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Antiviral Polymers: Past Approaches and Future Possibilities

Rachel H. Bianculli, Jonathan D. Mase, Michael D. Schulz

2020Macromolecules147 citationsDOIOpen Access PDF

Abstract

Treating a viral disease is no simple feat. Drug resistance, latent reservoirs in the body, emerging novel viruses, and a frequent lack of specific treatments all complicate antiviral therapy. For decades, antiviral polymers have been studied for a range of infectious diseases. The field has emerged, expanded, and adapted over the past 70 years, producing unique classes of materials that hold promise for overcoming these obstacles. Antiviral polymers can directly inhibit viral replication and infection, usually by binding to the virus and preventing it from invading a host cell. They can also serve as microbicides or antiviral drug-delivery vehicles. This Perspective outlines the significant advances and challenges in the field. We discuss polymers with activity against viruses with limited treatment options (hepatitis C), ubiquitous presence (influenza, norovirus), or long-term complications (HIV). We also explore insights into different mechanisms of action, and we offer ideas on how the field of antiviral polymers might advance in the future.

Topics & Concepts

Microbicides for sexually transmitted diseasesAntiviral drugAntiviral therapyVirologyHuman immunodeficiency virus (HIV)DrugVirusBiologyNanotechnologyComputational biologyMedicinePharmacologyChronic hepatitisHealth servicesPopulationMaterials scienceEnvironmental healthVirus-based gene therapy researchRespiratory viral infections researchViral Infections and Immunology Research
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