LYSOPHOSPHOLIPID-FUNCTIONALISED TITANIUM: A DUAL ACTION SURFACE SUPPORTING HUMAN OSTEOBLAST MATURATION WHILST DETERRING BACTERIAL ATTACHMENT

Summary StatementDeveloping titanium (Ti) surfaces that are biocompatible yet serve as deterrents for bacterial attachment and growth are particularly appealing in tackling the ongoing problem of sepsis-induced implant failures. Realising this could include coating Ti with the bioactive lipid, lysophosphatidic acid.IntroductionSurgical revision for failed total joint replacements costs a staggering £300m/yr and approximately 20% of this burden is attributed to implant failure through bacterial infection. Producing biomaterials that deter microbial attachment as well as securing robust osseointegration continues to be a significant research challenge in contemporary bone biomaterials design. Steps to realising novel improvements are further compounded by the concerns raised over resistance of bacteria to many antimicrobial agents. Clearly this is a major constraint necessitating an entirely novel approach to minimising implant infection risk. We therefore turned our attention to certain lysophosphatidic ac...