Kleiner Device Labs has recently acquired a U.S. patent for its innovative KG®2 Surge® flow-thru interbody system. The system is designed to optimize the efficient delivery of bone graft material to the intervertebral disc space, ensuring that this critical element of spinal surgery is executed precisely. The KG2 Surge system is also engineered to simplify implant placement, positioning, and subsequent integration within the graft matrix.
"The simplified delivery is accomplished by marrying a rectangular inserter tube with a 3-D printed titanium interbody with a large matching opening and a bifurcated ramp that distributes the graft bilaterally. That enables filling both the cage and surrounding disc space," said CTO Alan Burkholder.
Interested consumers can visit the Kleiner Device Labs website.
Spinal Graft-Assisting Systems
Kleiner Device Labs Receives a Patent for the KG2 Surge Flow System
Trend Themes
1. Efficient Bone Graft Delivery - The KG2 Surge system optimizes the efficient delivery of bone graft material to the intervertebral disc space, ensuring precise execution in spinal surgery.
2. Simplified Implant Placement - The KG2 Surge system simplifies implant placement and positioning, allowing for easier integration within the graft matrix.
3. 3D Printed Titanium Interbody - The KG2 Surge system utilizes a 3D printed titanium interbody with a large matching opening and bifurcated ramp, enabling bilateral distribution of the graft into the cage and surrounding disc space.
Industry Implications
1. Medical Devices - The KG2 Surge flow-thru interbody system by Kleiner Device Labs introduces innovations in efficient bone graft delivery and simplified implant placement for spinal surgeries.
2. Orthopedics - The KG2 Surge system's optimized bone graft delivery and simplified implant placement have the potential to disrupt the orthopedic industry by improving surgical outcomes and patient recovery.
3. 3D Printing - The KG2 Surge system's use of a 3D printed titanium interbody represents a disruptive innovation opportunity in the 3D printing industry for medical applications.