Metabolic dysfunction associated fatty liver disease (NAFLD) affects over a quarter of the adult world population. This disease, which is characterised by accumulation of lipid droplets in the liver, can progress to hepatic inflammation, liver failure and liver cancer, and is associated with type 2 diabetes and cardiovascular diseases. Finding new means to treat MAFLD and understand its development are therefore of great importance to society and public health.
Obesity can cause NAFLD, and indeed the best treatment for NAFLD is weight-loss. However only a small fraction of patients manage to to lose weight and maintain weight-loss. Bariatric, or weight-loss surgeries, achieve substantial weight-loss and are associated with a dramatic improvement in MAFLD. We have shown in animal models that these surgeries can improve MAFLD even without weight-loss and can improve MAFLD to a greater extent compared with calorie restriction. Analysis of data from patients have shown that the post-bariatric metabolism is different than the hepatic metabolism of both healthy and NAFLD patients.
The hypothesis of this project is that bariatric surgeries induce a biological process that affects positively MAFLD, independent of weight-loss. Our objectives are to identify this project using animal models and patient data, and to test candidate biological pathways on animal models, as a first step towards finding new treatments for this common and grave disease.