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ProMade Elbow

ProMade for highly complex elbow cases.

A Dedicated Engineering Design Service to develop truly bespoke solutions for complex elbow reconstructions. Both humeral and ulnar side can be developed, as well as total elbow replacement.

According to the anatomical defect, the implant can be developed in order to perfectly fit the damaged anatomy.

Thanks to the 3D printing technology and know-how, compatibility with Enovis portfolio is guaranteed.

To open a Custom Case Request, VISIT THE PROMADE PORTAL

3D Printing Technology

ProMade service is leveraging proprietary technology and long-lasting experience in 3D printing and Trabecular Titanium. This technology allows a design versatility to properly restore patient’s anatomy, adapting the implant to patient’s and surgeon’s needs.

Modularity

Thanks to the 3D printing technology and the engineering know-how developed over the years, it is possible to design elbow implants compatible with off-the-shelf solutions.

Fully planned Biomechanical Restoration

Engineers, designers, experts of biocompatible materials work together with surgeons to provide the best solution for patients in need of exclusive orthopedics implants.

About

For over a decade, the ProMade Team has partnered with surgeons to develop patient-specific solutions for complex orthopedic reconstructions, leveraging the capabilities of 3D printing.

Each case is planned using CT imaging data and clinical insights to precisely achieve the desired patient biomechanics. A dedicated online portal streamlines case submission and facilitates direct collaboration with engineers.
Engineering Team works closely with surgeons throughout the entire process, co-developing not only the implant design but also the surgical approach and technique.

To open a Custom Case Request, visit the ProMade Portal.

The ProMade solutions are driven by the design pillars of: Confidence in Primary Stability, Longevity through Natural Load Transfer, and a Fully planned Biomechanical Restoration. With these design pillars setting the foundation of the solutions developed, the extensive surgeon / engineer collaboration and the associated collaborative intelligence continue to advance solutions. For example, to reduce the associated morbidity related to the dissection for large flanges and screws of “classic triflange” designs the number and sizes of the flanges and number of screws in acetabular solutions have been reduced. In one example, the flanges were reduced in size and and number. The number of screws required were reduced from 13 to 8. In addition, the use of Trabecular Titanium has been expanded to allow more Natural Load Transfer and associated bone health. The same example, going from 7% of total volume to 30% of total volume.