SOUTH WINDSOR, Conn. (PRWEB)
May 18, 2020
Oxford Performance Materials, Inc. (OPM), a materials science company and industry leader in advanced biomedical polymers and high-performance additive manufacturing (HPAM®), announced today that it has been awarded a patent for its proprietary coating technology.
OPM’s patented OXPEKK®-SC (Solution Casting) product – first commercialized in April 2018 – delivers a sub-micron thin film with medical applications as a coating for various implantable devices and instrumentation during production processes. OXPEKK®-SC is a water-based solution that when applied, produces an ultra-thin film designed to provide the full range of the biological features of poly-ether-ketone-ketone – including osseoconductivity, antibacterial characteristics and biocompatibility – in addition to PEKK’s mechanical, thermal, and electrical properties. OXPEKK®-SC film tenaciously bonds to most substrates and can be applied via spray or dipped with a minimum thickness of 75nm.
Studies have demonstrated that OPM’s OsteoFab® implant technology (3D printed PEKK) promotes bone ongrowth and possesses inherent antibacterial characteristics, and this exciting new coating process may provide similar benefits on implantable devices pre-treated with OXPEKK®-SC. The primary use for such thin coatings would be on the surfaces of implantable orthopedic devices. These devices are generally fabricated using metallic materials like titanium, cobalt chrome, and iron alloys. Over time, these metals have been shown to corrode within the body, releasing metal ions that can degrade device performance and impose systemic side effects in patients. An application of a corrosion-resistant OXPEKK®-SC coating would be expected to reduce the rate of implant deterioration. In the realm of surgical instrumentation, an OXPEKK®-SC coating would be similarly expected to reduce deterioration rates, especially for those metal instruments that experience pitting and failure as a result of repeated cleaning and re-sterilization.
“The genesis of this technology goes back over 15 years when we made some important discoveries in a PEM fuel cell membrane project,” said Scott DeFelice, Chief Executive Officer of OPM. “We were thrilled to be notified of this new patent issue, which provides OPM with a broad market path as the leader in PEKK coatings and the ability to substantially improve the performance of orthopedic devices and the lifetime of surgical instrumentation across the entire industry.”
For industrial applications of OXPEKK®-SC, OPM has ongoing developments with large glass and carbon fiber producers underway. Production quantities of this product are currently available.
About Oxford Performance Materials, Inc. Oxford Performance Materials is a materials science company founded in 2000 to exploit and commercialize the world’s highest performing thermoplastic, PEKK (poly-ether-ketone-ketone). OPM’s Materials business has developed a range of proprietary, patented technologies for the synthesis and modification of a range of PAEK polymers that are sold under its OXPEKK® brand for biomedical and industrial applications. The Company is a pioneer in 3D printing. OPM Biomedical’s OsteoFab® technology is in commercial production in numerous orthopedic implant applications, including cranial, facial, spinal, and sports medicine devices. OPM is the first and only company to receive FDA 510(k) clearance to manufacture 3D printed, patient-specific polymeric implants of any type, and the company has six 510(k) clearances in its portfolio. OPM Industrial produces 3D printed OXFAB® production parts for highly demanding applications in the energy, transportation, and semiconductor markets. OXFAB® structures offer significant weight, cost, and time-to-market reductions that are defined in a set of specified performance attributes in the exhaustive OPM B-Basis database, developed in conjunction with NASA. For more information, please visit: http://www.oxfordpm.com
Company Contact:
Bernie Plishtin
Oxford Performance Materials
860-656-9446
bplishtin@oxfordpm.com
Share article on social media or email: