Trax Surgical’s LINKT™ Compression Staple System represents a significant innovation in orthopedic surgery by leveraging the unique properties of nitinol, a shape-memory alloy known for its inherent compressive forces. This technology provides consistent and stable compression across fracture repair, joint fusion, and osteotomy sites, creating an optimal environment for bone healing. The system’s design includes a slightly curved bridge and toothed legs to ensure secure fixation, while the adjustable inserter allows surgeons to open and close the staple legs before implantation, enhancing precision and ease of use compared to traditional staples.

The LINKT™ system is primarily used in extremity orthopedic procedures where rapid and reliable bone stabilization is essential. Its adjustable deployment tools enable multiple staples to be positioned and repositioned efficiently during surgery, reducing operative time and minimizing patient risk. The staples come in various sizes to accommodate different anatomical needs, and are supplied in sterile packaging alongside comprehensive deployment kits that include drills and guides, supporting surgeons in delivering consistent, high-quality care.

This innovation is important because it elevates the standard of care in orthopedic surgery by combining advanced material science with user-focused design. By simplifying the surgical process and improving fixation stability, the LINKT™ system has the potential to reduce complications and accelerate patient recovery times. Its FDA clearance marks a milestone for Trax Surgical, affirming the system’s safety and effectiveness while reinforcing the company’s commitment to innovation and improving outcomes for both surgeons and patients alike.

MedTech Spectrum's Summary

The LINKT™ Compression Staple System uses nitinol’s shape-memory and compressive properties, combined with an adjustable inserter, allowing surgeons to precisely control staple deployment for enhanced bone healing and fixation.

This system improves surgical outcomes by providing stable compression, reducing operative time, and minimizing complications, thereby advancing the standard of care in orthopedic extremity procedures.

Designed for fracture repair, joint fusion, and osteotomy, the system offers versatile staple sizes and sterile deployment kits that streamline the surgical process and support efficient, reliable bone stabilization.