What lies at the heart of the improved training effect is the vibration reflex of the muscles, a phenomenon whereby the muscles contract in response to vibration. TU/e researcher Massimo Mischi has been investigating the possibility of using this phenomenon to boost the impact of workouts since 2005. He has also been assisted by PhD student Lin Xu, who presented his thesis on this subject on 13 January.
Mischi and Xu demonstrated among test subjects that workouts with a vibration of 30 Hertz boost the effect by at least 25 percent for the same weight without vibration. For a specific triceps exercise, the effect was even boosted by an average of 100 percent. The muscles were shown to work harder and were more quickly exhausted. In a different test, the test subjects appeared to be able to work with weights that were twice that of those used by test subjects without the vibration.
The results have particular significance for people who are weakened following an illness and need to rehabilitate, explains researcher Mischi. Exercises that use at least 70 percent muscular power are essential to quickly regain strength, and weakened patients are not often able to accomplish that. The new vibration method gives such patients a kind of short cut to quick rehabilitation. But sportsmen and women can also benefit by achieving the same effect, or make progress, faster. “The well-known fitness slogan ‘no pain, no gain’ is thereby somewhat diluted by this,” Mischi says with a wink. He thought of the idea for the device more than ten years ago when he ran his own fitness club in Rome.
Not with a blow
The knowledge that has been acquired has been incorporated in a new kind of fitness device, which spin-off company Hipermotion will be commercializing under the name of MaxDFM (Maximum Dynamic Force Modulation). Instead of a weight, a motor in this device produces the muscle load and the vibration, via a cable that has to be pulled out. The motor is able to build up the load gradually so that the joints are not subjected to the forces with a blow. That is also an advantage for rehabilitating patients and weaker sportsmen and women. Users are able to adjust the cable system to any height and length to enable all kinds of exercises to be done. Furthermore, the MaxDFM is operated entirely by a smartphone or tablet app, with individualized programs.
More information can be found at http://www.hipermotion.com/products/maxdfm/