Innovative Delivery and Release Systems for Antioxidants and Other Active Substances in the Treatment of Cancer

Pharmaceuticals (Basel). 2023 Jul 21;16(7):1038. doi: 10.3390/ph16071038.

Abstract

Cancer is one of the major diseases leading to death worldwide, and the fight against the disease is still challenging. Cancer diseases are usually associated with increased oxidative stress and the accumulation of reactive oxygen and nitrogen species as a result of metabolic alterations or signaling aberrations. While numerous antioxidants exhibit potential therapeutic properties, their clinical efficiency against cancer is limited and even unproven. Conventional anticancer antioxidants and drugs have, among others, the great disadvantage of low bioavailability, poor targeting efficiency, and serious side effects, constraining their use in the fight against diseases. Here, we review the rationale for and recent advances in potential delivery systems that could eventually be employed in clinical research on antioxidant therapy in cancer. We also review some of the various strategies aimed at enhancing the solubility of poorly water-soluble active drugs, including engineered delivery systems such as lipid-based, polymeric, and inorganic formulations. The use of cyclodextrins, micro- and nanoemulsions, and thermosensitive smart liposomes as useful systems for the delivery and release of poorly aqueous-soluble drugs, improving their bioactivity and stability, is also addressed. We also provide some details on their formulation processes and their use in a variety of medical applications. Finally, we briefly cover a case study specifically focused on the use of delivery systems to minimize oral cancer and associated dental problems.

Keywords: anticancer; antioxidants; bioavailability; controlled release; delivery systems.

Publication types

  • Review

Grants and funding

This work was funded by the University of Vigo, grants C11 and ABH1-V231, Xunta de Galicia (Cluster of Agricultural Research and Development—CITACA Strategic Partnership, grant ED431E 2018/07), and “Network for the Sustainable Use of Natural and Agrifood Resources” (REDUSO, grant ED431D 2017/18).