 We've developed a way to functionalise titanium implants for the body to get superior integration with the bone. Current methods are plasma spray technology which is very high temperature and results in a dense formation of the synthetic bone on the surface. What we can do is use a flame spray technique which is lower temperature and it results in a sponge-like formation of this synthetic bone which really mimics the bone environment within our bodies. This is low cost, scalable and we can assemble these coatings on the implants within 15 seconds. The advantage of this technique is it's highly porous which means the bone can grow into it and it stops loosening and will eliminate the need for revision surgery. There's a significant burden on the healthcare system and also on the patient. So if we could actually implant a material that is suitable for the rest of that patient's life, I think that's a great result. It's pretty exciting because I've always wanted to do research that can be translated, something that can help mankind and I think that this really has the potential to achieve that. So we've done a lot of foundation work now. What we really need for the ultimate goal which is translation is to get an industry partner on board to help us through that process.