A BETTER FUSION SOLUTION
All HiveTM interbody fusion cages are based on the unique Soft Titanium® Lattice platform, to deliver maximum fusion benefits to the patient. NanoHive Medical provides Hive cervical, posterior lumbar and anterior lumbar interbody fusion devices in a variety of sizes to accommodate spinal anatomy. Please contact a member of the NanoHive Medical team for more specific information.
ANTERIOR Lumbar Interbody Fusion
HIVE Standalone ALIF System
- Reduced solid titanium structural elements
- Maximized porous lattice
- Patented bone graft injection channels
- Aggressive Bone Screws
- Streamlined instrumentation
- Secure blocking plate to prevent screw backout
- Range of implant sizes and lordotic options

Bone graft injection port
Porous lattice, minimized solid titanium structural elements
Aggressive, self-drilling and self-tapping bone screws
Anti-backout cover plate

Bone graft injection port
Porous lattice, minimized solid titanium structural elements
Aggressive, self-drilling and self-tapping bone screws
Anti-backout cover plate
HIVE Standalone ALIF System
- Reduced solid titanium structural elements
- Maximized porous lattice
- Patented bone graft injection channels
- Aggressive Bone Screws
- Streamlined instrumentation
- Secure blocking plate to prevent screw backout
- Range of implant sizes and lordotic options

Inserter connection points accommodate oblique insertion
Endplates only separated by loadbearing lattice
Bone graft injection channels within implant walls

Inserter connection points accommodate oblique insertion
Endplates only separated by loadbearing lattice
Bone graft injection channels within implant walls
HIVE AL INTERBODY SYSTEM
- Independent endplate design
- Load bearing lattice core
- Range of implant sizes and lordotic options
- Patented bone graft injection channels
- Secure inserter-implant connections that accommodate direct and oblique insertion
Cervical Interbody Fusion
Hive C Interbody System
- Lowest stiffness interbody fusion cages, reducing subsidence risk while allowing for increased natural loading on the construct
- Range of implant sizes
- Streamlined instrumentation

Secure and simple inserter connection features
No solid titanium structures connecting the endplates
Lattice shown to be an effective scaffold for fusion

Secure and simple inserter connection features
No solid titanium structures connecting the endplates
Lattice shown to be an effective scaffold for fusion
Hive Standalone Cervical System
- Zero Profile and Plated constructs offered in one system
- Range of implant sizes and lordotic angles
- Self tapping and self drilling screws
- Variable Screw insertion angles
- Streamlined instrumentation
- Low stiffness and reduced density lattice
- Simple, one-step screw locking cover with tactile feedback
Plated Construct:
Rotatable and adjustable anterior plate

Self drilling and self tapping screws
No vertical struts, to reduce stress shielding
One step locking mechanism
Adjustable depth plate to allow for countersinking of interbody
Zero Profile:
reduces interference with vessels
and nearby anatomic structures

Soft Titanium lattice to enhance bony ongrowth and ingrowth
Self tapping and self drilling screws
One step locking mechanism with tactile feedback
Zero profile design to minimize contact with vessels and nerves
Posterior Lumbar Interbody Fusion
Hive PL & TL Interbody Systems
- Available in both PL (straight) and TL (curved) options
- PL System instrumentation and cage design allows for in-situ rotation
- Multiple sizes and footprints, including wide, long and hyperlordotic offerings
- Load bearing lattice core allows for independent endplates, reducing the need for stress shielding design features

No solid titanium structures connecting the posterior aspect of the interbody to allow for load transfer
Highly bulleted nose to aid in insertion using insert and rotate technique
Unique bulleted split tip prevents stress shielding effects

No solid titanium structures connecting the posterior aspect of the interbody to allow for load transfer
Highly bulleted nose to aid in insertion using insert and rotate technique
Unique bulleted split tip prevents stress shielding effects

Pocket for angle and straight tamp pairing
Posterior aspect of the cage separated by loadbearing lattice
Separation in the titanium of the nose for loading

Pocket for angle and straight tamp pairing
Posterior aspect of the cage separated by loadbearing lattice
Separation in the titanium of the nose for loading
The NanoHive Difference
Hear what surgeons have to say about their experience with the Hive spinal interbody portfolio and what it has meant for their patients.