Although aspirin is deeply rooted in the most ancient history of medicine, the mechanism of action of this drug was only identified a few decades ago. Aspirin has several indications ranging from its long-known analgesic and antipyretic properties to the more recently discovered antithrombotic, chemopreventive and anti-eclampsia actions. In addition, a recent line of research has identified aspirin as a drug with potential hepatologic indications. This article specifically focuses on the nonalcoholic fatty liver disease/nonalcoholic metabolic dysfunction fatty liver disease/metabolic dysfunction-associated steatotic liver disease (NAFLD/MAFLD/MASLD) field. To this end, the most recently published randomized controlled trial on aspirin for non-cirrhotic MASLD is summarized and discussed. Moreover, previous epidemiologic evidence supporting the notion that aspirin exerts antisteatotic and antifibrotic hepatic effects, which may result in the primary prevention of hepatocellular carcinoma, is also addressed. Next, the putative mechanisms involved are examined, with reference to the effects on adipose tissue and liver and sex differences in the action of aspirin. It is concluded that these novel findings on aspirin as a "hepatologic drug" deserve additional in-depth evaluation.
Keywords: Aspirin; Hepatocellular carcinoma; History of medicine; Liver fibrosis; MAFLD; MASLD; NAFLD; Platelets; Steatosis.
Although aspirin is part of the history of medicine, its mechanism of action was only discovered a few decades ago. Aspirin can be used to treat pain, fever, inflammation and conditions where the blood tends to clot excessively (hypercoagulate) as well as for the prevention of certain types of cancer. Additionally, recent research has identified potential hepatologic indications and beneficial actions of aspirin among the so-called fatty liver disorders owing to conditions which disrupt the body’s regular metabolic functions and disorders (such as obesity and diabetes). This article discusses a recently published study while also addressing previous studies supporting the notion that aspirin might have pharmacologic action against fatty liver and its progression to scarring tissue (liver fibrosis and hepatic cirrhosis) and prevent the most common type of primary liver cancer. Aspirin not only acts on the blood cells that protect against hemorrhage (i.e., the platelets) but also targets other tissues such as adipose tissue and the liver. Importantly, biologic sex may affect the pharmacologic action of aspirin. Collectively, the discoveries summarized in our article justify additional investigations into aspirin as a “novel” drug in the hepatologic field.
© 2024. The Author(s), under exclusive licence to Springer Healthcare Ltd., part of Springer Nature.