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Smart External Stimulus-Responsive Nanocarriers for Drug and Gene Delivery Publisher



Karimi M1 ; Zangabad PS2, 3 ; Ghasemi A2, 3 ; Hamblin MR4, 5, 6
Authors
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Authors Affiliations
  1. 1. Department of Medical Nanotechnology, Faculty of Advanced Technologies in Medicine, Iran University of Medical Sciences, Tehran, Iran
  2. 2. Department of Materials Science and Engineering, Sharif University of Technology, PO Box 11365-9466, Tehran, 14588, Iran
  3. 3. Advanced Nanobiotechnology and Nanomedicine research group (ANNRG), Faculty of Advanced Technologies in Medicine, Iran University of Medical Sciences, Tehran, Iran
  4. 4. Wellman Center for Photomedicine, Massachusetts General Hospital, Boston, 02114, MA, United States
  5. 5. Department of Dermatology, Harvard Medical School, Boston, 02115, MA, United States
  6. 6. Harvard MIT Division of Health Science and Technology, Cambridge, 02139, MA, United States

Source: Smart External Stimulus-Responsive Nanocarriers for Drug and Gene Delivery Published:2015


Abstract

The concept of smart drug delivery vehicles involves designing and preparing a nanostructure (or microstructure) that can be loaded with a cargo, this can be a therapeutic drug, a contrast agent for imaging, or a nucleic acid for gene therapy. The nanocarrier serves to protect the cargo from degradation by enzymes in the body, to enhance the solubility of insoluble drugs, to extend the circulation half-life, and to enhance its penetration and accumulation at the target site. Importantly, smart nanocarriers can be designed to be responsive to a specific stimulus, so that the cargo is only released or activated when desired. In this volume we cover smart nanocarriers that respond to externally applied stimuli that usually involve application of physical energy. This physical energy can be applied from outside the body and can either cause cargo release, or can activate the nanostructure to be cytotoxic, or both. The stimuli covered include light of various wavelengths (ultraviolet, visible or infrared), temperature (increased or decreased), magnetic fields (used to externally manipulate nanostructures and to activate them), ultrasound, and electrical and mechanical forces. Finally we discuss the issue of nanotoxicology and the future scope of the field. © 2015 Morgan & Claypool Publishers. All rights reserved.
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