EOS additive manufacturing technology creates precisely fitting instruments and implants directly from CAD data.
The process manufactures implants based on anatomical data collected from the wearer and allows them to be delivered quickly. This avoids any waiting times or complications due to extended periods of inactivity, so the implants fit better. It also speeds up the healing process as a whole and has a lasting positive impact on the patient’s quality of life.
Additive manufacturing by EOS can also be used to create a wide variety of surface structures, which can simplify processes such as osseointegration, namely the growth between living bone tissue and the surface of the bone implant. The applications of 3D printed implants include spine implants, shoulder joints (glenoid replacement, hip implants) and implants for the OMF area (oral and maxillofacial surgery).
For complicated interventions, surgeons are increasingly switching to patient-specific single-use instruments. This allows the implants to be inserted more precisely, increasing the success of the operation for patients, surgeons, and hospitals. These customized instruments can also be manufactured with a 3D printer. The surgeon benefits from a high-quality and precise product that meets the strict standards associated with medical applications.
The 3D printed alternative enables greater variety (“mass customization”), and production can be performed “on demand". Compared to multiple-use instruments, hospitals save on sterilization and storage costs and benefit from higher productivity.
Surface structure for improved osseointegration
The implant can be significantly optimized thanks to 3D printing. The hip cup consists of fixed sections to provide the necessary stability and elements with rough structures. These elements are structured directly to ensure that the implant is firmly anchored: coarse structures are advantageous in terms of pressure transmission, whereas smaller structures support the initial fixation. In this way, the complex structure simplifies osseointegration, accelerating the healing process.
Flexible production is possible
Together with the EOS Additive Minds team and the well-established EOS M 290 system for metals, Permedica succeeded in creating a completely new product. The entire implant is made in a single production step on the 3D printer and would be incredibly difficult to reproduce with conventional manufacturing methods. Thanks to the high flexibility of additive manufacturing, the surface and size of the hip cup can be specified individually for each patient.
Together with BodyCad, EOS developed a surgical drilling template for customized knee arthroplasty. The system offers a more precise and controlled method to prepare the bone for the implant. A combination of a patient-specific implant and a surgical drilling template was developed to facilitate precise knee replacement or restoration interventions that reflect the patient’s anatomical features and musculoskeletal system.
The result was a revolutionary unicompartmental knee system (UKS) with patient-specific surgical instruments. The newly manufactured instruments, featuring custom drilling templates, guarantee higher precision at lower costs, reduced operation times and better clinical results.
Additive manufacturing helps to optimize patient treatment, reduce hospital stays and alleviate side effects. With our systems, you can make individual implants and instruments from high-quality, medically compatible materials based on 3D CAD data. Whether from metal or polymer materials, our 3D printing solutions enable tool-free production of highly customized products at low unit costs within a cost-efficient framework.
With the right 3D printing system and our comprehensive consulting and training services, our customers successfully master their entry into the manufacturing of high-precision, patient-specific implants and instruments.
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