While waterproof prosthetic legs have been available for decades, “this is the first fully functional swim leg,” said Matthew Flynn, a certified prosthetist at Eschen, the company on Long Island that makes it. Mr. Flynn, himself an amputee who had tested earlier prototypes, added: “Other legs can certainly be used in the water, but they can’t propel you through the water.”
Todd Goldstein, the designer, with a freshly minted doctorate in molecular biology and tissue engineering, was enlisted for the project in part because of his experience with 3-D printing. On a Friday night before the swim test, he programmed a 3-D printer to make a crucial part of the prosthetic: a downward-pointing triangle of nylon and plastic located at calf height that provides some propulsion but, with cone-shaped holes that lets some water through, is not overly forceful.
The aim of the aquatic test run was to work out the prototype’s kinks to prepare for commercial sales.
Mr. Lasko, at first not comfortable enough with the new leg to dive in, stepped into the water and took off into a gliding freestyle. He had not swum like this, using both legs, since his injury at age 21.
“It feels good,” he said after finishing his first lap, hanging on to the pool’s edge. “I can definitely feel the difference, but I just have to get used to the bit of extra weight.”
As he did lap after lap, not everything went swimmingly. First, the foot filled with water, creating drag. That’s an easy fix, Dr. Goldstein explained: Holes could be added to release the water. Then the all-important triangle fell off. Mr. Lasko said, “I was kicking so hard it popped right off.”
Dr. Goldstein turned some screws to secure it, but a few laps later, it fell off again and briefly went missing, until it was discovered snagged in the lane lines. Dr. Goldstein, by now a poolside MacGyver, found nylon cable ties to temporarily secure the triangle to the prosthetic.
As Mr. Lasko continued to propel himself through the water with both legs, he was elated. “I haven’t done that in years,” he said. “I felt good and free.”
Final tweaks have been made, and now the triangle is firmly secured. He should have his swim leg soon, in plenty of time for him to horse around with his sons, Ben and Luke, at the pool this summer.
For Mr. Lasko, getting a new prosthetic leg for swimming is comparable to getting new shoes or gear for specific sports. “You don’t wear CrossFit gym sneakers to run a marathon,” he said.
He’s got one leg for walking, one for high-impact exercise, one for cycling, and even one for sprinting, all in a special closet. The new swim leg will be Mr. Lasko’s seventh.
The device is expected to become commercially available in about six months, said Eric Feinstein, a manager at Northwell Ventures, the venture capital arm of Northwell Health, a network of hospitals and local facilities, which funded the project. Eschen’s high-end ready-made parts were used, and Composite Prototyping Center, also based on Long Island, provided equipment and machinery.
An estimated 1.9 million people have lost a limb nationwide, a number that is expected to double by 2050, mostly as a result of diabetes, according to the Amputee Coalition of America, a nonprofit organization devoted to advocacy and education.
Even amputees who aren’t aiming to participate in triathlons may want the convenience and versatility of this kind of swim leg, which can also be used in saltwater.
Dr. David M. Crandell, the medical director of the amputee program at Spaulding Rehabilitation Hospital in Boston, described the new swim leg as an advance. “Prosthetic devices that people use don’t typically offer advantages once you’re in the water,” he said. More often, he said, they are “like an anchor.”
Swimming is particularly good exercise for amputees, Dr. Crandell added, because it “doesn’t put shear force on the residual limb. They are not running or jumping.” The end of that limb can develop blisters, or deeper tissue wounds, during high-impact sports like jogging, but doing laps is more “skin friendly,” he said.
The cost will range from $2,000 to $5,000, depending on customization and which off-the-shelf parts are used, Mr. Feinstein said. (Mr. Lasko got his prosthetic free for participating in the project.)
Most likely, amputees will have to pay out of pocket. Most insurance companies don’t provide coverage for recreational prostheses, Dr. Crandell said, “even though ultimately getting back to sports is best physically and for psychological recovery.”
After swimming on and off for a couple hours, Mr. Lasko’s energy was flagging. But he couldn’t resist trying one of the diving boards at the expansive facility. By then, feeling sure of his footing, he was backing all the way up the board, taking a couple of stomps and diving off. He did this again and again. Then he did a flip. Then a flip and a half — ouch, awkward landing. “Not too bad,” he rated himself while easily climbing the pool’s ladder.
He was beaming like a child who just got a new gadget.