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Literature DB >> 30339825

Triggering antitumoural drug release and gene expression by magnetic hyperthermia.

María Moros¹, Javier Idiago-López¹, Laura Asín¹, Eduardo Moreno-Antolín², Lilianne Beola², Valeria Grazú¹, Raluca M Fratila³, Lucía Gutiérrez⁴, Jesús Martínez de la Fuente¹.

Abstract

Magnetic nanoparticles (MNPs) are promising tools for a wide array of biomedical applications. One of their most outstanding properties is the ability to generate heat when exposed to alternating magnetic fields, usually exploited in magnetic hyperthermia therapy of cancer. In this contribution, we provide a critical review of the use of MNPs and magnetic hyperthermia as drug release and gene expression triggers for cancer therapy. Several strategies for the release of chemotherapeutic drugs from thermo-responsive matrices are discussed, providing representative examples of their application at different levels (from proof of concept to in vivo applications). The potential of magnetic hyperthermia to promote in situ expression of therapeutic genes using vectors that contain heat-responsive promoters is also reviewed in the context of cancer gene therapy.

Entities: Disease

Keywords: Cancer; Gene therapy; Hydrogel; Liposomes; Magnetic nanoparticles; Polymer; Switchable gates

Mesh：

Substances：
Antineoplastic Agents

Year: 2018 PMID： 30339825 DOI： 10.1016/j.addr.2018.10.004

Source DB: PubMed Journal: Adv Drug Deliv Rev ISSN： 0169-409X Impact factor: 15.470

Keyword Cloud
Cited

15 in total

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7. Nanobubble Liposome Complexes for Diagnostic Imaging and Ultrasound-Triggered Drug Delivery in Cancers: A Theranostic Approach.

Authors: Ameya Prabhakar; Rinti Banerjee
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Triggering antitumoural drug release and gene expression by magnetic hyperthermia.

Review 1. Use of magnetic fields and nanoparticles to trigger drug release and improve tumor targeting.

Review 2. Lipid based nanoparticles as a novel treatment modality for hepatocellular carcinoma: a comprehensive review on targeting and recent advances.

Review 3. Micro/Nanosystems for Magnetic Targeted Delivery of Bioagents.

4. Magnetic nanoparticles and magnetic particle spectroscopy-based bioassays: a 15 year recap.

5. Magnetoresponsive nanozyme: magnetic stimulation on the nanozyme activity of iron oxide nanoparticles.

6. Electrogenetic Signal Transmission and Propagation in Coculture to Guide Production of a Small Molecule, Tyrosine.

7. Nanobubble Liposome Complexes for Diagnostic Imaging and Ultrasound-Triggered Drug Delivery in Cancers: A Theranostic Approach.

8. Multifunctional magnetic soft composites: a review.

9. Bi-Magnetic Core-Shell CoFe₂O₄@MnFe₂O₄ Nanoparticles for In Vivo Theranostics.

Review 10. Review on Recent Progress in Magnetic Nanoparticles: Synthesis, Characterization, and Diverse Applications.

Triggering antitumoural drug release and gene expression by magnetic hyperthermia.

Review 1. Use of magnetic fields and nanoparticles to trigger drug release and improve tumor targeting.

Review 2. Lipid based nanoparticles as a novel treatment modality for hepatocellular carcinoma: a comprehensive review on targeting and recent advances.

Review 3. Micro/Nanosystems for Magnetic Targeted Delivery of Bioagents.

4. Magnetic nanoparticles and magnetic particle spectroscopy-based bioassays: a 15 year recap.

5. Magnetoresponsive nanozyme: magnetic stimulation on the nanozyme activity of iron oxide nanoparticles.

6. Electrogenetic Signal Transmission and Propagation in Coculture to Guide Production of a Small Molecule, Tyrosine.

7. Nanobubble Liposome Complexes for Diagnostic Imaging and Ultrasound-Triggered Drug Delivery in Cancers: A Theranostic Approach.

8. Multifunctional magnetic soft composites: a review.

9. Bi-Magnetic Core-Shell CoFe2O4@MnFe2O4 Nanoparticles for In Vivo Theranostics.

Review 10. Review on Recent Progress in Magnetic Nanoparticles: Synthesis, Characterization, and Diverse Applications.

9. Bi-Magnetic Core-Shell CoFe₂O₄@MnFe₂O₄ Nanoparticles for In Vivo Theranostics.