Nexxt Spine introduced the NEXXT MATRIXX SI System, leveraging NEXXT MATRIXX 3D printed technology.
System highlights include:
Proprietary NEXXT MATRIXX 3D printed technology designed to be an active participant in the fusion process.
Variable pore size of 300, 500, and 700μm.
Minimized titanium material resulting in a porous architecture.
Due to the micro-roughened porous structure of the NEXXT MATRIXX titanium, the implants have more surface area for bone apposition and potential bony integration than conventional SI implants.
Dual thread profile designed to provide greater surface area and compression distally, while increasing fixation proximally in the cortical layer.
Engineered fenestrations that allow for bony harvesting during insertion.
Instruments designed to reduce steps, minimize working corridors, facilitate efficient implant placement, and support post-packing with graft materials.
“Following record revenue in 2024, recent regulatory clearances in Japan and Brazil, and the addition of several key leadership hires in the recent months, our product acceleration engine has only become more aggressive and experienced. We will continue to deliver advanced solutions in 2025 to deliver upon market improvements expressed by our surgeon partners with the goal of enhancing patient outcomes,” says Andy Elsbury, President of Nexxt Spine. “We are thrilled to extend our NEXXT MATRIXX 3D printed technology to SI applications and enter one of the fastest growing product segments in minimally invasive spine.”
Nexxt Spine introduced the NEXXT MATRIXX SI System, leveraging NEXXT MATRIXX 3D printed technology.
System highlights include:
Proprietary NEXXT MATRIXX 3D printed technology designed to be an active participant in the fusion process. Variable pore size of 300, 500, and 700μm. Minimized titanium material resulting in a porous...
Nexxt Spine introduced the NEXXT MATRIXX SI System, leveraging NEXXT MATRIXX 3D printed technology.
System highlights include:
Proprietary NEXXT MATRIXX 3D printed technology designed to be an active participant in the fusion process.
Variable pore size of 300, 500, and 700μm.
Minimized titanium material resulting in a porous architecture.
Due to the micro-roughened porous structure of the NEXXT MATRIXX titanium, the implants have more surface area for bone apposition and potential bony integration than conventional SI implants.
Dual thread profile designed to provide greater surface area and compression distally, while increasing fixation proximally in the cortical layer.
Engineered fenestrations that allow for bony harvesting during insertion.
Instruments designed to reduce steps, minimize working corridors, facilitate efficient implant placement, and support post-packing with graft materials.
“Following record revenue in 2024, recent regulatory clearances in Japan and Brazil, and the addition of several key leadership hires in the recent months, our product acceleration engine has only become more aggressive and experienced. We will continue to deliver advanced solutions in 2025 to deliver upon market improvements expressed by our surgeon partners with the goal of enhancing patient outcomes,” says Andy Elsbury, President of Nexxt Spine. “We are thrilled to extend our NEXXT MATRIXX 3D printed technology to SI applications and enter one of the fastest growing product segments in minimally invasive spine.”
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