Blood Coagulation Activities and Influence on DNA Condition of Alginate-Calcium Composites Prepared by Freeze-Drying Technique.

IF 4.9 2区 医学 Q1 CHEMISTRY, MEDICINAL
Marine Drugs Pub Date : 2024-09-10 DOI:10.3390/md22090415
Małgorzata Świerczyńska, Paulina Król, César I Hernández Vázquez, Klaudia Piekarska, Katarzyna Woźniak, Michał Juszczak, Zdzisława Mrozińska, Marcin H Kudzin
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Abstract

The aim of this research was to synthesize and characterize alginate-calcium composites using a freeze-drying method, with a focus on their potential applications in biomedicine. This study specifically explored the biochemical properties of these composites, emphasizing their role in blood coagulation and their capacity to interact with DNA. Additionally, the research aimed to assess how the cross-linking process influences the structural and chemical characteristics of the composites. Detailed analyses, including microscopic examination, surface area assessment, and atomic absorption spectrometry, yielded significant results. The objective of this study was to examine the impact of calcium chloride concentration on the calcium content in alginate composites. Specifically, the study assessed how varying concentrations of the cross-linking solution (ranging from 0.5% to 2%) influence the calcium ion saturation within the composites. This investigation is essential for understanding the physicochemical properties of the materials, including calcium content, porosity, and specific surface area. The results are intended to identify the optimal cross-linking conditions that maximize calcium enrichment efficiency while preserving the material's structural integrity. The study found that higher calcium chloride concentrations in alginate cross-linking improve the formation of a porous structure, enhanced by two-stage freeze-drying. Increased calcium levels led to a larger surface area and pore volume, and significantly higher calcium content. Furthermore, assays of activated partial thromboplastin time (aPTT) showed a reduction in clotting time for alginate composites containing calcium ions, indicating their potential as hemostatic agents. The aPTT test showed shorter clotting times with higher calcium ion concentrations, without enhanced activation of the extrinsic clotting pathway. The developed alginate material with calcium effectively supports hemostasis and reduces the risk of infection. The study also explored the capacity of these composites to interact with and modify the structure of plasmid DNA, underscoring their potential for future biomedical applications.

冷冻干燥技术制备的海藻酸钙复合材料的凝血活性及其对 DNA 状态的影响
本研究的目的是采用冷冻干燥法合成海藻酸钙复合材料并对其进行表征,重点研究其在生物医学中的潜在应用。本研究特别探讨了这些复合材料的生化特性,强调了它们在血液凝固中的作用及其与 DNA 的相互作用能力。此外,研究还旨在评估交联过程如何影响复合材料的结构和化学特性。包括显微镜检查、表面积评估和原子吸收光谱分析在内的详细分析取得了重要成果。本研究的目的是考察氯化钙浓度对海藻酸盐复合材料中钙含量的影响。具体来说,研究评估了不同浓度的交联溶液(从 0.5% 到 2%)对复合材料中钙离子饱和度的影响。这项研究对于了解材料的理化性质(包括钙含量、孔隙率和比表面积)至关重要。研究结果旨在确定最佳交联条件,在最大限度提高钙富集效率的同时保持材料的结构完整性。研究发现,在海藻酸盐交联过程中,氯化钙浓度越高,多孔结构的形成就越好,两阶段冷冻干燥也会增强多孔结构的形成。钙含量的增加会导致表面积和孔体积增大,钙含量也会显著增加。此外,活化部分凝血活酶时间(aPTT)检测显示,含钙离子的海藻酸盐复合材料凝血时间缩短,表明其具有作为止血剂的潜力。aPTT 测试表明,钙离子浓度越高,凝血时间越短,而外在凝血途径的激活并没有增强。所开发的含钙海藻酸盐材料可有效支持止血并降低感染风险。该研究还探索了这些复合材料与质粒 DNA 相互作用并改变其结构的能力,从而凸显了它们在未来生物医学应用中的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Marine Drugs
Marine Drugs 医学-医药化学
CiteScore
9.60
自引率
14.80%
发文量
671
审稿时长
1 months
期刊介绍: Marine Drugs (ISSN 1660-3397) publishes reviews, regular research papers and short notes on the research, development and production of drugs from the sea. Our aim is to encourage scientists to publish their experimental and theoretical research in as much detail as possible, particularly synthetic procedures and characterization information for bioactive compounds. There is no restriction on the length of the experimental section.
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