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Objective To study the effects of stored blood with low glucose 6-phosphate dehydrogenase (G6PD) activity for exchange transfusion (ET) in neonate hyperbilirubinemia.Method From January 2017 to December 2018,all neonates receiving ET for neonatal hyperbilirubinemia in neonatology department of our hospital were prospectively enrolled.G6PD activity in stored blood and in these neonates were examined.Their demographic information and other clinical data including post-ET total serum bilirubin (TSB) decrease,post-ET phototherapy duration and total hospital stay duration were collected.Result A total of 99 cases were enrolled,51 cases with normal G6PD and 48 G6PD deficiency.Among normal G6PDneonates,those receiving low G6PD activity blood had less decrease of post-ET TSB [(56.9 ± 8.4) % vs.(72.5 ± 14.4) %],longer hospital stay and longer post-ET phototherapy duration [(6.4 ± 2.3) d vs.(4.9 ± 1.3) d,(70.8 ± 36.2) h vs.(52.3 ± 16.3) h] (P < 0.05) than those receiving normal G6PD blood.Among G6PD deficiency neonates,those receiving low G6PD activity blood had less decrease of post-ET TSB [(58.8 ±6.2)% vs.(67.3 ± 13.9)%],longer hospital stay and longer post-ET phototherapy duration [(5.5 ± 2.2) d vs.(4.4 ± 1.4) d,(60.6 ± 25.9) h vs.(47.9 ± 27.9) h] (P < 0.05) than those receiving normal G6PD blood.The G6PD activity in stored blood had significant influences on duration of phototherapy (F =7.695,P =0.007),duration of hospital stay (F =12.528,P =0.001) and decrease of post-ET TSB (F =29.025,P < 0.001).Conclusion ET with low G6PD activity stored blood has less favourable effects with less post-ET TSB decrease and prolonged duration of phototherapy and hospital stay.
RESUMO
Aim: This study assessed the level of plasma haemoglobin concentration in CPDA-1 stored blood with a view to determine the extent of haemolysis during the 35 days storage period. Study Design: This is an observational and comparative case-control study. Place and Duration of Study: The study was conducted using healthy male donors residing in Port Harcourt. Analysis was carried out at the Blood Bank of Rivers State University Teaching Hospital, formerly Braithwaite Memorial Specialist Hospital (BMSH), Port Harcourt, Nigeria, from February 1st to March 8th, 2017. Methodology: Blood for transfusion was collected from prospective male blood donor found to be in good health, aged between 18 and 52 years, with haemoglobin level within the range of 13.5 g/dl – 16 g/dl, body weight within 55 kg – 75 kg, and body temperature within 37.0 to 37.50C / 99.50F, into plastic bags containing anticoagulant CPDA-1, and handled under strict sterile condition to prevent bacterial contamination. The blood was stored in a blood bank refrigerator with a constant temperature of +2 to +60C under proper inspection at intervals for colour, turbidity, haemolysis and clot formation. Two milliliters of the sample was collected aseptically at different interval days of collection from the blood bag and analyzed using the HemoCue photometer. Results: Results showed no significant changes in plasma haemoglogin from day 1, 5, and 10, while significant increase in haemolysis occurred from day 15, 20, 25, 30, and 35 (p = 0.000), a significant increase (p<0.05) in plasma haemoglobin was observed from day 15 to day 35 of storage. Conclusion: It is pertinent therefore to note that the use of CPDA-1 does not completely stop the changes that occur in RBC as there are several changes occurring in stored blood collectively called “storage lesions”. Therefore, it is advisable that blood should be transfused within 14 days of storage to avoid transfusion of blood products that has lost most of its benefits to recipients, and where possible whole blood should be processed and components separated before storage to reduce the level of non-viable red blood cells.
RESUMO
The effect of post-injury transfusion with stored blood on the immune reactionof allo-skin grafted rats was treated,using models of the allo-skin grafted ratswith simple burn injury (15% TBSA) and with combined radiation-burn injury(exposed to 5 Gy systemic irradiation,15% TBSA) respectively.After burninjury and allo-skin graftment,the early cell immune function of the rats signifi-cantly enhanced,the survival time of all the allo-skin grafts was within 7 days.After the rats transfused with stored blood,the degree of their cell immunefunction enhancement was decreased,but there was no significant effect on thesurvival time of allo-skin grafts.However,in the case of allo-skin graftmentsubsequent to combined radiation-burn injury,and then transfusion with storedblood,the multiplying ability of thymocytes and the antibody-producing abilityof splenocytes were depressed significantly and for a long time;the number ofthymocytes,splenocytes,spleen B-cells,T-cells,T_H-cells and Ts-eells were decr-eased rapidly and recovered slowly.And the surviral rate of allo-skin grafts for15 days was 100.0% which was remarkably higher than that of the group subject-ed to simple allo-skin graftment (28.6%,P