Compression

BioSkin™ has set itself the ambitious goal of developing orthopaedic supports that stand out from the competition. The prerequisite is excellent compression without unnecessarily restricting the patient. The supports must not slip, but at the same time they should not exert any uncomfortable pressure on the affected areas of the body. Another criterion is ease of use and a comfortable feel.
Thanks to the patented high-tech materials from BioSkin™, it has been possible to develop these orthopaedic supports. The wafer-thin, breathable, hypoallergenic material adapts perfectly to the contours of the body. The resulting wearing comfort is unique.

Ultima™

Ultima™ Thin Skin™ - Highest compression

The Ultima™ Thin Skin™ material has the highest level of compression compared to the other materials. Ultima offers dynamic compression of the Knee Skins™ and Performance Supports.

Features

• 18-20 mmHg compression
• Light
• Thin

 

Ultima 2S™

Soft Skin™ - Soft comfort on the skin
The Ultima 2s™ Soft Skin™ material has a soft micro-fleece lining for extra softness against the skin. Ultima 2s™ is used in the Ankle Skins™ and Wrist Skins™. 

Features

• Extremely soft micro-fleece lining
• Lightweight
• Thin

 

Ultima 2SL™

Ultima 2SL™: Easily adjustable material
Ultima 2SL™ features a Velcro®-compatible surface for easy adjustability. It offers premium anchoring and closure techniques on the front closure knee supports, TriLok™ and wrist supports.

Features

• Extremely soft micro-fleece lining
• Lightweight
• Thin

 

Stratus™

Status Comfort Skin™ - comfort and support
Stratus Comfort Skin™ provides compression and support with exceptional comfort. Stratus is offered with the knee supports and orthoses.

Features

• Anatomical stretch technology
• Maximum proprioception
• Perfect breathability
• Natural temperature control

SkinLok™

SkinLok™ - Anti-slip mechanism
The SkinLok™ feature is one of BioSkin™'s greatest achievements. As soon as the skin starts to sweat, the SkinLok™ function is activated. The coefficient of friction between the material and the skin increases. This increase means that the orthopaedic support stays in place even during heavy activity, while the sweat can still evaporate.