EFFECTIVENESS OF THE PHOTON CAPTURE BEAM TECHNOLOGY AND PHOTODYNAMIC IMPACT ON MALIGNANT HUMAN CELLS ІN A RESTING STATE.

Problemy radiatsiinoi medytsyny ta radiobiolohii Pub Date : 2023-12-01 DOI:10.33145/2304-8336-2023-28-206-215

G Y Lavrenchuk, V V Talko, A V Chernyshov

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Abstract

Objective: to investigate the structural and morphofunctional changes in test system of malignant (cell line A-549) human cells in a resting state exposed to X-rays in the presence of gadolinium-containing photon capture agent «Dotavist» and optical light (red spectrum) in combination with «Photolon» photosensitizer.

Methods: Passaged malignant human cell culture technology, X-ray and red light exposure, cytological and statistical methods.

Results: X-ray exposure at a dose of 10.0 Gy in the presence of photon capture agent «Dotavist» (at a 100 μg/ml nutrient medium concentration) led to death of 75-83 % of malignant cells in a resting state on the 6-8th day of cultivation. Photodynamic exposure (630 nm wavelength red light) in the presence of «Photolon» photosensitizer (200 μg/ml concentration) resulted in death of 69-73 % of malignant cells, respectively. Combination of the photon-capturing technology and photodynamic exposure resulted in death of 90 % of the malignant cells in a phase of steady-state growth on the 8th day of cultivation.

Conclusion: Combination of the photon capture technology (X-ray exposure with gadolinium-containing photoncapture agent «Dotavist» in cytotoxic concentration) and photodynamic exposure in the presence of «Photolon» photosensitizer increased devitalization effectiveness of human non-small cell lung cancer cells (A-549 cell line) being in a steady-state growth phase up to 90 %. Ten percent of cells resistant to the applied technologies retained their proliferative potential, evident as changes in their morphology, genotype and adhesiveness during further cultivation.

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光子捕获光束技术的有效性以及对静止状态下恶性人类细胞的光动力影响。

目的：研究在含钆光子捕获剂 "Dotavist "和结合 "Photolon "光敏剂的光学光（红光谱）作用下，静止状态下的恶性人体细胞（细胞系 A-549）暴露于 X 射线的测试系统中的结构和形态功能变化：方法：过继性恶性人体细胞培养技术、X 射线和红光照射、细胞学和统计学方法：结果：在光子捕获剂 "Dotavist"（营养培养基浓度为 100 μg/ml）存在的情况下，剂量为 10.0 Gy 的 X 射线照射导致 75-83%的处于静止状态的恶性细胞在培养的第 6-8 天死亡。在 "Photolon "光敏剂（浓度为 200 微克/毫升）存在的情况下，光动力照射（630 纳米波长的红光）分别导致 69%-73% 的恶性细胞死亡。将光子捕获技术与光动力照射相结合，在培养的第 8 天，90% 处于稳态生长阶段的恶性细胞死亡：光子捕获技术（使用具有细胞毒性浓度的含钆光子捕获剂 "Dotavist "进行X射线照射）与 "Photolon "光敏剂存在下的光动力照射相结合，可使处于稳态生长阶段的人类非小细胞肺癌细胞（A-549细胞系）的凋亡率提高到90%。10%对应用技术有抵抗力的细胞保留了增殖潜能，这在进一步培养过程中表现为细胞形态、基因型和粘附性的变化。

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

Problemy radiatsiinoi medytsyny ta radiobiolohii Medicine-Radiology, Nuclear Medicine and Imaging

CiteScore

0.60

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0.00%

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