Despite the great efforts that have been achieved in breast cancer treatment, it remains a significant cause of death in women and a serious health problem. Treatment with chemotherapy drugs faces various challenges, such as toxicity and chemoresistance to chemotherapeutic drugs, which hinder their therapeutic success and clinical experiments. This review focuses on targeting nanocarrier approaches to target chemotherapy drugs to receptor targets that are overexpressed on the surface of breast cancer cells. In particular, we are reviewing the most commonly targeted nanocarriers for the chemotherapeutic agents examined by the different researcher groups, such as liposomes, dendrimers, polymeric micelles, lipid particulates, polymeric nanoparticles, and carbon nanotubes. Moreover, we summarized the molecular receptors or targets that are the most commonly overexpressed in breast cancer cells and the natural and synthetic ligands that have been studied for use as targeting moieties to functionalize chemotherapeutically loaded nanocarriers for potential specific breast cancer targeting.
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