As technology advances, so should our medical treatments. That's why we are proud to introduce NITRO™. Made from the ancient and resilient material of Silicon Nitride, NITRO™ brings this classic biomaterial into the 21st century with a revolutionary new design.
This groundbreaking product is designed with a newly formatted, never-before-seen machined design in Silicon Nitride, making it light-years ahead of light-years ahead of traditional spinal implants. NITRO™ offers all of the tried, true, and tested benefits that Silicon Nitride spinal implants have to offer, and more.
The revolutionary design of NITRO™ is truly one-of-a-kind. Its unique machined design allows for maximum bone ingrowth speed, fully integrating throughout an interbody. This means that patients can experience faster recovery times and better outcomes, without compromising on safety or quality. Unlike other spinal implants on the market, NITRO™ is engineered to provide superior strength, stability, and durability, making it an ideal choice for patients who need long-term spinal support.
One of the key benefits of NITRO™ is its ability to offer patients a more comfortable and natural feel. The Silicon Nitride material used in NITRO™ is biocompatible, meaning that it is safe and well-tolerated by the human body. This means that patients can expect minimal discomfort, reduced risk of infection, and a more natural feel, allowing them to return to their daily activities with ease.
Another benefit of NITRO™ is its versatility. This product can be used in a variety of spinal surgeries, including anterior, posterior, and lateral approaches, making it an ideal choice for surgeons who need a reliable and flexible implant. NITRO™ is also compatible with a range of spinal instrumentation systems, making it easy to integrate into existing surgical workflows.
Overall, NITRO™ represents the next generation of biomaterial spinal implants. Its unique machined design, combined with the benefits of Silicon Nitride, make it a truly revolutionary product that is set to change the landscape of spinal surgery. Wh