Modern technology is revolutionizing patient care, improving both treatment outcomes and recovery times. Recognizing this, Syntropiq is committed to integrating cutting-edge science into its work.
The company has announced a new partnership with the Institute of High Pressure Physics at the Polish Academy of Sciences. This collaboration marks an important step in the development of innovative medical devices using advanced nanotechnology.
The joint research will focus on two key areas:
- Enhancing the safety of sterile products produced through additive manufacturing (3D printing), particularly in cleaning and packaging processes.
- Developing and commercializing hydroxyapatite nanocoatings for implant surfaces to accelerate bone fusion in spinal interbody implants.
This partnership strengthens Syntropiq’s position in medical technology research and underscores the importance of collaboration between science and industry. By working together, these efforts aim to drive the development of breakthrough solutions that truly improve patient care.
About Syntropiq
We are a privately held spine interbody implant and surface technology company. Our team members with rich experience more than 25 years in spine have seen over 10 000 spine surgeries and had several hundreds of hours of discussions with you – spine surgeons – to obtain much appreciated feedback on how to treat patients with spine disorders most successfully. Several hundreds of hours of discussions with spine surgeons created a solid connection between spinal biomechanics and cutting edge technologies implemented into innovative products.
Syntropiq manufactures and markets novel technology & devices for spinal interbody fusion procedure. Innovative application of biochanics and advanced additive manufacturing. We concentrate effort, energy and matter. We create complex spinal implants from the elemental titanium powder. We are Syntropiq.
Our Technologies:
- Iso Frame : Thanks to advanced engineering with Finite Elements Modeling the implementation IsoFrame Technology brings highest possible compatibility with diagnostics – specially in MRi environment. Optimized implant’s construct resulted significant reduction of metal volume, while keeping high durability. Due to IsoFrame also optimal balance between metal volume and endplate contact area has been achieved.
- Syntropiq Dynamic Contact Surface (DCS): On implants-bone contact area there is special controlled subsiding zone. Unique three dimensional design of Syntropiq DCS Mechanically initiates bone remodeling process1 and contributes proactively in acceleration of bone ingrown process.New bone structures growth process Is accelerated by engaging Wolf’s law. DCS employs controlled subsiding process and by following the cellular mechanism of bone remodeling initiates bone cells reversal process.. Engaging Wol’s Law accelerates process of new bone scaffolds growth.
- Additive Manufacturing from Titanium Powder: Titanium creates direct interaction between an implant and bone – the process is called osseointegration. Additive Manufacturing gives great possibility to control and precise engineer implant surface. The porous properties of titanium surface contributes to extensive bone infiltration, allowing osteoblast activity to take place (osteointegration). The porous structure allows also soft tissue adherence and vascularization within the implant.
Please for more information visit: http://www.syntropiq.com
About Institute of High Pressure Physics Polish Academy of Sciences
Institute of High Pressure Physics Polish Academy of Sciences – also known as Unipress – is a leading research center in the field of semiconductor physics and technology and materials engineering. Unipress is recognized worldwide for its unique expertise in bulk gallium nitride (GaN) crystallization, fundamental and applied studies of nitride semiconductors, high quality research on biomaterials, soft matter and glass, THz physics and others. Unipress develops and provides customized high-pressure equipment to the research laboratories all around the world. http://www.unipress.waw.pl
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