Committed to innovative solutions for complex pathologies.

Learn about our innovative solutions in our virutal experience: 

DePuy Synthes Companies, part of the Johnson & Johnson Medical Devices Companies, provides one of the most comprehensive orthopaedics portfolios in the world. DePuy Synthes Companies solutions, in specialties including joint reconstruction, trauma, craniomaxillofacial, spinal surgery and sports medicine, are designed to advance patient care while delivering clinical and economic value to health care systems worldwide. For more information, visit

Brands: CONDUIT Interbody Platform w/ EIT Cellular Titanium, UNLEASH ATP/Lateral Platform, Sentio MMG, SYMPHONY OCT System, VIPER PRIME System, VIVIGEN Fibergraft


SYMPHONY™ OCT System | Science of a Screw
Unleash ATP Animation

 Featured Products

  • CONDUIT™ Interbody Platform
    FIRST 3D- printed cage platform with nano-scale features cleared by the FDA! 3D printed Cellular Titanium Implants….facilitate fusion....

  • FIRST 3D- printed cage platform with nano-scale features cleared by the FDA!

    BONE-MIMICKING CELLULAR TITANIUM MATERIAL – Cellular structure of the material is designed to mimic the published properties of bone and facilitate fusion

    EXCELLENT VISUALIZATION – Ability to clearly visualize the cage intra- and post-operatively on imaging modalities without interference

    TARGETED MODULUS OF ELASTICITY – Modulus of Elasticity similar to cancellous bone 

  • SYMPHONY™ OCT System
    Next generation posterior OCT System designed to address unmet needs in Fixation in sub-optimal bone, Deformity, Precision Targeting and Revisions ...

  • The DePuy Synthes Spine SYMPHONY™ Occipito-Cervico-Thoracic (OCT) System is an enhanced set of instruments and implants, including polyaxial screws, 3.5 mm and 4.0 mm rods, compatible hooks, cross connectors, lateral offset connectors, and rod connectors designed to address unmet needs in fixation, alignment, targeting, and extension (FATE) for posterior stabilization of the upper spine. The implants provide the flexibility required to accommodate variations in patient anatomy.

    The DePuy Synthes Spine SYMPHONY OCT System is compatible with occipital fusion components (plates, rods and clamps) from the SYNAPSE™ OCT System and the MOUNTAINEER® OCT Spinal System. Additionally, tapered rods and connectors are available to extend constructs to utilize both the DePuy Synthes Spine EXPEDIUM® and VIPER® Spine Systems.

  • VIPER PRIME™ System
    The VIPER PRIME™ percutaneous pedicle screw system features an integrated stylet and self-starting screw tip design for one single instrument pass for preparation, tapping, and screw insertion with standard and cortical fix fenestrated thread options....


    This is the VIPER PRIME™ System, a novel technique for percutaneous pedicle screw placement that eliminates the need for guidewires, Jamshidi needles, and pedicle preparation instruments. It features a self-starting screw tip design and integrated stylet that is fully controlled by the screwdriver. The system comes in a streamlined set of instruments that fit into one graphic case and has screws available in standard and cortical fix fenestrated thread options. This technology enables surgeons to target pedicles and insert screws with one single instrument pass. VIPER PRIME™ provides the control and precision for improved OR efficiency and procedural workflow.

  • UNLEASH™ ATP/Lateral
    The UNLEASH™ ATP/Lateral Procedural Solution is a surgical platform that improves surgical workflow, enhances fusion and improves resource utilization so that surgeons can achieve the best possible and most repeatable outcome in the most efficient manner....

  • The UNLEASH™ ATP/Lateral Procedural Solution features Conduit™ Interbody, Sentio™ MMG, and Viper™ Prime to provide a unified experience with the tools to evolve how surgeons treat their patients and evolve their practices through their desired approaches: LLIF, ATP, Single Position

    SENTIO MMG Nerve Assessment Technology:

    SENTIO MMG delivers higher sensitivity and specificity, ability to assess objective, real-time nerve status and localization, and reduces overall cost of care because of the patented accelerometer based sensor, surgeon directed technology.

    CONDUIT Interbody:

    The first 3D-printed cellular titanium cage platform with nano-scale features cleared by the FDA. These implants feature 80% porous macro-, micro-, and nanostructures, and are designed to mimic cortical and cancellous bone, and facilitate fusion.

    VIPER Prime Screw System:

    ONE tool reducing multiple steps of percutaneous screw insertion.

  • SENTIO MMG Platform
    Nerve-mapping software allows surgeon-directed intraoperative monitoring, without the need for extra staff, equipment & preparation....

  • SENTIO MMG, a first-of-its-kind digital mechanomyography platform designed to assess nerve status and identify and avoid peripheral nerves during spine surgery. SENTIO MMG enables motor nerve monitoring for a variety of spine procedures, including non-fusion procedures such as discectomy and both minimally invasive (MIS) and open spinal fusion surgery.

    The ability for surgeons to improve how nerves are assessed is an unmet clinical need in spine surgery. Most technologies on the market today rely on multiple needle electrodes in the patient’s arms or legs to locate motor nerves in the cervical and lumbar spine and generate signals. This technology can be problematic due to anesthesia effects, electrical interference, or interpretation challenges. These systems typically require a neuromonitoring specialist to interpret the signals and guide the surgeon. 

    SENTIO MMG consists of a touchscreen tablet, control unit, probes, and smart sensors which can be set up by surgical personnel with a minimal footprint in the operating room. With the launch of SENTIO MMG, DePuy Synthes is enabling surgeons to assess nerve status in a differentiated way. It delivers a patented, smart sensor technology that provides real-time feedback directly to the surgeon on nerve location in the form of visual and audible alerts designed to support surgical decision making and potential efficiency during surgery.


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