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Hip Stem System Equipment Supplied In Germany
6 equipment items found
Manufactured by:implantcast GmbH based inBuxtehude, GERMANY
The BethaLoc® hip stem is made of implatan® titanium alloy (TiAl6V4) and is available in a standard and lateralised offset version, each with a CCD angle of 130°. Rotational stability and osseointegration are improved by the longitudinal grooves on the entire stem. The proximal two-thirds of the stem are coated with hydroxyapatite (HA) to support the ...
Manufactured by:implantcast GmbH based inBuxtehude, GERMANY
The Actinia® Hip Stem System features a complete range of cementless and cemented options designed for primary arthroplasty. In addition to standard stems the system offers stems with lateralised neck / offset geometry. Horizontal and vertical ribs improve axial and rotational stability and ...
Manufactured by:implantcast GmbH based inBuxtehude, GERMANY
The Bicana® hip stem system is an anatomical, cemented system with an extensive collar (orientated at 45° to the femoral axis) which encourages physiological proximal load transmission. The anatomical s-shaped geometry ensures additional stability. A physiological / anatomical anteversion of 5° is built into the ...
Manufactured by:implantcast GmbH based inBuxtehude, GERMANY
The AJS® hip stem system features a complete range of cementless and cemented implants for primary arthroplasty. Because they are shaped to very closely fit the proximal endosteal femoral geometry of European patients, the AJS® stem gives outstanding primary stability via an immediate tight fit. ...
Manufactured by:Biotech GmbH based inRheinbrohl, GERMANY
The BET stem design is double tapered and collarless. The cemented version has high polished surface, whereas the uncemented type is titanium porous coated. The stems have a neck with 12/14 cone for attachment of Biotech modular head system in CoCr and ceramic as well. The BET stem is available in 8 sizes in both, cement and uncemented ...
Manufactured by:Biotech GmbH based inRheinbrohl, GERMANY
The concept of this femoral component relies on a close prosthests-bone contact in both medial and lateral zones The stem geometry shows a proximal lo distal 3 degree taper providing a greater femoral canal fill, improving rotational stability and transferring load in the proximal cakar region to restore near normal stress distribution Proximal off-loading reduces stress-shielding and thereby ...