In situ encapsulation of biologically active ingredients into polymer particles by polymerization in dispersed media

IF 26 1区化学 Q1 POLYMER SCIENCE Progress in Polymer Science Pub Date : 2023-02-01 DOI:10.1016/j.progpolymsci.2022.101637

Maëlle Lages, Julien Nicolas

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引用次数: 5

Abstract

The encapsulation of biologically active ingredients (e.g., peptides, proteins, enzymes, drugs) into polymer particles is extensively used for drug delivery purposes. However, this strategy relies mainly on emulsification processes from preformed polymers, which leads to strong limitations such as low particle concentrations (typically a few wt%), poor active ingredient loadings, as well as a rather limited structural diversity of the polymers usually used. Conversely, polymerizations in dispersed media, which allow for the formation of scalable suspensions of (nano)particles during the polymerization process, have been advantageously used for the in situ encapsulation of active ingredients. In this review, the in situ encapsulation of active ingredients, such as peptides, proteins, enzymes or drugs, in polymer particles obtained by polymerization in dispersed media for potential biomedical applications, is covered. Their physical and chemical encapsulations were both considered as function of the polymerization technique used. Several polymerization and encapsulation parameters will be discussed in view of adjusting the drug loading and the encapsulation efficiency of the active agent considered.

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在分散介质中通过聚合将生物活性成分原位封装成聚合物颗粒

将生物活性成分(如肽、蛋白质、酶、药物)包封到聚合物颗粒中广泛用于药物递送目的。然而，这种策略主要依赖于预成型聚合物的乳化过程，这导致了很强的局限性，例如低颗粒浓度(通常为几wt%)，活性成分负载差，以及通常使用的聚合物的结构多样性相当有限。相反，分散介质中的聚合，允许在聚合过程中形成可伸缩的(纳米)颗粒悬浮液，已有利地用于活性成分的原位包封。本文综述了在分散介质中聚合获得的聚合物颗粒中对活性成分(如肽、蛋白质、酶或药物)的原位包封，以用于潜在的生物医学应用。它们的物理和化学封装都被认为是聚合技术所使用的功能。本文将讨论几种聚合和包封参数，以调整所考虑的活性剂的载药量和包封效率。

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来源期刊

Progress in Polymer Science 化学-高分子科学

CiteScore

48.70

自引率

1.10%

发文量

审稿时长

38 days

期刊介绍： Progress in Polymer Science is a journal that publishes state-of-the-art overview articles in the field of polymer science and engineering. These articles are written by internationally recognized authorities in the discipline, making it a valuable resource for staying up-to-date with the latest developments in this rapidly growing field. The journal serves as a link between original articles, innovations published in patents, and the most current knowledge of technology. It covers a wide range of topics within the traditional fields of polymer science, including chemistry, physics, and engineering involving polymers. Additionally, it explores interdisciplinary developing fields such as functional and specialty polymers, biomaterials, polymers in drug delivery, polymers in electronic applications, composites, conducting polymers, liquid crystalline materials, and the interphases between polymers and ceramics. The journal also highlights new fabrication techniques that are making significant contributions to the field. The subject areas covered by Progress in Polymer Science include biomaterials, materials chemistry, organic chemistry, polymers and plastics, surfaces, coatings and films, and nanotechnology. The journal is indexed and abstracted in various databases, including Materials Science Citation Index, Chemical Abstracts, Engineering Index, Current Contents, FIZ Karlsruhe, Scopus, and INSPEC.

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