Restor3d Introduces Kinos Range Articulating Surface in Medical AM

Have you ever wondered how innovative medical technologies can profoundly change the landscape of orthopedic surgery?

Restor3d Introduces Kinos Range Articulating Surface in Medical AM

Imagine a world where surgeons can tailor orthopedic implants to the unique needs of each patient in real-time. This vision is rapidly becoming a reality thanks to advancements in medical additive manufacturing (AM). Among the leaders in this domain is restor3d, a company that has recently launched the Kinos Range articulating surface, a groundbreaking addition to their Kinos Total Ankle System. Let’s delve into the details of how this new offering is setting a new standard in ankle arthroplasty.

restor3d-introduces-kinos-range-articulating-surface-in-medical-am Restor3d Introduces Kinos Range Articulating Surface in Medical AM

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The Innovative Offering: Kinos Range Articulating Surface

restor3d’s new Kinos Range articulating surface is a blend of advanced materials and cutting-edge design. It combines vitamin E, highly crosslinked polyethylene, and 3D printed cobalt chrome implants. You might be asking, why these materials? Each provides specific benefits. Highly crosslinked polyethylene reduces wear and tear, while vitamin E is known for its antioxidant properties that can further enhance the longevity of the implant. The cobalt-chrome implants are 3D printed, ensuring high precision and customization for individual patients.

A Leap Forward in Medical AM

Why is this development so significant? For starters, the Kinos Range articulating surface allows surgeons to assess soft tissue integrity intraoperatively. This means that during surgery, they can make real-time adjustments based on the patient’s specific anatomical and biomechanical needs. Such capabilities can result in better outcomes and quicker recovery times for patients.

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Flexibility in Surgical Procedures

One key advantage that stands out is the system’s flexibility. The Kinos Total Ankle System allows surgeons to choose between the Kinos Anatomic tri-planar range of motion, or the more restrained Range articulation. This flexibility is crucial because it allows for tailored treatments based on each patient’s soft tissue or global alignment. Think about it: two patients come in with similar ankle issues, but their soft tissues and overall body alignments differ. With the Kinos system, these differences can be accommodated seamlessly.

Enhanced Stability and Biomechanics

An area where the Kinos Range shines is in providing enhanced coronal plane stability and finely tuned biomechanics. Traditional dual condyle implants often have higher contact stress, which can lead to wear and failure over time. The Kinos Range design addresses these issues with its improved biomechanics and reduced wear properties, resulting in a more durable and efficient implant.

restor3d-introduces-kinos-range-articulating-surface-in-medical-am-1 Restor3d Introduces Kinos Range Articulating Surface in Medical AM

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Driven by Biomechanics Research

The advancements in the Kinos Total Ankle System are backed by extensive biomechanics research. This commitment to scientific rigor ensures that the implants are not only innovative but also reliable. The modular trialing system enables both articulations to be assessed through the patient’s range of motion. This way, surgeons can dial in the placement of the definitive implant to match the unique factors presented by each patient.

The Voices Behind the Innovation

Brian Garvey, Senior Vice President of Product Development at restor3d, emphasized the research commitment: “The continued advancements within the Kinos Total Ankle System are driven by extensive biomechanics research and our commitment to offering surgeons a market-leading portfolio for patient-specific care.”

Dr. Samuel Adams, MD at Duke University, who performed the first Kinos Range procedure, stated, “This system offers the stability and flexibility that are critical for successful outcomes across a broad patient demographic. The ability to choose the implant to each patient’s unique needs in real-time is a game-changer for orthopedic surgery.”

Market Context and Future Growth

To appreciate the significance of this innovation, consider the broader market context. According to recent market studies, the additive manufacturing (AM) industry in medical applications is on a robust growth trajectory. The segment generated $2.6 billion in 2023 and is expected to surge to $28 billion by 2033, growing at a compound annual growth rate (CAGR) of 26.8%.

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Related Innovations in the AM Space

The advancements in medical AM are not confined to orthopedic implants alone. For instance, EOS has started assembling the EOS M 290 Metal 3D printers in Texas, showing a trend towards regional manufacturing to meet growing demands. Researchers are also pushing boundaries by 3D printing tumors to advance cancer immunotherapy, offering new avenues for personalized medicine.

A Quick Glance at Key Data

Here’s a quick overview of key aspects of the Kinos Range articulating surface:

Key Feature Description
Material Composition Vitamin E, Highly Crosslinked Polyethylene, 3D Printed Cobalt Chrome
Flexibility Interchangeable articulations (Anatomic tri-planar motion, Restrained Range)
Stability Enhanced coronal plane stability, Reduced contact stress
Research Foundation Extensive biomechanics research
Biomechanical Performance Finely tuned biomechanics, Reduced wear properties in gait simulations

Looking Ahead: The Future of Personalized Orthopedic Care

The introduction of the Kinos Range articulating surface isn’t just a standalone event; it’s a precursor to more personalized and effective orthopedic care solutions. The vision moving forward includes the development of revision and fully personalized ankle implant systems. With restor3d leading the charge, the future looks promising for both surgeons and patients alike.

Conclusion: A Personalized Approach to Orthopedic Care

In sum, restor3d’s introduction of the Kinos Range articulating surface marks a significant milestone in medical additive manufacturing and orthopedic surgery. The ability to offer real-time, patient-specific solutions during surgery can not only improve outcomes but also pave the way for more personalized medical treatments. As the field continues to evolve, innovations like these will undoubtedly play a critical role in shaping the future of healthcare.

So, the next time you think about medical advancements, remember how cutting-edge technologies are bringing us closer to personalized and effective orthopedic care. With continued research and innovation, the landscape of medical treatments is set for a revolutionary transformation.

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