Literature DB >> 23614648

Poly(lactic-co-glycolic) acid-controlled-release systems: experimental and modeling insights.

Daniel J Hines1, David L Kaplan.   

Abstract

Poly(lactic-co-glycolic acid) (PLGA) has been the most successful polymeric biomaterial used in controlled drug delivery systems. There are several different chemical and physical properties of PLGA that impact the release behavior of drugs from PLGA delivery devices. These properties must be considered and optimized in the formulation of drug release devices. Mathematical modeling is a useful tool for identifying, characterizing, and predicting mechanisms of controlled release. The advantages and limitations of poly(lactic-co-glycolic acid) for controlled release are reviewed, followed by a review of current approaches in controlled-release technology that utilize PLGA. Mathematical modeling applied toward controlled-release rates from PLGA-based devices also will be discussed to provide a complete picture of a state-of-the-art understanding of the control that can be achieved with this polymeric system, as well as the limitations.

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Year:  2013        PMID: 23614648      PMCID: PMC3719420          DOI: 10.1615/critrevtherdrugcarriersyst.2013006475

Source DB:  PubMed          Journal:  Crit Rev Ther Drug Carrier Syst        ISSN: 0743-4863            Impact factor:   4.889


  53 in total

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  59 in total

1.  Drug-triggered and cross-linked self-assembling nanofibrous hydrogels.

Authors:  Vivek A Kumar; Siyu Shi; Benjamin K Wang; I-Che Li; Abhishek A Jalan; Biplab Sarkar; Navindee C Wickremasinghe; Jeffrey D Hartgerink
Journal:  J Am Chem Soc       Date:  2015-04-01       Impact factor: 15.419

2.  Injectable Sustained-Release Depots of PLGA Microspheres for Insoluble Drugs Prepared by hot-Melt Extrusion.

Authors:  Yuting Guo; Yunning Yang; Luying He; Rong Sun; Chenguang Pu; Bin Xie; Haibing He; Yu Zhang; Tian Yin; Yanjiao Wang; Xing Tang
Journal:  Pharm Res       Date:  2017-07-24       Impact factor: 4.200

3.  Selective Nanoparticle Targeting of the Renal Tubules.

Authors:  Ryan M Williams; Janki Shah; Helen S Tian; Xi Chen; Frederic Geissmann; Edgar A Jaimes; Daniel A Heller
Journal:  Hypertension       Date:  2017-11-13       Impact factor: 10.190

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Authors:  Joy H Chang; Po-Jung Chen; Michael R Arul; Eliane H Dutra; Ravindra Nanda; Sangamesh G Kumbar; Sumit Yadav
Journal:  Eur J Orthod       Date:  2020-06-23       Impact factor: 3.075

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Authors:  D Dutta; C Fauer; K Hickey; M Salifu; S E Stabenfeldt
Journal:  J Mater Chem B       Date:  2017-03-13       Impact factor: 6.331

6.  Bioinspired Nanoparticles Engineered for Enhanced Delivery to the Bone.

Authors:  Andrew S Gdowski; Jana B Lampe; Victor J T Lin; Rohan Joshi; Yu-Chieh Wang; Anindita Mukerjee; Jamboor K Vishwanatha; Amalendu P Ranjan
Journal:  ACS Appl Nano Mater       Date:  2019-09-17

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Authors:  Ru Wen; Bhabatosh Banik; Rakesh K Pathak; Anil Kumar; Nagesh Kolishetti; Shanta Dhar
Journal:  Adv Drug Deliv Rev       Date:  2016-01-09       Impact factor: 15.470

8.  Gemcitabine and Antisense-microRNA Co-encapsulated PLGA-PEG Polymer Nanoparticles for Hepatocellular Carcinoma Therapy.

Authors:  Rammohan Devulapally; Kira Foygel; Thillai V Sekar; Juergen K Willmann; Ramasamy Paulmurugan
Journal:  ACS Appl Mater Interfaces       Date:  2016-12-02       Impact factor: 9.229

9.  Fabrication of biodegradable particles with tunable morphologies by the addition of resveratrol to oil in water emulsions.

Authors:  Christopher Isely; Alexandra C Stevens; Gregory L Tate; John R Monnier; R Michael Gower
Journal:  Int J Pharm       Date:  2020-10-03       Impact factor: 5.875

10.  PLGA nanodepots co-encapsulating prostratin and anti-CD25 enhance primary natural killer cell antiviral and antitumor function.

Authors:  Elizabeth E Sweeney; Preethi B Balakrishnan; Allison B Powell; Allan Bowen; Indra Sarabia; Rachel A Burga; R Brad Jones; Alberto Bosque; C Russell Y Cruz; Rohan Fernandes
Journal:  Nano Res       Date:  2020-02-21       Impact factor: 8.897
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