Light-weight ultra-resistant prosthetics
Space technology-enabled prosthetic leg help a german athlete push boundaries
German athlete Wojtek Czyz, competing with a space-tech enhanced prosthetic leg, set a new world record at the Paralympics 2008 in Beijing, reaching an amazing 6.50 m and beating the previous world record by 27 cm. In spring 2004, ESA’s Technology Transfer Programme (TTP) technology broker MST Aerospace met with Wojtek Czyz and his trainer to perform a pre-screening of the most crucial elements of the prosthesis used by Czyz. Having lost part of his left leg three years before in a sports accident, he now uses a prosthesis in two athletic disciplines: long jump and sprint competitions. The objective was to see how to improve his performance, and the most important problem was related to a connection angle, the so-called L-bracket, between the knee joint and the foot module. In collaboration with the German company ISATEC, a new L-bracket was developed using materials originating from the Alpha Magnetic Spectrometer (AMS), an instrument that will be mounted on the International Space Station to study extraterrestrial anti-matter, matter and missing matter. The advantage of these space materials is that they are extremely strong and at the same time lighter than conventional products available, both important advantages for top athletes’ performance. The problem with Czyz’ previous prosthesis was that it tended to break when he performed to the maximum of his capacity. At the previous Paralympics Games in Athens Czyz competed with a space-tech enhanced prosthetic leg and won a gold medal in three disciplines: 100 m sprint, 200 m sprint and long jump. Following this success, MST and ISATEC, a German engineering company dealing with light materials, continued to work on improving the prosthesis. In a series of investigations undertaken by MST, including a number of advanced calculations on the dynamic performance of the materials done by ISATEC, a single-part foot module made in carbon fibre reinforced plastics proved to be the most promising solution for a sprint prosthesis. For the long jump discipline, the previous design consisting of an L-bracket and a foot module was proven to be the most efficient. The use of lighter and extremely strong space materials in the development of new prostheses for top athletes has proven its worth both in Athens in 2004 and again in Beijing in 2008. The next step will be to use this expertise for similar developments of prostheses for other disabled people."