Zyston™ Curve Interbody Spacer System
Developed to enable simple insertion and accurate placement.
The Zyston™ Curve Interbody Spacer System is a uniquely designed spacer that has been created to address the issue of accurately placing a TLIF graft in the proper anatomical position. The design features a Controlled Articulating Mechanism, which allows for the variable direction of force necessary to turn the implant from direct posterior to lateral. Additionally, the aggressive tapered leading edge of the implant aids with the insertion process to allow for self distraction. The combination of intelligently designed instrumentation (to improve visualization), and the distinct styling of the implant, provides the surgeon with a complete system suitable for complex surgical procedures.
Key Features:
Simple Insertion
The Zyston™ Curve Interbody Spacer System is a uniquely designed spacer that has been created to address the issue of accurately placing a TLIF graft in the proper anatomical position. The design features a Controlled Articulating Mechanism, which allows for the variable direction of force necessary to turn the implant from direct posterior to lateral. Additionally, the aggressive tapered leading edge of the implant aids with the insertion process to allow for self distraction. The combination of intelligently designed instrumentation (to improve visualization), and the distinct styling of the implant, provides the surgeon with a complete system suitable for complex surgical procedures.
Key Features:
Simple Insertion
- Secure tactile control designed to minimize the number of passes through the annulotomy window
- Clear visualization – 5.25mm diameter low profile inserter shaft
- Controlled Articulating Mechanism provides variable and fixed angulation
- Markers provide confidence and confirmation – strategically placed markers form a “plus” sign when placed in the ideal plane
Additional Information
Patient Risk Information - 14-533099-00PDF File - 1,818 KB
Zyston™ Curve Interbody Spacer System Surgical Technique
PDF File - 946 KB