World’s First Thought-Controlled Bionic Leg Unveiled by Rehabilitation Institute of Chicago
New England Journal of Medicine Case Study Highlights Unprecedented Technology for Lower-Limb Amputees
CHICAGO – The science of bionics helped the more than 1 million Americans1 with leg amputations take a giant step forward, as the Rehabilitation Institute of Chicago (RIC) revealed clinical applications for the world’s first thought-controlled bionic leg in the September 26, 2013 issue of The New England Journal of Medicine. This innovative technology represents a significant milestone in the rapidly growing field of bionics. Until now, only thought-controlled bionic arms were available to amputees.
Levi Hargrove, PhD, the lead scientist of this research at RIC’s Center for Bionic Medicine, developed a system to use neural signals to safely improve limb control of a bionic leg.
“This new bionic leg features incredibly intelligent engineering,” said Hargrove. “It learns and performs activities unprecedented for any leg amputee, including seamless transitions between sitting, walking, ascending and descending stairs and ramps and repositioning the leg while seated.”
This method improves upon prosthetic legs that only use robotic sensors and remote controls and do not allow for intuitive thought control of the prosthetic.
The case study focuses on RIC research subject Zac Vawter, a lower-limb amputee who underwent targeted muscle reinnervation surgery – a procedure developed at RIC and Northwestern University – in 2009 to redirect nerves from damaged muscle in his amputated limb to healthy hamstring muscle above his knee. When the redirected nerves instruct the muscles to contract, sensors on the patient’s leg detect tiny electrical signals from the muscles. A specially-designed computer program analyzes these signals and data from sensors in the robotic leg. It instantaneously decodes the type of movement the patient is trying to perform and then sends those commands to the robotic leg. Using muscle signals, instead of robotic sensors, makes the system safer and more intuitive.
“The bionic leg is a big improvement compared to my regular prosthetic leg,” stated Vawter. “The bionic leg responds quickly and more appropriately, allowing me to interact with my environment in a way that is similar to how I moved before my amputation. For the first time since my injury, the bionic leg allows me to seamlessly walk up and down stairs and even reposition the prosthetic by thinking about the movement I want to perform. This is a huge milestone for me and for all leg amputees.”
More than 1,200 leg amputees in the United States are recently injured servicemen and women.2
The US Army’s Telemedicine and Advanced Technology Research Center (TATRC) funded the RIC study with an $8 million grant to improve the control of advanced robotic leg prostheses by adding neural information to the control system. Due to this unusually large TATRC grant for the rehabilitation field and a multi-disciplinary team, RIC was able to accomplish these breakthrough innovations in only four years.
“We are pleased to partner with the RIC Center for Bionic Medicine in the development of user intent controlled bionic limbs,” said Col. John Scherer, director of the Clinical and Rehabilitative Medicine Program at the US Army Medical Research and Materiel Command. “We appreciate the opportunity to sponsor this life-changing effort to provide military amputees with as much physical functionality as possible, as soon as possible.”
This partnership aims to make these bionic legs available for in-home testing for both the military and civilian populations within the next five years.
About The Rehabilitation Institute of Chicago
The Rehabilitation Institute of Chicago (RIC) is the nation’s leading provider of comprehensive physical medicine and rehabilitation care to patients from around the world. Ranked No. 1 by both U.S. News and World Report and the U.S. National Institutes of Health, RIC holds an unparalleled market distinction.
With a record six multi-year, multi-million dollar federal research designations awarded and funded by the National Institutes of Health and the Department of Education’s National Institute of Disability and Rehabilitation Research in the areas of spinal cord injury, brain injury, stroke, neurological rehabilitation, outcomes research, bionic medicine/rehabilitation engineering research, and pediatric orthopedics, RIC operates the largest rehabilitation research enterprise in the world. RIC also operates its 182-bed, flagship hospital in downtown Chicago, as well as a network of more than 40 sites of care distributed throughout the Midwest, through which it delivers inpatient, day rehabilitation, and outpatient services.
The Center for Bionic Medicine at RIC is one of the world’s largest prosthetics and orthotic research centers; it focuses on developing bionic legs, bionic arms, and other innovative rehabilitation technologies.
Founded in 1954, RIC has been designated the “No. 1 Rehabilitation Hospital in America” by U.S. News & World Report every year since 1991. RIC sets the standard of care in the post-acute market through its innovative applied research and discovery programs, particularly in the areas of neuroscience, bionic medicine, musculoskeletal medicine and technology transfer. For more information, go to www.ric.org.
About the Telemedicine and Advanced Technology Research Center
The Telemedicine and Advanced Technology Research Center (TATRC) explores, innovates and manages medical technologies that advance military medicine. TATRC serves as the primary execution manager for Defense Health Programs research while exploring science and engineering technologies leveraging other programs to maximize benefits to military health care.
TATRC’s vision is to be the Department of Defense (DoD) model for enablement of transformational medical research.TATRC is the science and technology scout for military medicine and the center of gravity for Army telemedicine initiatives. TATRC initiates, sponsors, promotes, and oversees programs and partnerships in medical science and engineering that support military medical programs. With the strategic application of funding from small business innovation research/small business technology transfer, Army Medical Department advanced medical technology initiatives, and other sources, TATRC accelerates the implementation of novel science and engineering technology applications through validation studies, translational research, and demonstration projects. As a result, TATRC is a network of experts and capabilities positioned to rapidly address urgent DoD needs. For more information about TATRC, please visit: www.tatrc.org.
1K. Ziegler-Graham, “Estimating the Prevalence of Limb Loss in the United States: 2005 to 2050,” Arch Phys Med Rehabil, vol. 89, pp. 422-429, 2008.
2C. Krueger, J. Wenke, and J. Ficke, “Ten years at war: Comprehensive analysis of amputation trends,” J Trauma Acute Care Surg, vol. 73, pp. S438-S444, 2012.