Abstract
While new biomaterials for regenerative therapies are being reported in the literature, clinical translation is slow. Existing regenerative approaches rely on high doses of growth factors, such as BMP-2 in bone regeneration, which can cause serious side effects. We describe an ultra-low-dose growth factor technology yielding high bioactivity based on a simple polymer, poly (ethyl acrylate) (PEA), and report its translation to a clinical veterinary setting. This polymer-based technology triggers spontaneous fibronectin organization and stimulates growth factor signaling, enabling synergistic integrin and BMP-2 receptor activation in mesenchymal stem cells. To translate this technology, we use plasma-polymerized PEA on 2D and 3D substrates to enhance cell signaling in vitro, showing the complete healing of a critical-size bone injury in mice in vivo. We demonstrate its safety and efficacy in a Münsterländer dog with a non-healing humerus fracture, establishing the clinical translation of advanced ultra-low-dose growth factor treatment.
