Unlocking the helminth ‘early infection gap’ using 3D cell culture models. This project aims to revolutionise the study of critical early host-parasite interactions using innovative 3D cell culture mo

Description

Unlocking the helminth ‘early infection gap’ using 3D cell culture models. This project aims to revolutionise the study of critical early host-parasite interactions using innovative 3D cell culture models, reducing our dependence on animal infections. Liver fluke is the most economically important zoonotic parasite of Australian livestock and is a significant contributor to global food insecurity. Due to the reliance of parasites on mammalian hosts to survive, very little is known about the early infection process. Expected outcomes include new knowledge on key migratory stimuli and liver fluke biology. Benefits include the identification of drug targets and vaccine candidates for use in livestock via the development of animal-free in vitro screening platforms that will serve as a prototype for other parasites.. Scheme: Discovery Early Career Researcher Award. Field: 3109 - Zoology. Lead: Dr Nichola Calvani