Biatain Silicone – superior absorption with soft adhesion for general purposes.
Biatain Silicone is a soft, flexible and absorbent foam dressing with gentle silicone adhesive. It can be used on a broad range of exuding wounds making Biatain Silicone the obvious choice for moist wound healing of commonly occurring wounds.
Biatain Silicone can be used for a wide range of exuding wounds, including leg ulcers, pressure ulcers, non-infected diabetic foot ulcers, donor sites, postoperative wounds and skin abrasions. Biatain Silicone can be used in combination with compression therapy.
Unique 3D foam for superior absorption
When in contact with exudate, the unique 3D foam of Biatain Silicone conforms to the wound bed. The fluid handling properties of Biatain Silicone ensure optimal control of exudate thus minimizing the risk of maceration and leakage. (link to movie where the 3D foam structure is shown 1.18-1.42)
The silicone wound contact layer provides a secure fit to keep the dressing in place while ensuring minimal pain upon removal
Biatain Silicone has a 3-piece non-touch opening to allow aseptic and easy application and to reduce waste of dressings. (link to movie where the product is put on 0.44-1.18)
Soft, flexible and comfortable
The soft and flexible design of Biatain Silicone ensures a close fit to wound and body, and the foam pad at skin level makes Biatain Silicone comfortable to wear – even under compression. (link to movie – the compression section 2.00-2.14)
Bacteria and showerproof
The semi-permeable outer film is both bacteria- and shower proof (link to movie, bacteria and showerproof section 1.42-2.00)
Mode of action
The unique 3D foam absorbs the exudate vertically and together with the lock-away layer it locks away the fluid within its structure, still leaving the wound moist to ensure optimal moist wound healing conditions.
Biatain Silicone is a soft and conformable polyurethane foam dressing with a semi-permeable, water- and bacteria proof top film and a soft silicone adhesive. (link to movie – showing the different layers 0.26-0.44)