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Literature DB >> 22988558

Biologically responsive polymeric nanoparticles for drug delivery.

Abstract

Responsive nanoparticles that release their drug cargo in accordance with a change in pH or oxidative stress are of significant clinical interest as this approach offers the opportunity to link drug delivery to a specific location or disease state. This research news article reviews the current state of this field by examining a series of published articles that highlight the novelty and benefits of using responsive polymeric particles to achieve functionally-targeted drug delivery.

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Year: 2012 PMID： 22988558 DOI： 10.1002/adma.201200420

Source DB: PubMed Journal: Adv Mater ISSN： 0935-9648 Impact factor: 30.849

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Cited

46 in total

1. 3D superhydrophobic electrospun meshes as reinforcement materials for sustained local drug delivery against colorectal cancer cells.

Authors: Stefan T Yohe; Victoria L M Herrera; Yolonda L Colson; Mark W Grinstaff
Journal: J Control Release Date: 2012-06-06 Impact factor: 9.776

Review 2. Degradable Controlled-Release Polymers and Polymeric Nanoparticles: Mechanisms of Controlling Drug Release.

Authors: Nazila Kamaly; Basit Yameen; Jun Wu; Omid C Farokhzad
Journal: Chem Rev Date: 2016-02-08 Impact factor: 60.622

Review 3. Bioavailability of phytochemicals and its enhancement by drug delivery systems.

Authors: Farrukh Aqil; Radha Munagala; Jeyaprakash Jeyabalan; Manicka V Vadhanam
Journal: Cancer Lett Date: 2013-02-19 Impact factor: 8.679

Review 4. The potential of magneto-electric nanocarriers for drug delivery.

Authors: Ajeet Kaushik; Rahul Dev Jayant; Vidya Sagar; Madhavan Nair
Journal: Expert Opin Drug Deliv Date: 2014-07-02 Impact factor: 6.648

5. Bioactive Natural Protein-Hydroxyapatite Nanocarriers for Optimizing Osteogenic Differentiation of Mesenchymal Stem Cells.

Authors: Z Z Ding; Z H Fan; X W Huang; S M Bai; D W Song; Q Lu; D L Kaplan
Journal: J Mater Chem B Date: 2016-03-08 Impact factor: 6.331

Review 6. Mechanoresponsive materials for drug delivery: Harnessing forces for controlled release.

Authors: Julia Wang; Jonah A Kaplan; Yolonda L Colson; Mark W Grinstaff
Journal: Adv Drug Deliv Rev Date: 2016-11-14 Impact factor: 15.470

7. Beta-endorphin cell therapy for cancer prevention.

Authors: Changqing Zhang; Sengottuvelan Murugan; Nadka Boyadjieva; Shaima Jabbar; Pallavi Shrivastava; Dipak K Sarkar
Journal: Cancer Prev Res (Phila) Date: 2014-11-17

8. In vitro activity of Paclitaxel-loaded polymeric expansile nanoparticles in breast cancer cells.

Authors: Kimberly Ann V Zubris; Rong Liu; Aaron Colby; Morgan D Schulz; Yolonda L Colson; Mark W Grinstaff
Journal: Biomacromolecules Date: 2013-05-09 Impact factor: 6.988

9. Microscopy and tunable resistive pulse sensing characterization of the swelling of pH-responsive, polymeric expansile nanoparticles.

Authors: Aaron H Colby; Yolonda L Colson; Mark W Grinstaff
Journal: Nanoscale Date: 2013-03-13 Impact factor: 7.790

Review 10. Reactive oxygen species-activated nanomaterials as theranostic agents.

Authors: Kye S Kim; Dongwon Lee; Chul Gyu Song; Peter M Kang
Journal: Nanomedicine (Lond) Date: 2015-09-02 Impact factor: 5.307