Zimmer Biomet Sterile Disposable Cuffs are designed and manufactured to ensure performance while providing single-use convenience. A comprehensive offering provides multiple options to help the clinician meet patient needs. These medical tourniquet features can help you create "Your Circle of Confidence."
Colour Coding
For easy size identification.
Protection Sleeves
Specially designed to complement Zimmer Biomet tourniquet cuffs and help protect the patient from soft tissue damage.
90º Ports
Help keep hoses clear of the surgical site.
Disposable
No cleaning, no cross contamination.
Single/Dual Bladder Options
Offers clinicians’ convenient choices for cuff style and sizing.
Positive Locking Connectors*
Helps prevent unintentional detachment from regulator hoses.
*Cuffs with Luer Lock connectors also available.
High Quality Material
Latex-free and durable, manufactured to withstand any procedural demand.
Single/Dual Port Options
All cuff styles are available in both single and dual port configurations, allowing for use with any A.T.S.® tourniquet regulator. Single port cuffs for use with Zimmer single port Tourniquet Systems. Dual port cuffs for use with Zimmer Dual port Tourniquet Systems.
Contact Closures and Fasteners
Holds the cuff securely in position by virtually eliminating rolling and twisting.
Zimmer Biomet offers a comprehensive line of surgical tourniquet cuffs on the market. The disposable cuff family provides high quality material without the hassle of cleaning or risk of cross contamination. With a wide variety of sizes, it is easy to meet even the most demanding procedural need.
A.T.S. Disposable Cuffs
- No cross contamination risk
- Durable, high-quality material
- Single and dual bladder options
- Single and dual port options
Limb Protection Sleeves
- Available for all Zimmer Biomet tourniquet cuffs
- Specific designs for A.T.S. cylindrical, contour and small adult cuffs
- Helps protect skin from wrinkling, pinching and shearing
- Helps prevent tourniquet contamination
- Does not clog cuff closure material