, and founded in 2005, develops and manufactures powered and artificially intelligent human exoskeletons for military, civilian, and medical uses that augment strength, endurance, mobility, and injury prevention.