Optimization of optimal pressure parameters for filtering chyle plasma under low-temperature conditions

[Objective] To explore the optimal pressure parameters for chyle plasma filtration under low-temperature conditions, and to improve the quality of chyle plasma treatment and filtration efficiency by improving experimental methods. [Methods] The filtration efficiency and filtration time of 30 severe...

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Main Authors: GAO Zhanhai, JI Xiaohua, ZHANG Fumin, HUANG Zhanhua, CHENG Wei
Format: Article
Language:zho
Published: Institute of Blood Transfusion of Chinese Academy of Medical Sciences 2025-01-01
Series:Zhongguo shuxue zazhi
Subjects:
Online Access:https://www.cjbt.cn/thesisDetails#10.13303/j.cjbt.issn.1004-549x.2025.01.017&lang=en
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author GAO Zhanhai
JI Xiaohua
ZHANG Fumin
HUANG Zhanhua
CHENG Wei
author_facet GAO Zhanhai
JI Xiaohua
ZHANG Fumin
HUANG Zhanhua
CHENG Wei
author_sort GAO Zhanhai
collection DOAJ
description [Objective] To explore the optimal pressure parameters for chyle plasma filtration under low-temperature conditions, and to improve the quality of chyle plasma treatment and filtration efficiency by improving experimental methods. [Methods] The filtration efficiency and filtration time of 30 severe chyle plasma samples under conventional preparation environment pressure and under preparation environment with a controlled filtration membrane pressure difference of 0.5 bar were compared. [Results] The absorbance of severe chyle plasma samples before and after filtration under two different preparation pressures was statistically significant (P<0.05), and both achieved the expected filtration effect. Under the preparation environment of controlling the pressure difference of the filtration membrane to 0.5 bar, the filtration was faster and with better effect, which was statistically significant compared to the conventional preparation environment pressure (P<0.05). [Conclusion] By selecting the optimal pressure parameters for filtering chyle plasma under low-temperature conditions, the efficiency of chyle plasma filtration under low-temperature conditions has been improved, and the practicality and reliability of low-temperature filtration technology have been enhanced.
format Article
id doaj-art-19ff50e6eb994208a68038c7e7cf6e5d
institution Kabale University
issn 1004-549X
language zho
publishDate 2025-01-01
publisher Institute of Blood Transfusion of Chinese Academy of Medical Sciences
record_format Article
series Zhongguo shuxue zazhi
spelling doaj-art-19ff50e6eb994208a68038c7e7cf6e5d2025-01-27T01:46:12ZzhoInstitute of Blood Transfusion of Chinese Academy of Medical SciencesZhongguo shuxue zazhi1004-549X2025-01-0138110110510.13303/j.cjbt.issn.1004-549x.2025.01.0171004-549X(2025)1-0101-05Optimization of optimal pressure parameters for filtering chyle plasma under low-temperature conditionsGAO Zhanhai0JI Xiaohua1ZHANG Fumin2HUANG Zhanhua3CHENG Wei4Langfang Central Blood Station, Langfang 065000, ChinaLangfang Health Vocational College, Langfang 065000, ChinaLangfang Central Blood Station, Langfang 065000, ChinaLangfang Central Blood Station, Langfang 065000, ChinaLangfang Central Blood Station, Langfang 065000, China[Objective] To explore the optimal pressure parameters for chyle plasma filtration under low-temperature conditions, and to improve the quality of chyle plasma treatment and filtration efficiency by improving experimental methods. [Methods] The filtration efficiency and filtration time of 30 severe chyle plasma samples under conventional preparation environment pressure and under preparation environment with a controlled filtration membrane pressure difference of 0.5 bar were compared. [Results] The absorbance of severe chyle plasma samples before and after filtration under two different preparation pressures was statistically significant (P<0.05), and both achieved the expected filtration effect. Under the preparation environment of controlling the pressure difference of the filtration membrane to 0.5 bar, the filtration was faster and with better effect, which was statistically significant compared to the conventional preparation environment pressure (P<0.05). [Conclusion] By selecting the optimal pressure parameters for filtering chyle plasma under low-temperature conditions, the efficiency of chyle plasma filtration under low-temperature conditions has been improved, and the practicality and reliability of low-temperature filtration technology have been enhanced.https://www.cjbt.cn/thesisDetails#10.13303/j.cjbt.issn.1004-549x.2025.01.017&lang=enlow-temperaturechyle plasmafiltration membrane pressure difference
spellingShingle GAO Zhanhai
JI Xiaohua
ZHANG Fumin
HUANG Zhanhua
CHENG Wei
Optimization of optimal pressure parameters for filtering chyle plasma under low-temperature conditions
Zhongguo shuxue zazhi
low-temperature
chyle plasma
filtration membrane pressure difference
title Optimization of optimal pressure parameters for filtering chyle plasma under low-temperature conditions
title_full Optimization of optimal pressure parameters for filtering chyle plasma under low-temperature conditions
title_fullStr Optimization of optimal pressure parameters for filtering chyle plasma under low-temperature conditions
title_full_unstemmed Optimization of optimal pressure parameters for filtering chyle plasma under low-temperature conditions
title_short Optimization of optimal pressure parameters for filtering chyle plasma under low-temperature conditions
title_sort optimization of optimal pressure parameters for filtering chyle plasma under low temperature conditions
topic low-temperature
chyle plasma
filtration membrane pressure difference
url https://www.cjbt.cn/thesisDetails#10.13303/j.cjbt.issn.1004-549x.2025.01.017&lang=en
work_keys_str_mv AT gaozhanhai optimizationofoptimalpressureparametersforfilteringchyleplasmaunderlowtemperatureconditions
AT jixiaohua optimizationofoptimalpressureparametersforfilteringchyleplasmaunderlowtemperatureconditions
AT zhangfumin optimizationofoptimalpressureparametersforfilteringchyleplasmaunderlowtemperatureconditions
AT huangzhanhua optimizationofoptimalpressureparametersforfilteringchyleplasmaunderlowtemperatureconditions
AT chengwei optimizationofoptimalpressureparametersforfilteringchyleplasmaunderlowtemperatureconditions