Antimicrobial surfaces bionspired by the acid mantle based on Keggin-type heteropoly acids

Abstract

Colonization by pathogenic microorganisms on inanimate surfaces in hospitals and medical supplies is one of the major causes of healthcare-associated infections (HCAI, also known as nosocomial). As an aggravating factor, cases of HCAI due to resistant microorganisms are increasing rapidly, whereas deaths by this HCAI is becoming a global threat. Today, prevention is a key methodology capable of minimize the HCAI crisis due the antimicrobial resistance. An emerging strategy that has received much attention is the surface functionalization by antimicrobial inorganic materials to prevent colonization and subsequent outbreaks of pathogenic microorganisms. The purpose of this project is to assess the ability of insoluble Keggin-type heteropoly acids as a new family of inorganic antimicrobials regulated via hydroxonium ions (H3O+). It is hypothesized that Keggin-type heteropoly acids can improve the recent technology of antimicrobial surfaces bioinspired by the acid mantle of human skin. First, experiments will be conducted to elucidate the antimicrobial mechanism of action of heteropoly acids. This step is crucial to validate the hypothesis of these compounds as an innovative antimicrobial with broad spectrum of action against pathogenic microorganisms, no regulation by release of heavy metal ions, and active under dark conditions. Later, heteropoly acids-based antimicrobial films will be prepared by layer-by-layer (LbL) fabrication technique. The success of the proposal will introduce new inorganic antimicrobials for the functionalization of surfaces and hospital products against colonization by pathogenic microorganisms.