restor3d
Restor3D, Inc. is a medical device company based in Durham, North Carolina, specializing in the development of 3D-printed implants designed for the repair and reconstruction of the human body. Established in 2017, Restor3D creates patient-specific implant systems that include products such as osteotomy wedge systems, cervical fusion cages, and metallic interference screws. The company leverages advanced technologies, including artificial intelligence, to optimize implant design and functionality, ensuring better anatomical fit and improved patient outcomes. By combining 3D printing with biomaterials, biomechanics, and personalized digital health platforms, Restor3D aims to enhance surgical procedures and provide integrated, data-supported care for individual patients.
Top Stages
2 past transactions
ConforMIS
Acquisition in 2023
ConforMIS is a United States-based medical technology company that specializes in developing, manufacturing, and selling joint replacement implants and instruments tailored to each patient's unique anatomy. Utilizing its proprietary iFit Image-to-Implant technology platform, ConforMIS creates personalized knee and hip implants, as well as single-use surgical instruments. The company's offerings include various partial and total knee replacement implants, such as the iTotal CR, iTotal PS, iDuo, and iUni. These products are delivered directly to hospitals and ambulatory surgical centers, ensuring that each implant is individually sized and shaped for optimal fit.
Kinos Medical
Acquisition in 2021
Kinos Medical, Inc. is a company based in Narberth, Pennsylvania, that specializes in developing and commercializing innovative orthopedic technologies aimed at transforming total ankle replacement surgery. Founded in 2017, Kinos Medical focuses on enhancing surgical options for patients suffering from ankle arthritis by integrating advanced implant designs with comprehensive software solutions. Their technology is designed to replicate the natural biomechanics of a healthy ankle joint, facilitating virtual surgery and personalized surgical planning. This approach significantly improves stability for patients and promotes bone integration following surgery, thereby enhancing overall patient outcomes.
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