A Brand-New Kick
How an MIT spinoff is revolutionizing prosthetics, one motor-driven ankle at a time.
For those of us with two functioning legs, itâ€™s easy to overlook the crucial role ankles play in walking. Every time we take a step, our Achilles tendons extend and contract and help power us forward. When amputees put on a standard carbon ankle prosthesis, they lose at least 50 percent of that propulsion. As a result, they typically canâ€™t walk as fast or as far, and are more tired at the end of the day.
But a revolutionary new ankle prostheticâ€”produced by BiOM, a Bedford company founded on the breakthrough research of MIT professor Hugh Herrâ€”is changing all that. BiOMâ€™s motor-driven prosthesis replicates the power and function of a normal ankle. â€śWeâ€™ve had some people say to us itâ€™s the closest thing theyâ€™ve had to having their leg back,â€ť says Matt Albuquerque, president of Next Step Bionics & Prosthetics, which sells the ankle. â€śThat had been something Iâ€™ve never heard before.â€ť
The BiOM ankle, though, still has one big problem: Itâ€™s â€śprohibitively expensive,â€ť Albuquerque says. At about $50,000, it costs up to $40,000 more than a standard prosthesis, and isnâ€™t covered by Medicare, Medicaid, or most insurers. That means most amputees canâ€™t afford it. BiOM has sold about 1,000 units since it launched the product in 2011, and most of its customers have been veterans, covered by the Department of Defense or the Veterans Administration. (DoD money funded Herrâ€™s research and helped BiOM get off the ground.)
Insurance coverage of all prostheses is inconsistent, even though advocates point to research showing that having a prosthesis decreases long-term healthcare costs by keeping amputees more active and helping them avoid issues like obesity, diabetes, and depression.
BiOM CEO Tim McCarthy goes further: The companyâ€™s new ankle, he says, also alleviates stress on muscles that are forced to overcompensate for the missing ankle propulsion. â€śOur mode of transportation is going to save the healthcare payer millions of dollars because weâ€™re going to reduce back pain, hip pain, knee pain. Weâ€™re going to improve cardiovascular health and all those costs that are associated with those comorbidities,â€ť he says.
â€śI think it is a reasonable argument,â€ť says Tom Fise, the executive director of the American Orthotic & Prosthetic Association, noting that it builds off the same principle as previous studies. Is there enough data to convince Medicare and Medicaid officials to cover the BiOM ankle? The company will find out soonâ€”at press time, BiOM was awaiting a ruling. If government insurers give it a thumbs up, private insurers will likely follow suit.
In the meantime, McCarthy says his company will continue innovating. A new powered knee prosthesis is three to five years away. â€śWeâ€™re going to focus on foot-ankle,â€ť he says, â€śand then weâ€™ll work our way north.â€ť
Here are a few projects in development in Hugh Herrâ€™s Biomechatronics group at the MIT Media Lab. Researchers believe they could reach consumers in two to five years.
Most prosthetic knees available right now arenâ€™t powered. This one, though, re-creates the power and energy of a biological knee. Designed to be efficient, the knee draws on battery power only when necessary and, like a hybrid car, is capable of recharging its battery when you walk.
Comfortably fitting a prosthesis to a limb remains a huge challenge. This device is designed to help fix that: Users insert their limb to precisely measure its shape and even the stiffness of the skin around it, so a socketâ€”the limb-prosthesis connectorâ€”can be mapped accordingly.
Currently, sockets are fashioned by hand: The process is slow, expensive, and difficult to replicate. But Herrâ€™s group is automating it. They take the data from the Fit Socket and quickly and relatively cheaply pump out precise, replicable, and more comfortable sockets from 3-D printers.
Source URL: http://www.bostonmagazine.com/health/article/2013/11/26/prosthetics-research-boston-biom-ankle-prosthetic/