[Hybrid wound coating in rehabilitation of severe thermal burns. (An experimental study)].

Q4 Medicine

Voprosy kurortologii, fizioterapii, i lechebnoi fizicheskoi kultury Pub Date : 2024-01-01 DOI:10.17116/kurort202410106240

P A Markov, P S Eremin, I I Vinogradov, A N Nechaev, E A Rozhkova, L A Marchenkova, I R Gilmutdinova, T A Knyazeva, I I Eremin

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引用次数: 0

Abstract

One of the tasks of restorative medicine is the rehabilitation of the body that has suffered from injuries, diseases or adverse environmental effects, and the restoration of the functional reserves of the human body. Currently, a search is underway for new treatment technologies, including the use of wound dressings with specified functional qualities.

Objective: To characterize the effect of a wound dressing based on an ion-track membrane modified with collagen and chitosan nanofibers on the efficiency of skin restoration in experimental animals after a severe thermal burn.

Material and methods: Polyethylene terephthalate film perforated with heavy metal ions (Xe, Kr) on a nuclear particle accelerator was used as a base. The biopolymer layer was applied from the solution using electrospinning. Thermal (120° C, 60 min) treatment was used to stabilize the biolayer. Using light and fluorescence microscopy, the morphometric characteristics of the cells were assessed, and flow cytometry and commercial kits were used to evaluate the expression of cell differentiation markers (CD16, CD14, CD163, CD206). Modeling of a severe thermal burn was performed on laboratory rats.

Results: The main structural element of the biolayer is spontaneously intertwined fibers, 170±40 nm thick. The results of studies conducted in vitro using fibroblasts and monocytic cells of human peripheral blood allow us to draw the following conclusion: the hybrid biomaterial BioTM has qualities that meet the requirements for wound dressings, namely gas permeability, biocompatibility and the ability to inhibit immune-inflammatory cellular reactions. In vivo, it was shown that the hybrid biomaterial BioTM promotes skin restoration in experimental rats after thermal injury. Moreover, the effectiveness of the BioTM biomaterial exceeds therapy using Levomekol ointment.

Conclusions: Thus, based on the results obtained, the following conclusion can be made: the wound coating based on the track membrane and the biocomposite layer inhibits spontaneous activation of monocytes and their differentiation into a proinflammatory phenotype. When integrating the bioplastic material with the synthetic membrane, the functional properties of both types of materials are preserved, which makes it possible to obtain a new type of wound coating with a high regenerative potential that exceeds the effectiveness of traditional burn therapy.

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修复医学的任务之一是使遭受损伤、疾病或不良环境影响的身体得到康复，并恢复人体的功能储备。目前，人们正在寻找新的治疗技术，包括使用具有特定功能质量的伤口敷料：材料与方法：聚对苯二甲酸乙二酯（PET）是一种具有特殊功能的敷料，可用于治疗严重热烧伤：材料：以在核粒子加速器上用重金属离子（Xe、Kr）穿孔的聚对苯二甲酸乙二醇酯薄膜为基底。使用电纺丝技术从溶液中提取生物聚合物层。热处理（120° C，60 分钟）用于稳定生物层。使用光镜和荧光显微镜评估了细胞的形态特征，并使用流式细胞仪和商用试剂盒评估了细胞分化标记（CD16、CD14、CD163、CD206）的表达。在实验鼠身上进行了严重热烧伤建模：生物层的主要结构元素是自发交织的纤维，厚度为 170±40 nm。利用人体外周血成纤维细胞和单核细胞进行的体外研究结果使我们得出以下结论：混合生物材料 BioTM 的质量符合伤口敷料的要求，即透气性、生物相容性和抑制免疫炎症细胞反应的能力。体内实验表明，混合生物材料 BioTM 能促进实验鼠热损伤后皮肤的恢复。此外，BioTM 生物材料的效果超过了使用左旋美高软膏的治疗效果：因此，根据所获得的结果，可以得出以下结论：基于履带膜和生物复合材料层的伤口涂层可抑制单核细胞的自发活化及其向促炎表型的分化。将生物塑料材料与合成膜结合在一起时，两种材料的功能特性都得到了保留，因此可以获得一种新型的伤口涂层，其再生潜力很高，超过了传统烧伤疗法的效果。

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来源期刊

Voprosy kurortologii, fizioterapii, i lechebnoi fizicheskoi kultury Medicine-Medicine (all)

CiteScore

0.60

自引率

0.00%

发文量

期刊介绍： The journal deals with the study of the mechanism of a physiological and therapeutic effect of physical and health resort factors, methods and results of their employment, as well as with theoretical and practical problems involved in the use of exercise therapy in combined treatment of different diseases. The results of research and experience of using physical and health resort methods in medical practice and organization of physiotherapeutic and sanatorial and health resort service, book reviews on physiotherapy, health resort science and exercise therapy are published. Scientific life of allied specialities, proceedings of congresses, conferences, symposia (including foreign), the activity of republican and local societies, etc., are covered.