THE USE OF 5-AMINOLEVULINIC ACID GEL IN THE TREATMENT OF DIABETIC FOOT SYNDROME

Q4 Medicine

Problemi Endokrinnoi Patologii Pub Date : 2022-12-15 DOI:10.21856/j-pep.2022.4.10

Y. Ivanova, S. Gramatiuk, V. Prasol, I. Kryvoruchko, K. Miasoiedov, Christine Mitchell, Gabriel A Hartl, K. Sargsyan

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引用次数: 1

Abstract

Background. Diabetes mellitus affects almost all body systems, but the most dramatic complications occur in the lower extremities. Diabetic foot syndrome takes the leading position in the list of complications of diabetes mellitus, leading to early disability and mortality. At present, a new technology - photodynamic therapy is being intensively developed worldwide. This technique can be used in many different fields of medicine, including purulent surgery. This study aimed to investigate the possibility of using 5-aminolevulinic acid as an photosensitizer in photodynamic therapy in the complex treatment of chronic wounds in patients with ischemic and mixed forms of diabetic foot syndrome. Materials and Methods. In 2021, 10 patients with type 2 diabetes mellitus and ischemic and mixed forms of diabetic foot syndrome of both sexes, aged 52 to 75 years, were observed. As a preparation for photodynamic therapy, daily dressings with hydrogel were applied (3-5 days). During this period, limb revascularization was performed, the aim of which was to restore the blood flow to the foot, preferably through the anterior or posterior tibial artery. After the restoration of the main blood flow, photodynamic therapy was performed: after sanitation of the wound surface with physiological NaCl solution, Levuderm gel (6% gel phosphate of 5-aminolaevulinic acid) was applied and covered with occlusive dressing for 2 hours, after which the gel remains were removed and irradiation with Korobov photonic matrices "Barva Flex" with 660 nm wave length was carried out. Energy applied to the wound averaged 30-40 J/cm2. The light power density was between 0.1-1.0 W/cm2, and the exposure time varied according to the wound area. Results. After photodynamic therapy on days 2-3, perifocal oedema decreased. By days 5-7, the quality of granulation and the degree of wound epithelialization significantly improved. The wound healing rate on days5-7 of treatment was 1,58±0,44, and on days 10-12 - 4,72±0,63 (p <0,01). The evaluation of the wound healing rate showed good and satisfactory results: By day 32, the wound in the study group was completely epithelialized in the majority of patients (88.9%). Conclusions. The method we have developed for treating chronic wounds using photodynamic therapy is pathogenetically feasible and highly effective compared to conventional therapies. Combined light exposure using photosensitizer stimulates the formation of reactive oxygen species, increasing the effect of phagocytic cells, which is manifested in the activation of neutrophil chemotaxis, adhesion, and endocytosis. photodynamic therapy using aminolaevulinic acid as a photosensitizer, enhances molecular mechanisms of intercellular interaction at all stages of primary immunity activation.

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5-氨基乙酰丙酸凝胶治疗糖尿病足综合征

背景糖尿病几乎影响所有的身体系统，但最严重的并发症发生在下肢。糖尿病足综合征在糖尿病并发症列表中处于领先地位，导致早期残疾和死亡。目前，一种新技术——光动力疗法正在全球范围内得到深入发展。这项技术可以用于许多不同的医学领域，包括化脓性手术。本研究旨在探讨在光动力疗法中使用5-氨基乙酰丙酸作为光敏剂对缺血性和混合型糖尿病足综合征患者的慢性伤口进行复杂治疗的可能性。材料和方法。2021年，观察了10名年龄在52至75岁之间的2型糖尿病和缺血性及混合型糖尿病足综合征患者。作为光动力治疗的制剂，每天使用水凝胶敷料（3-5天）。在此期间，进行了肢体血运重建，目的是恢复足部的血流，最好是通过胫骨前动脉或后动脉。主血流量恢复后，进行光动力治疗：用生理盐水溶液清洁伤口表面后，涂抹Levuderm凝胶（6%5-氨基乙酰丙酸凝胶磷酸盐），并用封闭敷料覆盖2小时，之后去除凝胶残留物，并用波长为660nm的Korobov光子基质“Barva Flex”进行照射。施加在伤口上的能量平均为30-40J/cm2。光功率密度在0.1-1.0W/cm2之间，并且暴露时间根据伤口面积而变化。后果光动力治疗后第2-3天，局灶周围水肿减少。到第5-7天，肉芽质量和伤口上皮化程度显著改善。治疗第5-7天的伤口愈合率为1,58±0,44，第10-12天为4,72±0,63（p<0.01）。对伤口愈合率的评估显示了良好和令人满意的结果：到第32天，研究组的大多数患者（88.9%）的伤口完全上皮化。与传统疗法相比，我们开发的使用光动力疗法治疗慢性伤口的方法在病因上是可行的，并且非常有效。使用光敏剂的联合光照刺激活性氧的形成，增加吞噬细胞的作用，表现为中性粒细胞趋化性、粘附和内吞的激活。使用氨基乙酰丙酸作为光敏剂的光动力疗法，增强了初级免疫激活各个阶段细胞间相互作用的分子机制。

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来源期刊

Problemi Endokrinnoi Patologii Medicine-Endocrinology, Diabetes and Metabolism

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0.50

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0.00%

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