Late Breaking News
Robotic Exoskeletons Allow Paralyzed Veterans to Exercise, Reduce Sedentary Effects
By Stephen Spotswood
New York — For veterans suffering from paralysis due to a spinal-cord injury (SCI), the inability to move a significant portion of their body is the obvious, immediate concern. Over the long-term, however, the extreme sedentary lifestyle caused by paralysis can lead to many secondary medical problems that can severely impact not only the quality of but also the length of their lives.
To combat this, VA physicians are experimenting with the use of robotic exoskeletons to provide patients with limited mobility, allowing them to train and exercise and stave off longterm health effects.
Lack of mobility can lead to obesity, coronary heart disease, diabetes, insulin resistance, impairments in bowel and bladder function, weight gain and pressure ulcers. Even a modest amount of movement and exercise can help counteract those co-morbidities but can be difficult to achieve from a wheelchair.
|Philanthropist and world-renowned accessibility advocate Rick Hansen looks on as Air Force Lt. Ian J. Brown, a full paraplegic, walks in the ReWalk device at James J. Peters VAMC in The Bronx, NY. Hansen’s foundation is funding spinal cord injury research there.|
“Paralysis from SCI causes immediate body changes,” explained Ann Sponge, researcher at the Center of Excellence for Major Consequences of SCI at the James Peters VA Medical Center in the Bronx, during a press briefing on VA’s SCI research. “There are significant losses in lean-tissue mass and bone-mineral density, while fat-tissue mass increases significantly. We have been studying ways to ameliorate, intervene or reverse these and other complications.”
Sponge and her colleagues are experimenting with use of the ReWalk exoskeleton suit developed by Argo Medical Technology and approved for institutional use in January 2011. The device consists of a light brace support suit, with motors at the joints and an array of motion sensors to allow patients limited mobility. Arm crutches are used for stability.
The SCI center has four such suits and has trained seven paralyzed veterans in their use, eventually allowing the patients four to six hours per week of continuous walking. The program begins with a learning phase (12 sessions over four weeks), then progresses to a training phase (18 sessions in six weeks), though the length of the phases will vary, depending on each patient’s learning curve.
During the training phase, patients will learn to sit and stand and develop basic balance using the exoskeleton. Progression to walking will occur as the patients’ skills develop. Those skills also include standing balanced with crutches, balancing with one crutch, ascending and descending stairs, a 10-meter walk in less than two minutes and a 30-meter walk in under six minutes.
“During each session, the 10-meter walk time and the six-minute walk time are assessed,” Spungen explained. “We saw an average increase of 2.4 meters per session.”
The program’s three best exoskeletal-assisted walkers can walk the length of a football field in about six minutes, Spungen said. Two of the patients also improved the ability to control their legs. Those are minor improvements that correlate with gains in leg lean tissue, she noted.