KAINOS+ was developed through extensive research conducted on bioceramic bone substitution materials. Studies have proven the effectiveness of the bioactive properties of KAINOS+ for inducing new bone formation.
With its unique combination of chemo-physical and structural properties KAINOS+ becomes fully integrated in the natural remodeling process and is completely resorbed while being simultaneously replaced by new bone, making it the ideal bone graft substitute.
KAINOS+ is a biphasic mixture of ß-hydroxyapatite and tricalcium phosphate (60%; 40%, respectively) that has a unique structure of micro (< 10 μm) and macro pores (300 - 600 μm) due to its proprietary production process. Via the HA component, the osteoconducive matrix is present for the appropriate time to allow osteogenic cells to “dock” at the scaffold. And by the TCP component a high saturation of calcium ions is guaranteed. Further the micro pores (30% of the overall pore volume; total porosity: 70%) allow the physiological fluids to diffuse throughout the ceramic implant. A result is the precipitation of bone-like apatite crystals, providing additional “anchor points” for bone cells. The micro/macro pore structure represents a crucial feature of the concept of bioactivity. Bone in-growth occurs at the bone-ceramic interface as well as within the entire implant structure - until KAINOS+ is completely transformed by this controlled and balanced process.
KAINOS+ is a biphasic mixture of ß-hydroxyapatite and tricalcium phosphate (60%; 40%, respectively) that has a unique structure of micro (< 10 μm) and macro pores (300 - 600 μm) due to its proprietary production process.
Here you get to the eifu of KAINOS+.