Browsing by Author "Hamblin, Michael R."
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Review Citation Count: 20Controlled Gene Delivery Systems: Nanomaterials and Chemical Approaches(Amer Scientific Publishers, 2020) Ahmadi, Sepideh; Rabiee, Navid; Fatahi, Yousef; Bagherzadeh, Mojtaba; Gachpazan, Meysam; Baheiraei, Nafiseh; Hamblin, Michael R.Successful gene therapy depends on the design of effective gene delivery systems. A gene delivery system is considered a powerful tool for the release of genetic material within cells resulting in a change in cell functions and protein production. The release of genes in a controlled manner by using appropriate carriers facilitates their release without side effects and increases the expression of genes at the released site. It is expected that significant changes in the combination of several genes and drugs can be provided by developing treatment systems sensitive to different stimuli such as redox potential, pH variations, temperature gradients, light irradiation, and enzyme activity. The most important advantages for the release of genes and stimuli-responsive therapeutics include delivering vectors locally, reducing side effects and causing no toxicity to distant tissues while at the same time reducing the immune response to the vectors. In this review, we aim to discuss different types of gene carriers involved in the controlled transfer of nucleic acids (non-viral inorganic and organic nanoparticles (NPs) and virus-like particles (VLPs)) as well as the simultaneous transfer of several genes and/or drugs into cells or different tissues, providing for an efficient and safe treatment of numerous diseases.Review Citation Count: 123Stimulus-responsive sequential release systems for drug and gene delivery(Elsevier Sci Ltd, 2020) Ahmadi, Sepideh; Rabiee, Navid; Bagherzadeh, Mojtaba; Elmi, Faranak; Fatahi, Yousef; Farjadian, Fatemeh; Hamblin, Michael R.In recent years, a range of studies have been conducted with the aim to design and characterize delivery systems that are able to release multiple therapeutic agents in controlled and programmed temporal sequences, or with spatial resolution inside the body. This sequential release occurs in response to different stimuli, including changes in pH, redox potential, enzyme activity, temperature gradients, light irradiation, and by applying external magnetic and electrical fields. Sequential release (SR)-based delivery systems, are often based on a range of different micro- or nanocarriers and may offer a silver bullet in the battle against various diseases, such as cancer. Their distinctive characteristic is the ability to release one or more drugs (or release drugs along with genes) in a controlled sequence at different times or at different sites. This approach can lengthen gene expression periods, reduce the side effects of drugs, enhance the efficacy of drugs, and induce an anti-proliferative effect on cancer cells due to the synergistic effects of genes and drugs. The key objective of this review is to summarize recent progress in SR-based drug/gene delivery systems for cancer and other diseases. (C) 2020 Elsevier Ltd. All rights reserved.