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Comprehensive Review on Ultrasound-Responsive Theranostic Nanomaterials: Mechanisms, Structures and Medical Applications Publisher



Fateh ST1 ; Moradi L2 ; Kohan E3 ; Hamblin MR4 ; Dezfuli AS5
Authors
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Authors Affiliations
  1. 1. School of Medicine, Shahid Beheshti University of Medical Sciences, Tehran, Iran
  2. 2. Department of Tissue Engineering and Applied Cell Sciences, School of Advanced Technologies in Medicine, Tehran University of Medical Sciences, Tehran, Iran
  3. 3. Department of Science, University of Kurdistan, Kurdistan, Sanandaj, Iran
  4. 4. Laser Research Centre, Faculty of Health Science, University of Johannesburg, Doornfontein, 2028, South Africa
  5. 5. Physiology Research Center, Faculty of medicine, Iran University of Medical Sciences, Tehran, Iran

Source: Beilstein Journal of Nanotechnology Published:2021


Abstract

The field of theranostics has been rapidly growing in recent years and nanotechnology has played a major role in this growth. Nanomaterials can be constructed to respond to a variety of different stimuli which can be internal (enzyme activity, redox potential, pH changes, temperature changes) or external (light, heat, magnetic fields, ultrasound). Theranostic nanomaterials can respond by producing an imaging signal and/or a therapeutic effect, which frequently involves cell death. Since ultrasound (US) is already well established as a clinical imaging modality, it is attractive to combine it with rationally designed nanoparticles for theranostics. The mechanisms of US interactions include cavitation microbubbles (MBs), acoustic droplet vaporization, acoustic radiation force, localized thermal effects, reactive oxygen species generation, sonoluminescence, and sonoporation. These effects can result in the release of encapsulated drugs or genes at the site of interest as well as cell death and considerable image enhancement. The present review discusses US-responsive theranostic nanomaterials under the following categories: MBs, micelles, liposomes (conventional and echogenic), niosomes, nanoemulsions, polymeric nanoparticles, chitosan nanocapsules, dendrimers, hydrogels, nanogels, gold nanoparticles, titania nanostructures, carbon nanostructures, mesoporous silica nanoparticles, fuel-free nano/micro-motors. © 2021. Tehrani Fateh et al.; licensee Beilstein-Institut. License and terms: see end of document.
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