Complement activation in prestorage leucocyte-filtered plasma

Complement activation and generation of pro-inflammatory cytokines occur during storage of blood components. Prestorage leucocyte filtration of platelet concentrates and red cells diminishes the accumulation of leucocyte-derived cytokines during storage, however, transfusion reactions are not eliminated. We investigated inflammatory mediator release during storage of plasma and whole blood and the effect of prestorage leucocyte filtration of plasma. Twenty-four blood units were collected from healthy blood donors and stored for 35 days. Eight units were stored as whole blood, eight units as plasma and eight units as prestorage filtered plasma. Samples were collected weekly for analyses of potassium, leucocytes, free plasma haemoglobin, complement activation (C3a and SC5b-9) and pro-inflammatory cytokines [interleukin (IL)-6, IL-8 and tumor necrosis factor (TNF)-alpha]. Elevated levels of C3a and SC5b-9 were registered in filtered plasma, from the beginning of storage. C3a levels increased during storage. There was a higher rate of change during storage in C3a (P < 0.01) and SC5b-9 (P < 0.05) in plasma compared with filtered plasma. Interleukin (IL)-8 is released in whole blood. The cytokine levels generated in plasma and filtered plasma were low. Complement activation is present in whole blood, plasma and filtered plasma during storage. Prestorage filtration of plasma activates the complement cascade but does not influence cytokine generation.     

Improved preservation of coagulation factors after pre-storage leukocyte depletion of whole blood.

Plasma and red blood cell quality are affected both by citrate concentration and the levels of extracellular leukocyte and platelet derived substances, accumulated during storage of blood. The effect of leukocyte filtration on the storage stability of whole blood was therefore studied in blood collected in standard CPD and 0.5CPD (CPD with half strength citrate concentration). A total of 52 units, 12 of them with reduced citrate concentration, were leukocyte-filtered with Pall( whole blood filter (WBF1 or 3). No differences in leukocyte or platelet reduction were observed with the two citrate concentrations. However, with 0.5CPD a significantly longer filtration time and increased complement activation was observed. The effect of pre-storage leukocyte filtration on the plasma quality of whole blood was therefore only studied with standard CPDA1 anticoagulant solution (normal strength citrate concentration). Leukocyte filtration did not affect the von Willebrand factor concentration, while a small reduction (7%, p=0.04) in factor VIII (FVIII) concentration was observed. During storage, however, FVIII decreased more slowly in the filtered than in the unfiltered product, and, from day two, the FVIII content was significantly higher in the filtered product (46% versus 30% at 28 days, p<0.001). Factor V (FV) demonstrated a 16% reduction (p<0.001) upon filtration, followed by an additional 8% in the next 24 h and only a 4% reduction the next 27 days, while unfiltered products demonstrated a continuous reduction to 26% at 28 days. While the beta-thromboglobulin (beta-TG) concentration significantly increased (from 836 to 2483 IU/ml, p<0.001) during leukocyte filtration, no further increase was observed during storage. In contrast, unfiltered products demonstrated an increase to 5762 IU/ml (p<0.001) at 14 days, followed by a slight, not significant, reduction. This indicates platelet activation during filtration and explains a parallel reduction in FV. Filtration induced no increase in prothrombin fragment 1+2, while a slight increase was observed in some unfiltered products after 28 days of storage.Pre-storage leukocyte depletion thus improves the coagulation factor content of plasma in stored whole blood.     

Stored packed red blood cells contain a procoagulant phospholipid reducible by leukodepletion filters and washing.

BACKGROUND: Ageing RBC gradually increase the exposure of phosphatidylserine (PS) on their surface, due to loss of membrane asymmetry. PS expression on red cells is not normally a significant factor in the hemostatic process, because aged RBC are rapidly cleared from the circulation. We propose that the presence of many altered red cells during massive transfusion can lead to increased procoagulant activity similar to what is seen in disease states where it is known to play a pathophysiologic role in microvascular disease. STUDY DESIGN AND METHODS: Procoagulant activity of phospholipid generated during storage of PRBC was evaluated using PRBC's as the only source of phospholipid in the determination of modified Russell's viper venom times of 10 PRBC units in which half of each unit was left unfiltered and half of each unit filtered. Florescent labeled annexin V binding by PRBC was also assessed by flow cytometry over time in storage. The effect of washing and filtration on these parameters was also determined. RESULTS: As time of storage increased, the Russell's viper venom time of both the unfiltered and filtered units shortened (p<0.01). There was a significant lengthening of the Russell's viper venom time at all time points measured when unfiltered units were compared to filtered units (p<0.01). In both unfiltered and filtered units, with increased length of storage, there was a gradual increase in the percentage of cells or particles binding annexin V (p<0.01). Filtration resulted in a significant reduction in the percentage of cells or particles binding annexin V at all time points measured (p<0.01). The effect of washing of PRBC units on the RVVT was assessed for unfiltered and filtered units on day 42. Washing resulted in a significant reduction of the RVVT in both unfiltered and filtered groups (p<0.01). CONCLUSIONS: Levels of annexin V binding and procoagulant phospholipid activity similar to levels seen in disease states associated with significant vasoocclusive pathophysiology were found toward the end of the storage period of PRBC units. It was possible to reduce both of these parameters by leukodepletion at collection, and with washing of PRBC at the end of storage. Filtration at collection resulted in a 67% increase in RVVT over unfiltered units by day 42 of storage. On day 42 of storage, washing of filtered units resulted in a 21% increase in RVVT, and washing of unfiltered units resulted in a 34% increase in RVVT. The effects seen with filtration and washing were additive suggesting that in spite of filtration at collection, deterioration of cells continues based on age since further removal of phospholipid can be induced with washing of filtered units on day 42.     

