Synergistic action of combination therapy can be enhanced by appropriate selection of drugs combination that might reduce the likelihood acquired resistance to chemotherapy in cancer. Nano based formulations offer a parallel opportunity to design advance combination drug delivery systems with specific internal and external stimulus. In recent years, there has been a lot of interest in the study of metal-organic frameworks (MOFs) for biomedical applications. Because of their extraordinary chemical properties such as tunable porous structure with high surface area MOFs are an infancy material used in drug delivery systems as a nacarrier. MOFs are regarded as a promising class of nanocarriers for drug delivery owing to well-defined structure, ultrahigh surface area and porosity, tunable pore size, and easy chemical functionalization. Herein we summarize the most recent progress in stimuli-based dual drug-delivery systems including inorganic and organic nanocarriers. Moreover, we have highlighted the specific stimuli responsive nano-MOFs as dual drug delivery systems, which offer a fresh perspective for development of hybrid nanocarrier to overcome the drawbacks of pure organic and inorganic carriers, such as toxicity, lower payload capacity and burst effect.
Exploration of an efficient dual-drug based nanocarrier with high drug loading capacity, specific targeting properties, and long-term stability is highly desirable in cancer therapy.
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