用数学模型分析长时间辐照对凝胶扩散室中造血祖细胞的影响。

D I Bilko, R V Boiko, I Z Russu, I S Dyagil, N M Bilko
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引用次数: 0

摘要

目的:用数学模型比较凝胶扩散室培养的小鼠骨髓造血祖细胞在长时间致死剂量照射后造血功能恢复阶段的功能活性和脾脏集落形成法。材料与方法:采用凝胶扩散室细胞培养法、细胞学方法、数学建模、统计学方法进行研究。取总剂量为8 Gy、辐照功率为0.0028 Gy/min的小鼠股骨骨髓标本,用半固体琼脂扩散室培养于CBA受体小鼠腹腔内。结果:根据数学模型,对比分析了30 d造血恢复过程中凝胶扩散室培养的祖细胞(CFU)与致死性辐照动物脾脏的集落形成效率。对长期暴露于电离辐射后凝胶扩散室中菌落形成动力学的分析表明,造血恢复的双相性质。因此,在辐照后的最初几天,与对照组相比,观察到CFU数量下降,这种情况一直持续到第9天。随后,细胞培养中CFU的数量急剧增加,一直持续到造血功能完全恢复。所获得的数据,每只小鼠股骨重新计算,与K. S. Chertkov描述的辐照动物脾脏中菌落形成的结果相对应,并作为开发我们的数学模型的基础,以及描述造血恢复过程的参数。结论:凝胶扩散室法培养总剂量为8 Gy、功率为0.0028 Gy/min的小鼠骨髓的各项指标与建立数学模型所依据的致死性照射小鼠脾脏集落形成结果相符,证明用数学模型评价不同成熟水平祖细胞造血恢复过程的可行性。在凝胶扩散室中培养CFU的实验方法可以看作是继脾菌落法之后研究造血恢复的一种新方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ANALYSIS OF THE INFLUENCE OF PROLONGED IRRADIATION ON HEMATOPOIETIC PROGENITOR CELLS IN GEL DIFFUSION CHAMBERS USING MATHEMATICAL MODELLING.

Objective: determining of the functional activity of mice bone marrow hematopoietic progenitor cells, cultivated in gel diffusion chambers, on the stages of hematopoiesis recovery after their prolonged irradiation in the lethal dose in a comparative aspect with the method of colony forming in spleen using mathematical model.

Materials and methods: The method of cell cultivation in gel diffusion chambers, cytological methods, mathematical modeling, and statistical methods of research were used. Bone marrow samples extracted from the femur of mice irradiated with a total dose of 8 Gy with a power 0.0028 Gy/min were cultivated in diffusion chambers with semi solid agar in the abdominal cavity of CBA recipient mice.

Results: Comparative analysis of the colonyforming efficiency of progenitor cells (CFU) was carried out during cultivation in gel diffusion chambers in the process of hematopoiesis recovery for 30 days, as well as in the spleen of lethally irradiated animals, in accordance with the mathematical model. Analysis of colony forming kinetics in gel diffusion chambers after prolonged exposure to ionizing radiation indicated the biphasic nature of hematopoiesis recovery. Thus, in the first few days after the irradiation a drop in the number of CFU is observed compared to the control, which continues until the 9th day. Subsequently there is a sharp increase in the number of CFU in cell culture, which continues until the complete recovery of hematopoiesis. The obtained data, recalculated per mouse femur, correspond to the results of colony forming in the spleen of irradiated animals, described by K. S. Chertkov and taken as a basis while developing our mathematical model, as well as to its parameters, which describe the process of hematopoiesis recovery.

Conclusions: Conformity of the indices obtained during the cultivation using the method of gel diffusion chambers of mice bone marrow prolongedly irradiated at a total dose of 8 Gy with a power 0.0028 Gy/min, to the results of colony forming in spleen of lethally irradiated mice, which were the basis for mathematical model development, is the evidence of the feasibility of using a mathematical model to assess the process of hematopoiesis recovery by progenitor cells of different maturation levels, and the experimental approach of CFU growing in gel diffusion chambers can be considered as an additional method of researching the hematopoiesis recovery along with the spleen colony method.

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