The full prosthesis is robust, and the innovative socket is comfortable, adjustable and breathable too, which means it’s easy to take on and off while providing the best possible fit.įast turnaround, low cost, comprehensive optimized strategy… FacFox is your one-stop partner for product manufacturing! It st arts with a 3D scan of the limb to create the design that gets laser sintered in nylon 12. In fact, the accessibility of 3D printing is probably what enabled a company like Open Bionics to emerge.
Engineered and manufactured in Bristol, UK, the Hero Arm is a lightweight and affordable myoelectric prosthesis, available now in the USA, UK, Europe, Australia and New Zealand for below-elbow amputee adults and children aged 8 and above.Įach Hero Arm is unique and, from the beginning, Open Bionics made intensive use of 3D technology. Open Bionics’ Hero Arm is (probably) the world’s most affordable multi-grip bionic arm, with multi-grip functionality and truly empowering aesthetics. The other is to make prostheses more complex and to rapidly develop new iterations, accelerating evolution. The use of 3D printing to make artificial limbs serves two purposes: one is to make simple prostheses easily affordable say to children who rapidly outgrow them or to people in the poorest areas of the world who are often most at risk of amputations for a number of reasons that we will not get into here. With the release of the official Metal Gear Solid prosthetic/bionic version of its Hero Arm, it’s definitely getting closer. The st artup Open Bionics was likely founded upon this objective and over time it has come closer to achieving it. Ever since users and groups of people began using 3D printing to make prosthetics more affordable we’ve been waiting for a time when these easily iterable devices would evolve from prosthetic limbs into bionic limbs.