Prevention of growth of Yersinia enterocolitica in blood by polyester fiber filtration

The ability of polyester white cell-reduction blood filters to prevent the growth of Yersinia enterocolitica in units of donated blood was studied. Sixteen units of freshly drawn blood were inoculated with 10, 50, 100, or 150 colony-forming units (CFU) per mL of a clinical isolate of Y. enterocolitica (serotype O:3). The units were subsequently fractionated into red cell concentrate and resuspended in AS-1 or AS-3 solution. One-half of the red cell concentrates in each solution were filtered within 15 hours of phlebotomy and stored for 42 days. The remaining units served as unfiltered controls. Bacterial growth was monitored by weekly cultures and, on the last storage day, by the presence of endotoxin and the formation of methemoglobin. One hundred twelve primary cultures (560 plates) were performed. Units collected in AS-1 and filtered remained sterile when initially inoculated with 50 CFU or less. Filtered units spiked with 100 CFU or less and collected in AS-3 remained sterile throughout their shelf life. All unfiltered units supported bacterial growth and the formation of endotoxin and methemoglobin. The filtration of freshly donated blood proves to limit the growth of Y. enterocolitica in red cell components.     

Reduction in potassium concentration of stored red blood cell units using a resin filter

BACKGROUND: Hyperkalemia is a serious complication of rapid and massive blood transfusion due to high plasma potassium (K) in stored red blood cell (RBC) units. A potassium adsorption filter (PAF) was developed in Japan to remove K by exchanging with sodium (Na). We performed an in vitro evaluation of its efficacy and feasibility of use. STUDY DESIGN AND METHODS: Three AS‐3 RBC units were filtered by each PAF using gravity; 10 PAFs were tested. Blood group, age, flow rate, and irradiation status were recorded. Total volume, K, Na, Cl, Mg, total Ca (tCa), RBC count, hemoglobin (Hb), hematocrit (Hct), and plasma Hb were measured before and after filtering each unit. Ionized Ca (iCa), pH, and glucose were measured for some units. RESULTS: After filtration, the mean decrease in K was 97.5% in the first RBC unit, 91.2% in the second unit, and 64.4% in the third unit. The mean increases in Na, Mg, and tCa were 33.0, 151.4, and 116.1%, respectively. iCa and pH remained low; glucose was unchanged. RBC count, Hb, and Hct decreased slightly after filtration of first units; plasma Hb was unchanged. After filtration, there was no visual evidence of increased hemolysis or clot formation. CONCLUSION: The PAF decreased K concentration in stored AS‐3 RBC units to minimal levels in the first and second RBC units. Optimally, one filter could be used for 2 RBC units. Although Na increased, the level may not be clinically significant. PAF may be useful for at‐risk patients receiving older units or blood that has been stored after gamma irradiation.     

Prestorage removal of Yersinia enterocolitica from red cells with white cell-reduction filters

Prestorage removal of phagocytic white cells (WBCs) may increase the survivability of contaminating bacteria in units of stored red cells. Fourteen units of whole blood were inoculated with 65 colony-forming units per mL of Yersinia enterocolitica (serotype O:3) and processed into AS-3-preserved red cells. Five red cell units were filtered with a prototype third-generation filter and five red cell units with a second generation filter. WBC reduction was performed on the day of collection. Four red cell units were not filtered. Three noninoculated whole blood units served as negative controls; two were filtered (one with each type of WBC-reduction filter) and one remained unfiltered. All red cell units were then stored at 4 degrees C for 42 days. One of the five filtered red cell units (20%) in each filter group supported growth of Y. enterocolitica. In contrast, 4 (100%) of 4 unfiltered inoculated red cell units had growth (p = 0.04). Overall, 2 (20%) of 10 units of WBC-reduced red cells supported the growth of Y. enterocolitica, as compared to 100 percent of unfiltered red cell units after inoculation (p = 0.015). Bacterial contamination was not detected in any of the three noninoculated units. It can be concluded that prestorage WBC filtration significantly reduces the potential for growth of Y. enterocolitica in red cells stored at 4 degrees C for 42 days.     

