XRing™ is a versatile circular external fixation system developed for both traditional and modern reconstruction methods. At its core, the system features intuitive primary components designed for a broad range of complex reconstruction applications, supporting both static and dynamic frame configurations. Modern advancements are designed to facilitate stable anatomic frame construction, enhanced component versatility, and improved overall surgical efficiency.
XRing™ is a versatile circular external fixation system developed for both traditional and modern reconstruction methods. At its core, the system features intuitive primary components designed for a broad range of complex reconstruction applications, supporting both static and dynamic frame configurations. Modern advancements are designed to facilitate stable anatomic frame construction, enhanced component versatility, and improved overall surgical efficiency.
System Overview
The XRing strut family includes Linear, Polyaxial Utility, and Universal Hexapod strut options—each engineered for strength, stability, and precise control. Linear Struts provide rigid, dependable compression and distraction; Polyaxial Utility Struts add ball-joint flexibility for working around crowded frames and performing acute reductions; and Universal Hexapod Struts support multiplanar correction. All strut types share a robust M8 internal threaded core for enhanced stiffness, along with quick-release features and fine-adjustment capability.
Anatomic Rings
Anatomic Foot Rings follow the natural contours of the foot, creating a closer, more intuitive interface for wire placement. Their contoured shape facilitates more direct attachment of fixation components, reducing reliance on long-offset posts and hardware stacking to capture wires. All rings feature a staggered double-hole pattern to provide a broader wire capture zone, allowing wire bolts to engage wires where they naturally land.
SpeedWire™ Technology
Integrated SpeedWire™ technology provides a novel ring-integrated wire capture mechanism. SpeedWires pass through a precision-machined channel in the ring, with the olive seated internally as a built-in stop. Standard tensioning protocols are maintained while hardware clutter, wrenching steps, and overall build time are reduced. SpeedWire posts extend this functionality beyond the ring, offering multiple post heights and ±20° of angulation for variable wire placement.
Plantar Arches & Walking Accessories
Plantar arches increase frame rigidity and provide a stable platform for walking attachments and additional fixation mounting options below the foot ring. Walking soles and rails attach with robust M8 hardware, creating a stable, slip-resistant interface designed to support larger patients and prolonged weight bearing.
Protected: XRing™
Construct Examples:
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