Controlling Calcium Binding on NorHA Scaffolds using a Biomineralization Peptide

The tendon-bone junction is essential for allowing humans to transfer mechanical loads during activities. When injury does occur to this important area, current surgical techniques improperly bypass important physical and chemical gradients and do not restore proper function. It is essential to create tissue engineered scaffolds that create proper models for the region and induce healing responses for repair. To advance research into these scaffolds, electrospinning fibers and hydrogels made of norbornene functionalized hyaluronic acid (NorHA) were used to promote bone growth by adhering calcium to the material. To further improve calcium adherence, which is indicative of bone regions, a mineralization peptide was allowed to soak through the fibers. NorHA proved to be a suitable material for biomineralization experiments, showing slow calcium adherence within the first hour before accelerating in adherence over 24 hours in both fibers and hydrogels. When the mineralization peptide was implemented calcium adherence on fibers increased nearly eight times within the first 15 minutes of experimentation.