In-line filtration of autologous whole blood

BACKGROUND: Experimental data suggest that autologous white blood cells (WBCs) might exert an immunomodulatory effect. Leukodepletion of autologous blood is considered to prevent this unwanted side effect of autologous transfusion. In some cases, however, prolonged filtration or filtration failures occur. Because such autologous units cannot simply be discarded, the interest was in the storage variables of autologous whole blood (AWB) units after prolonged filtration. STUDY DESIGN AND METHODS: AWB of patients undergoing orthopedic surgery was leukodepleted before storage or left unmodified. Filtration times, volume, WBC count, hemoglobin level, hemolysis, potassium, and ATP were determined in all units with filtration times of more than 60 minutes that had not been transfused by the time of expiry and in representative samples of units that had been filtered normally or that had not been filtered. RESULTS: In AWB filtration, the rate of prolonged filtrations or filter blockades is three to four times higher than in allogeneic whole-blood filtration. Filtration or prolonged filtration leads to a mean loss of red blood cell (RBC) mass of 7.3 or 18.2 percent, respectively. Even in units with filtration times of more than 3 hours, storage variables were not significantly different from normally filtered or unfiltered units. Filtration times showed a high intraindividual correlation. CONCLUSION: Leukodepletion of AWB results in a diminished preoperative deposit of RBCs that is pronounced in units with prolonged filtration. The quality of the latter suggests that it is not justified to discard AWB units with prolonged filtration times. Prolonged filtrations are related to patient characteristics that have yet to be defined.     

Increasing hemoglobin oxygen saturation levels in sickle trait donor whole blood prevents hemoglobin S polymerization and allows effective white blood cell reduction by filtration

BACKGROUND Red blood cell (RBC) components from donors with sickle cell trait (Hb AS) often occlude white blood cell (WBC) reduction filters. Techniques were investigated to successfully filter Hb AS donor blood by increasing the Hb oxygen saturation with storage bags and conditions suitable for transfusion products. STUDY DESIGN AND METHODS: Oxygenation kinetics were measured over 3 days in whole-blood units stored in standard-sized 600-mL polyvinylchloride (PVC) bags and whole-blood units divided into three equal parts and stored in standard-sized blood bags made from PVC, tri-2-(ethylhexyl)trimellitate (CLX) plastic, or Teflon. The filterability of Hb AS blood stored for 3 days was tested with whole-blood filters. RESULTS: Oxygen saturation levels did not increase in full whole-blood units from donors without sickle cell trait during 3 days of storage in 600-mL PVC bags. In divided Hb AS whole-blood units stored for 3 days, oxygen saturation levels increased from baseline levels of 45 to 56, 66, and 94 percent after storage in 600-mL PVC, CLX, and Teflon bags, respectively (n = 5, p < 0.02), and all components filtered completely. When full Hb AS whole-blood units from eight donors were stored for 3 days in 1.5-L CLX bags, all units filtered completely, but one had a high residual WBC count. CONCLUSION: Storage of Hb AS whole blood in large-capacity oxygen-permeable bags increases oxygen tension and allows more effective WBC reduction by filtration.     

Effects of prestorage white cell reduction on platelet aggregate formation and the activation state of platelets and plasma enzyme systems

BACKGROUND: The introduction of prestorage white cell (WBC) reduction in random-donor platelet concentrates in Canada has increased the occurrence of particulate material in PCs. The effects of filtration on platelet activation state and the activation of plasma enzyme systems were assessed. STUDY DESIGN AND METHODS: Particulate material was examined by light microscopy, electron microscopy, protein electrophoresis, and biochemical analysis. Thirty PCs (10 unfiltered, 20 filtered) were examined during processing and 5-day storage for pH, platelet count and mean volume, morphology, activation marker expression, and hypotonic shock response. Complement activation, thrombin generation, and fibrinolysis were assessed by using specific enzyme immunoassays or chromogenic assays. RESULTS: By all analyses, the particulate material appeared to be platelet aggregates. Platelets exposed to WBC-reduction filters expressed a significantly higher level of activation markers CD62 and CD63, altered morphology, and increased platelet microparticles throughout the storage period than did unfiltered platelets. Complement activation at the C3 level was significantly increased in filtered units with little evidence of coagulation or fibrinolytic system activation. CONCLUSION: Exposure of platelets to filters during prestorage WBC reduction increased platelet activation and mildly increased complement activation over the levels during the storage period. These alterations can contribute to the formation of irreversible platelet aggregates during processing.     

