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https://www.sciencedirect.com/science/article/pii/B9781845690700500047
4.1. Introduction. The development of numerous biodegradable polymers for drug delivery applications has been significant but difficulties remain for researchers, who hope to produce efficacious drug release profiles, all while avoiding pharmacological or toxicological effects from the base polymer.Author: G. S. Kwon, D. Y. Furgeson
https://www.sciencedirect.com/science/article/pii/S0142961213012647
1. Introduction. Nanoparticles based on biodegradable or non-biodegradable materials such as natural or synthetic polymers, lipids and metals have received considerable interest as drug delivery vehicles , , .Poly (lactide-co-glycolide) (PLGA) is a FDA approval biodegradable polymer which has been widely used as a model molecular biomaterial for synthesis of nanoparticles for sustained ...Author: Xudong Zhang, Yichen Dong, Xiaowei Zeng, Xin Liang, Xiaoming Li, Wei Tao, Hongbo Chen, Yuyang Jiang,...
https://www.pharmatutor.org/articles/biodegradable-polymers-role-drug-delivery
The use of biodegradable polymer in drug delivery grew from the search for polymers that could be employed as degradable sutures. Synthetic polymers such as poly (glycolic acid) were first developed in the 1950is and their poor hydrolytic stability made them unsuitable for permanent applications.
http://www.pla-drugcarrier.com/
PLA is a polymer of DL-lactic acid and PLGA is a copolymer of DL-lactic acid and glycolic acid. Advantage PLA-Wako and PLGA-Wako are produced by direct condensation without using polymerization catalysts.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6401754/
Dec 12, 2018 · Implantable drug delivery device classification is not a straightforward task as there are a number of complex implants that will fall into hybrid categories. Nevertheless, implantable drug delivery devices can be broadly classified in two main groups: passive implants and active implants.Author: Sarah A. Stewart, Juan Domínguez-Robles, Ryan F. Donnelly, Eneko Larrañeta
https://www.ncbi.nlm.nih.gov/pubmed/23932249
Boronate-dextran: an acid-responsive biodegradable polymer for drug delivery. Li L(1), Bai Z, Levkin PA. Author information: (1)Institute of Toxicology and Genetics, Karlsruhe Institute of Technology, 76344 Karlsruhe, Germany.Author: Linxian Li, Linxian Li, Zewei Bai, Pavel A. Levkin, Pavel A. Levkin
https://pubs.acs.org/doi/10.1021/cr500131f
Synthesis, characterization and in vivo drug delivery study of a biodegradable nano-structured molecularly imprinted polymer based on cross-linker of fructose. Polymer 2016, 97, 226-237. DOI: 10.1016/j.polymer.2016.05.031. Uwe Freudenberg, Yingkai Liang, Kristi L. Kiick, Carsten Werner.Author: Yulin Li, Dina Maciel, João Rodrigues, Xiangyang Shi, Helena Tomás
https://link.springer.com/chapter/10.1007%2F978-1-4614-0881-9_5
Sep 27, 2011 · An overview is provided of how the chemical structures and physical properties of these polymers impact functionality of drug delivery systems and how to strategically select polymers for different applications. Detailed examples of biodegradable drug delivery systems are discussed with respect to routes of administration and disease states.Author: Jamie Tsung, Diane J. Burgess
https://www.researchgate.net/publication/255733652_Boronate-dextran_An_acid-responsive_biodegradable_polymer_for_drug_delivery
Boronate–dextran: An acid-responsive biodegradable polymer for drug delivery Article in Biomaterials 34(33) · August 2013 with 227 Reads How we measure 'reads'
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