期刊
POLYMERS
卷 13, 期 22, 页码 -出版社
MDPI
DOI: 10.3390/polym13223969
关键词
iron; copper; polymer; chelator; Wilson's disease; hemochromatosis
资金
- Czech Science Foundation [19-01438S]
- Czech Academy of Sciences
- German Academic Exchange Service [57448291, DAAD-19-09, VP06]
- CONACYT-DAAD program [CONACYT: 708225, DAAD: 91616745]
Iron and copper are essential micronutrients for cell function, but can be toxic in excess. Current therapy for iron and copper overload using low-molecular-weight chelators has limitations, leading to exploration of polymer-supported chelating therapeutics as a promising alternative.
Iron and copper are essential micronutrients needed for the proper function of every cell. However, in excessive amounts, these elements are toxic, as they may cause oxidative stress, resulting in damage to the liver and other organs. This may happen due to poisoning, as a side effect of thalassemia infusion therapy or due to hereditary diseases hemochromatosis or Wilson's disease. The current golden standard of therapy of iron and copper overload is the use of low-molecular-weight chelators of these elements. However, these agents suffer from severe side effects, are often expensive and possess unfavorable pharmacokinetics, thus limiting the usability of such therapy. The emerging concepts are polymer-supported iron- and copper-chelating therapeutics, either for parenteral or oral use, which shows vivid potential to keep the therapeutic efficacy of low-molecular-weight agents, while avoiding their drawbacks, especially their side effects. Critical evaluation of this new perspective polymer approach is the purpose of this review article.
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