Bioplatform Fabrication Approaches Affecting Chitosan-Based Interpolymer Complex Properties and Performance as Wound Dressings

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Bioplatform Fabrication Approaches Affecting Chitosan-Based Interpolymer Complex Properties and Performance as Wound Dressings

机译：生物塑料制造方法，影响基于壳聚糖的互聚合物复合物质和性能作为伤口敷料

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Chitosan can form interpolymer complexes (IPCs) with anionic polymers to form biomedical platforms (BMPs) for wound dressing/healing applications. This has resulted in its application in various BMPs such as gauze, nano/microparticles, hydrogels, scaffolds, and films. Notably, wound healing has been highlighted as a noteworthy application due to the remarkable physical, chemical, and mechanical properties enabled though the interaction of these polyelectrolytes. The interaction of chitosan and anionic polymers can improve the properties and performance of BMPs. To this end, the approaches employed in fabricating wound dressings was evaluated for their effect on the property-performance factors contributing to BMP suitability in wound dressing. The use of chitosan in wound dressing applications has had much attention due to its compatible biological properties. Recent advancement includes the control of the degree of crosslinking and incorporation of bioactives in an attempt to enhance the physicochemical and physicomechanical properties of wound dressing BMPs. A critical issue with polyelectrolyte-based BMPs is that their effective translation to wound dressing platforms has yet to be realised due to the unmet challenges faced when mimicking the complex and dynamic wound environment. Novel BMPs stemming from the IPCs of chitosan are discussed in this review to offer new insight into the tailoring of physical, chemical, and mechanical properties via fabrication approaches to develop effective wound dressing candidates. These BMPs may pave the way to new therapeutic developments for improved patient outcomes.

机译：壳聚糖可以形成具有阴离子聚合物的互聚合物（IPC），形成伤口敷料/愈合应用的生物医学平台（BMP）。这导致其在各种BMP中的应用，例如纱布，纳米/微粒，水凝胶，支架和薄膜。值得注意的是，由于这些聚电解质的相互作用，因此突出了伤口愈合作为一种值得注意的应用，因为这些聚合物的相互作用使得能够实现。壳聚糖和阴离子聚合物的相互作用可以改善BMP的性能和性能。为此，评价制造伤口敷料的方法对其对伤口敷料中BMP适用性有助于BMP适用性的影响。由于其相容的生物学性质，壳聚糖在伤口敷料应用中的使用具有很大的关注。最近的进步包括控制交联程度和生物透明度，以提高伤口敷料BMP的物理化学和物理机械性质。基于聚电解质的BMP的关键问题是，由于在模仿复杂和动态伤口环境时面临的未满足挑战，他们对伤口敷料平台的有效翻译尚未实现。在本综述中讨论了从壳聚糖IPC的新型BMPS，以通过制造方法剪裁物理，化学品和机械性能来开发有效的伤口敷料候选者来讨论新的BMP。这些BMP可以为新的治疗发展铺平道路，以改善患者结果。

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《Zeitschrift fur Arznei- und Gewurzpflanzen》 |2020年第1期|共29页
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正文语种 eng
中图分类药学;
关键词
chitosan; polyelectrolytes; biomedical platforms; interpolymer complex; wound dressing; wound healing; IPC fabrication approaches;

机译：壳聚糖;聚电解质;生物医学平台;互化复合物;伤口敷料;伤口愈合;IPC制造方法;

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1. Bioplatform Fabrication Approaches Affecting Chitosan-Based Interpolymer Complex Properties and Performance as Wound Dressings [J] . Zeitschrift fur Arznei- und Gewurzpflanzen . 2020,第1期

机译：生物塑料制造方法，影响基于壳聚糖的互聚合物复合物质和性能作为伤口敷料
2. Bioplatform Fabrication Approaches Affecting Chitosan-Based Interpolymer Complex Properties and Performance as Wound Dressings [J] . Hillary Mndlovu, Lisa C. du Toit, Pradeep Kumar, Molecules . 2020,第1期

机译：生物塑料制造方法，影响壳聚糖的互聚合物复合物质和性能作为伤口敷料
3. Fabrication of New Chitosan-Based Composite Sponge Containing Silver Nanoparticles and Its Antibacterial Properties for Wound Dressing [J] . Donghong Li, Junlin Diao, Jiaotao Zhang, Journal of nanoscience and nanotechnology . 2011,第6期

机译：新型含银纳米粒子的壳聚糖基复合海绵的制备及其伤口敷料的抗菌性能
4. Chitosan-based electrospun nanofibers mats reinforced with phenytoin-loaded PLGA/Lecithin nanoparticles as potential wound dressings [C] . Isra Ali, Islam AKhalil, Ibrahim M El-Sherbiny World biomaterials congress . 2016

机译：基于壳聚糖的静电纺纳米纤维毡，用苯妥英钠负载的PLGA /卵磷脂纳米颗粒增强，可作为潜在的伤口敷料
5. Laser-processed parchment paper for fabrication of chronic wound dressings with selective oxygenation. [D] . Ochoa, Manuel. 2016

机译：激光加工过的羊皮纸，用于选择氧化的慢性伤口敷料的制造。
6. Bioplatform Fabrication Approaches Affecting Chitosan-Based Interpolymer Complex Properties and Performance as Wound Dressings [O] . Hillary Mndlovu, Lisa C. du Toit, Pradeep Kumar, 2020

机译：影响壳聚糖基互聚物复合物性能和性能的生物敷料作为伤口敷料
7. Comparative evaluation of chitosan-based multifunctional wound dressings: a multistage randomised controlled experimental trial [O] . D. I. Ushmarov, S. E. Gumenyuk, A. S. Gumenyuk, 2021

机译：基于壳聚糖的多功能伤口敷料的比较评价：多级随机对照实验试验
8. Physical Characteristics and Performance of Synthetic Wound Dressings. [R] . Gourlay, S. J., Rice, R. M., Hegyeli, A. F., 1975

机译：合成伤口敷料的物理特性与性能。

Bioplatform Fabrication Approaches Affecting Chitosan-Based Interpolymer Complex Properties and Performance as Wound Dressings

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