ROMEDIS NEWS > Winner, German Federal Innovation Prize 2017

Winner, German Federal Innovation Prize 2017

Winner, German Federal Innovation Prize 2017

A special distinction has been awarded to the Radspieler enterprise from Neubeuern, Germany. The presentation was made at the international crafts trade fair in Munich (IHM).
The Undersecretary of State from the Federal Ministry of Economics and Technology, Iris Gleicke, presented the federal award for innovative achievement in craft trades.
The Radspieler firm was awarded for its “Symphonie Aqua Line”, which has been marketed worldwide by its subsidiary, Romedis GmbH. Work done by Orthopädietechnik Radspieler in research and development has led to innovation in orthopaedic technology. An example of this is the hydrostatic impression system, „Symphonie Aqua“. How a prosthesis functions is significantly connected with the fitting of its socket. Control, wearing comfort and adhesion are determined by the plaster impression. This is determined by the level of precision when reproducing the physiological compression ratio between the soft tissues and bony parts on the stump.
By means of “Symphonie Aqua”, the hydrostatic impression system presented at the Munich trade fair, the load locus, pressure points and pain points in the prosthetic socket can be determined under actual conditions. Consequently, a properly fitting impression made while bearing a full load can be produced. Until now, this was mostly done from a sitting position, preventing an optimal reproduction of the stump’s dynamics while wearing the prosthesis under a full load. This often led to pressure points and painful areas in the prosthetic socket. Existing impression techniques were very laborious and individually user-dependent. Likewise, until now, exact reproducibility was nonexistent.
Following several years of development work, this critical point has been avoided through the use of hydrostatics.
The fitting, adhesion and control of the prosthetic socket can now be exactly determined. Scarred, sensitive areas and prominent locations on the bone are clearly detected. The load situation for wearing the prosthesis in the future can be determined. Using hydrostatic pressure, the anatomy of the stump can be reproduced. Due to this precise impression technique, a lengthy fitting procedure of the trial socket is no longer required. The resulting efficiency and effectiveness leave more time for adjusting the prosthesis and for servicing the patient.