Objective To observe and analyze the influence of the improved ultra-low temperature storage box on the quality of fresh frozen plasma(FFP).Methods A total of 80 qualified whole blood samples(400 mL,O type not includ-ed)collected from July to November in 2023 were selected,and were divided into 4 groups,with 20 samples in each group.Group A:quick-frozen in a traditional low temperature box for 1 hour and then stored in a-30℃cold storage;Group B:quick-frozen in the flat freezer for 1 hour and then stored in a-30℃cold storage;Group C:quick-frozen in a newly im-proved ultra-low temperature storage box for 1 hour and stored in a-30℃cold storage;Group D:quick-frozen in a new im-proved ultra-low temperature storage box for 12 hours and stored in a-30℃cold storage.The contents of FⅧand fibrinogen(Fg)in four groups were detected.Results The contents of FⅧin group B,C and D were significantly higher than those in group A,with statistical difference(P＜0.05),but with no statistical difference among gourp B,C and D(P＞0.05),and no statistical difference in the contents of Fg was found among the four groups(P＞0.05).Conclusion The improved ultra-low temperature storage box is superior to the traditional low temperature box in preparing FFP,and there is no obvious difference between the improved ultra-low temperature storage box and the flat-plate quick freezer.However,the improved ultra-low temperature storage box can make the process of preparing FFP more flexible and improve the efficiency of compo-nent preparation.

【Objective】 To study the concentration, content and yield of coagulation factor Ⅷ(FⅧ) and fibrinogen(Fg) in 25 mL and 45 mL cryoprecipitate. 【Methods】 Forty aliquots(200 mL fresh whole blood) were divided into group A and group B, with 20 samples in each group. Fresh frozen plasma(FFP) was prepared within 6 hours(anticoagulant ACD) according to the standard operating procedure for component preparation. After one week, the prepared FFP was prepared into(25±5) mL and(45±5) mL cold precipitates by siphon method. After freezing for one week, the concentrations of FⅧ and Fg were detected after meltingin by water bath at 37℃, and the content and yield were calculated. 【Results】 The FⅧ concentration, content and yield in group A and group B were(2.990±0.988) vs(2.744±0.940) IU/mL, (74.75±24.71) vs(113.75±30.06)IU, and(70.1±16.6) vs(85.0±7.6)%, respectively.The Fg concentration, content and yield was(6.013±1.679) vs(5.844±0.683) g/L, (150.33±41.99) vs(252.23±26.90)mg, and(41.7±8.6) vs (49.1±9.6)%, respectively. Statistical analysis suggested that the content and yield of FⅧ and Fg were statistically different between the two groups(P<0.05), but the concentration of FⅧ and Fg was not statistically different(P>0.05). 【Conclusion】 FⅧ and Fg of low-volume cryoprecipitate presented lower content and yield, but slightly higher concentration. Both products can meet the quality requirements of whole blood and blood component. Therefore, reducing product capacity appropriately is suggested when preparing cryoprecipitate with 200mL whole blood