Antiviral biomaterials

Viral infections remain one of the leading causes of mortality worldwide, responsible for millions of deaths every year. The application of antiviral drugs, along with symptomatic treatment, is the primary modality of clinical antiviral therapy. Nevertheless, the severe side effects of antiviral drugs, such as gastrointestinal, hepatic, renal, and/or hematopoietic damages, can affect compliance and may even interrupt treatment. Moreover, drug resistance due to frequent viral mutations and single antiviral mechanisms often leads to therapeutic failure. The introduction of biomaterials into antiviral therapy provides distinct advantages and unique mechanisms. Antiviral biomaterials work in various ways, such as physical adsorption of viruses, binding to viruses as entry inhibitors, induction of irreversible viral deformation, interference with viral nucleic acid replication, and blockage of viral release from infected cells, among others. This review offers an overview of state-of-the-art advances in antiviral biomaterials featuring different mechanisms and discusses their challenges and opportunities in clinical translations.