Nanocrystalline Cerium Dioxide Affects Erythrocyte Membrane State Under Blood Hypothermic Storage

Q4 Medicine Problems of Cryobiology and Cryomedicine Pub Date : 2022-12-30 DOI:10.15407/cryo32.04.267

O. Falko, A. Kovalenko, Tatyana Ovsiannikova, V. Klochkov, Viktor Chyzhevsky

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Abstract

Here, we have studied the impact of nanocrystalline cerium dioxide (NCD) particles on erythrocyte membrane state in a model of hypothermic storage of blood samples by examining the content of lipid peroxidation (LPO) primary products and hematological indices (free and total hemoglobin, hematocrit and hemolysis levels). After hypothermic storage of blood samples within 5 weeks, no significant difference in hematological indices between the control and experimental groups was revealed. In 2 weeks of hypothermic storage, the cells from experimental group in NCD presence showed an increased content of mainly those primary LPO products, which precursors were polyunsaturated fatty acids with two double bonds (conjugated dienes and oxidienes), thereby indicating the free radical processes activation. Four weeks’ storage demonstrated significantly decreased content of all primary LPO products in the experimental group cells in contrast to the control group. To the final step of the study (5 weeks of storage), the content of all primary LPO products in experimental and control groups was similar, that was an evidence of the ability of NCD particles to affect the erythrocyte membrane as well change the LPO intensity depending on storage period.

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纳米二氧化铈对血液低温储存条件下红细胞膜状态的影响

在此，我们通过检测脂质过氧化(LPO)初级产物的含量和血液学指标(游离和总血红蛋白、红细胞压积和溶血水平)，研究了纳米晶二氧化铈(NCD)颗粒对血液样本低温储存模型中红细胞膜状态的影响。低温贮藏5周后，对照组与试验组血液学指标无显著差异。低温保存2周后，NCD存在的实验组细胞主要表现为LPO初级产物含量的增加，其前体是具有两个双键的多不饱和脂肪酸(共轭二烯和氧化烯)，表明自由基过程被激活。与对照组相比，4周的储存表明实验组细胞中所有初级LPO产物的含量显著降低。在研究的最后一步(储存5周)，实验组和对照组所有初级LPO产物的含量相似，这证明NCD颗粒能够影响红细胞膜，并根据储存时间改变LPO强度。

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来源期刊

Problems of Cryobiology and Cryomedicine Medicine-Medicine (miscellaneous)

CiteScore

0.60

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0.00%

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期刊介绍： The Journal publishes the reviews and original papers on cryobiological and cryomedical research, in particular the elucidation of mechanisms of injuries occurring in biological objects and caused by the influence of low and ultra low temperatures; natural resistance of biologicals to cold and their recovery post effect; the development of effective methods of cryoprotection and technology of storage of biological resources under hypothermic and ultra low temperatures, application of hypothermia, cryotherapy and cryopreserved biologicals for treating various pathologies; cell and tissue based therapies and other issues of low-temperature biology and medicine, as well as development of devices and equipment for low temperature biology and medicine. The journal covers all topics related to low temperature biology, medicine and engineering. These include but are not limited to: low temperature storage of biologicals (human, animal or plant cells, tissues, and organs), including preparation for storage, thawing/warming, cell and tissue culturing etc. response of biologicals to low temperature; cold adaptation of animals and plants; utilisation of low temperature in medicine; experimental and clinical transplantation, cell and tissue based therapies; developing of cryobiological and cryomedical devices; organisation and functioning of low temperature banks etc.