Objective To investigate of causes of allergic response after plasma transfusion in lying-in woman.
目的了解产妇输血浆后发生过敏反应的原因。
The total effective rate of plasma transfusion group and plasma exchange group were 88.61% and 91.18% respectively. The result was not statistically significant (P >0.05).
结果显示,血浆输注组总有效率为88.61%,血浆置换组为91.18%,两组的总有效率经统计学处理无显著性差异(P>0.05)。
Could not a preservative solution be devised in which blood for transfusion and blood intended for plasma could both be collected?
能不能发明一种防腐剂,用于输血用血和生产血浆用血的采集?
CONCLUSIONS Methylene blue photochemical methods can be used to inactivate the main transfusion infected viruses, and the normal activities of plasma still keep at very high level.
结论该方法具有良好的灭活输血传播之病毒的能力,并能保证绝大部分血浆的正常活性。
That shows it is highly important to detect virus in plasma to ensure the quality of blood products and to prevent hepatitis(PTH)after blood transfusion.
因此,加强原料血浆病毒的检测,对提高血液制品的质量,防止临床上输血后肝炎(PTH)的发生至关重要。
The much needed clotting protein from human plasma from carefully screened US donors is purified - this is Humate-P. Measures are taken to lessen the risk of transfusion-transmitted diseases.
这种必须的凝血蛋白,即精制灭菌冻干人抗血友病因子由美国仔细筛选的供体血浆中精制而来,并经处理以降低输血传播疾病的风险。
The much needed clotting protein from human plasma from carefully screened US donors is purified - this is Humate-P. Measures are taken to lessen the risk of transfusion-transmitted diseases.
这种必须的凝血蛋白,即精制灭菌冻干人抗血友病因子由美国仔细筛选的供体血浆中精制而来,并经处理以降低输血传播疾病的风险。
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