Please use this identifier to cite or link to this item: http://hdl.handle.net/2381/37480
Title: Degradation mechanisms of bioresorbable polyesters. Part 1. Effects of random scission, end scission and autocatalysis
Authors: Gleadall, Andrew
Pan, Jingzhe
Kruft, Marc-Anton
Kellomäki, Minna
First Published: 30-Dec-2013
Publisher: Elsevier
Citation: Acta Biomater, 2014, 10 (5), pp. 2223-2232
Abstract: A mathematical model was developed to relate the degradation trend of bioresorbable polymers to different underlying hydrolysis mechanisms, including noncatalytic random scission, autocatalytic random scission, noncatalytic end scission or autocatalytic end scission. The effect of each mechanism on molecular weight degradation and potential mass loss was analysed. A simple scheme was developed to identify the most likely hydrolysis mechanism based on experimental data. The scheme was first demonstrated using case studies, then used to evaluate data collected from 31 publications in the literature to identify the dominant hydrolysis mechanisms for typical biodegradable polymers. The analysis showed that most of the experimental data indicates autocatalytic hydrolysis, as expected. However, the study shows that the existing understanding on whether random or end scission controls degradation is inappropriate. It was revealed that pure end scission cannot explain the observed trend in molecular weight reduction because end scission would be too slow to reduce the average molecular weight. On the other hand, pure random scission cannot explain the observed trend in mass loss because too few oligomers would be available to diffuse out of a device. It is concluded that the chain ends are more susceptible to cleavage, which produces most of the oligomers leading to mass loss. However, it is random scission that dominates the reduction in molecular weight.
DOI Link: 10.1016/j.actbio.2013.12.039
ISSN: 1742-7061
eISSN: 1878-7568
Links: http://www.sciencedirect.com/science/article/pii/S1742706113006442
http://hdl.handle.net/2381/37480
Version: Post-print
Status: Peer-reviewed
Type: Journal Article
Rights: Copyright © the authors, 2014. This version is an open-access article distributed under the terms of the Creative Commons Attribution-Non Commercial-No Derivatives License (http://creativecommons.org/licenses/by-nc-nd/4.0/ ), which permits use and distribution in any medium, provided the original work is properly cited, the use is non-commercial and no modifications or adaptations are made.
Appears in Collections:Published Articles, Dept. of Engineering

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