Possibility of nanostructured lipid carriers encapsulating astaxanthin from Haematococcus pluvialis to alleviate skin injury in radiotherapy.

International journal of radiation biology Pub Date : 2024-01-01 Epub Date: 2024-01-29 DOI:10.1080/09553002.2023.2267650

Ngoc-Bich-Dao Vu, Ngoc-Duy Pham, Thi-Ngoc-Mai Tran, Xuan-Hai Pham, Dai-Nghiep Ngo, Minh-Hiep Nguyen

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Abstract

Purpose: The study aimed to protect patients' skin against ionizing irradiation during radiotherapy by using astaxanthin-encapsulated nanostructured lipid carriers (NLC-ATX).

Materials and methods: NLC-ATX was prepared by a combined method of hot homogenization and sonication. Cytotoxicity of NLC-ATX was evaluated by MTT colorimetric assay. The in vitro radioprotection of NLC-ATX for human fibroblast (HF) cells was investigated based on the level of ROS (reactive oxygen species), DNA damage, and cell death caused by X-irradiation. In addition, the in vivo radioprotection was evaluated based on the appearance and histological structure of the irradiated skin.

Results: NLC-ATX was successfully prepared, with a mean particle size, zeta potential, and encapsulation efficiency of 114.4 nm, -34.1 mV, and 85.67%, respectively. Compared to the control, NLC-ATX, at an optimum ATX concentration under in vitro condition, reduced the amount of generated ROS and DNA damage of 81.6% and 41.6%, respectively, after X-radiation, resulting in a significant decrease in cell death by 62.69%. Under in vivo condition, after the 9th day of X-irradiation (equivalent to an accumulated dose of 14 Gy), the dorsal skin of five out of six NLC-ATX-untreated mice exhibited grade-1 skin damage, according to CTCAE v5.0, while treatment with NLC-ATX protected 6/6 mice from acute skin damage. Moreover, on the 28th day after the first X-irradiation, the histological images illustrated that NLC-ATX at an ATX concentration of 0.25 µg/mL exhibited good recovery of the skin, with barely any difference noted in the collagen fibers and sebaceous glands compared to normal skin.

Conclusions: NLC-ATX shows potential for application in skin protection against adverse effects of ionizing rays during radiotherapy.

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包埋雨生红球藻虾青素的纳米脂质载体减轻放射治疗中皮肤损伤的可能性。

目的：本研究旨在通过使用虾青素包埋的纳米结构脂质载体（NLC-ATX）来保护患者的皮肤在放疗期间免受电离辐射。材料与方法：采用热均化和超声处理相结合的方法制备NLC-ATX。MTT比色法测定NLC-ATX的细胞毒性。基于活性氧（ROS）水平、DNA损伤和X射线照射引起的细胞死亡，研究了NLC-ATX对人成纤维细胞（HF）的体外辐射保护作用。此外，根据辐照皮肤的外观和组织学结构评估体内辐射防护。结果：成功制备了NLC-ATX，其平均粒径、ζ电位和包封效率为114.4 nm，-34.1 mV和85.67%。与对照组相比，在体外条件下，在最佳ATX浓度下，NLC-ATX在X射线照射后分别减少了81.6%和41.6%的ROS产生量和DNA损伤，使细胞死亡显著减少62.69% Gy），根据CTCAE v5.0，6只NLC-ATX未治疗的小鼠中有5只的背部皮肤表现出1级皮肤损伤，而用NLC-ATX治疗保护了6/6只小鼠免受急性皮肤损伤。此外，在第一次X射线照射后的第28天，组织学图像显示，ATX浓度为0.25µg/mL的NLC-ATX表现出良好的皮肤恢复，与正常皮肤相比，胶原纤维和皮脂腺几乎没有任何差异。结论：NLC-ATX在放射治疗中对电离射线的不良反应具有潜在的皮肤保护应用潜力。

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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International journal of radiation biology

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