Role of Liquid-Liquid Phase Transitions in Mechanism of Erythrocyte Protection During Cooling with CRIHBT-115 Cryopreservative Agent

Q4 Medicine Problems of Cryobiology and Cryomedicine Pub Date : 2021-09-25 DOI:10.15407/cryo31.03.236

O. Khodko

引用次数: 0

Abstract

The presence in the system of critical liquid-liquid phase transition (PT) by the mechanism, resulting in formation of dispersion system, namely high-concentrated emulsion, has been established here during cooling when using polarized light microscopy and fixation of critical opalescence phenomenon in erythrocyte concentrate with glycerol-containing cryopreservative agent, designed at the Central Research Institute of Haematology and Blood Transfusion (Russia) (CRIHBT-115 ). The studied cryobiological system displayed no signs of crystallization. A phase behaviour of cryopreservative and supernatant has been studied during cooling-warming cycle. Changes in the volume of cryopreservative and erythrocyte concentrate were comparatively and qualitatively evaluated during cooling. The mechanism of protective action of cryopreservation solution has been determined. The similarity between physical and chemical processes during cooling-warming of erythrocyte cytoplasm and garlic meristem cells (germinal plant tissue) when entering cold anabiosis has been established.

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液-液相变在CRIHBT-115抗冻剂冷却过程中红细胞保护机制中的作用

在俄罗斯中央血液学和输血研究所(CRIHBT-115)设计的含甘油冷冻保鲜剂对红细胞浓缩物的临界乳光现象进行偏光显微镜和固定的冷却过程中，建立了临界液-液相变(PT)体系中存在的机制，从而形成分散体系，即高浓度乳化液。所研究的低温生物系统没有显示出结晶的迹象。研究了低温保鲜剂和上清液在冷暖循环中的相行为。在冷却过程中，对冷冻保鲜剂和红细胞浓缩物的体积变化进行了比较和定性评价。确定了低温保存液的保护作用机制。红细胞细胞质和大蒜分生组织细胞(植物生发组织)进入低温复苏时的冷暖物理和化学过程具有相似性。

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来源期刊

Problems of Cryobiology and Cryomedicine Medicine-Medicine (miscellaneous)

CiteScore

0.60

自引率

0.00%

发文量

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.