Infusion of P-Capt prion-filtered red blood cell products demonstrate acceptable in vivo viability and no evidence of neoantigen formation

BACKGROUND: Transmission of variant Creutzfeldt‐Jacob disease (vCJD) is a major concern in blood transfusion. The P‐Capt filter has been shown to remove around 4 log ID₅₀ prion infectivity from prion‐spiked human red blood cells (RBCs). STUDY DESIGN AND METHODS: Two independent, single‐center, randomized, open‐label studies were designed to analyze the safety of P‐Capt–filtered RBCs. RBCs prepared from leukoreduced whole blood from 43 eligible subjects were randomly assigned to P‐Capt filtration and/or storage in plasma or SAGM and stored for 28 or 42 days. Stored RBCs were analyzed for in vivo 24‐hour recovery, hemolysis, metabolic variables, blood group antigen expression, neoantigen formation, and safety after autologous infusion. RESULTS: Mean P‐Capt filtration times for leukoreduced RBCs were 41 (SAGM) to 51 (plasma) minutes. Thirteen of 14 subjects receiving P‐Capt–filtered RBCs had 24‐hour RBC recoveries of 75% or more after 42‐day storage, with a mean hemolysis of less than 0.6%. No loss of RBC antigen expression or formation of neoantigens was observed. In both studies, RBCs had white blood cell counts of less than 1 × 10⁶/unit after leukofiltration. P‐Capt prion filtration provided an additional greater than 0.8 log leukoreduction. No serious or unexpected adverse events were observed after infusion of P‐Capt–filtered full‐volume RBC units. CONCLUSIONS: P‐Capt–filtered, stored RBCs demonstrated acceptable viability and no detectable neoantigen expression, immunogenic responses. or safety issues after infusion of a complete unit. The additional filtration time and modest reduction in RBC content are within acceptable levels for implementation in countries with transfusion transmission of vCJD.     

Transfusion of stored red blood cells adhere in the rat microvasculature

BACKGROUND: Ex vivo storage of red blood cells (RBCS) for transfusions is associated with a “storage lesion,” which decreases RBC deformability and increases RBC adhesiveness to vascular endothelium. This may impair microcirculatory flow with deleterious effects on oxygen delivery after transfusion. Previous studies have shown that human RBCs adhere to endothelial monolayers in vitro with prolonged storage and is reduced by prestorage leukoreduction (LR). The objective of this study was to determine whether duration of RBC storage and LR influence RBC adhesion in vivo in capillaries. STUDY DESIGN AND METHODS: Rat RBCs were collected and stored in CPDA‐1 under standard blood bank conditions. Three RBC products were compared: 1) fresh RBCs, less than 24 hours of storage (n = 6); 2) nonleukoreduced (NLR) RBCs stored for 7 days (n = 6); and 3) prestorage LR RBCs stored for 7 days (n = 6). RBCs were labeled with fluorescein isothiocyanate (FITC) 24 hours before transfusion and reinjected in an isovolemic manner into healthy rats. The FITC‐labeled RBCs were visualized in the extensor digitorum longus muscle using intravital video microscopy (20× magnification). The number of RBCs adherent in capillaries was counted 1 hour after transfusion in 10 random fields and the median values were compared with one‐way analysis of variance. RESULTS: Stored RBCs showed increased levels of adherence in capillaries compared to their fresh counterparts (p < 0.05). Prestorage LR decreased RBC adherence to levels equivalent to those of fresh RBCs (p < 0.05 for stored LR vs. stored NLR). CONCLUSION: Rat RBCs stored under conditions that closely mimicked clinical transfusion adhere in capillaries. The decreased RBC adherence with LR suggest a direct effect of white blood cells or their byproducts on RBC deformability and/or adhesiveness to microvascular endothelium. Further study will examine the mechanism of adherence and the impact it has on microcirculatory flow and oxygen delivery in the critically ill host.     

Hemolysis in stored red blood cell concentrates: modulation by haptoglobin or ulinastatin, a protease inhibitor

OBJECTIVE: Polymorphonuclear leukocyte elastase may injure various tissues. The release of polymorphonuclear leukocyte elastase induced by various stimuli was reported to be inhibited by a protease inhibitor, ulinastatin. In stored blood preparations, polymorphonuclear leukocyte elastase increases depending on the storage days as hemolysis increases. We hypothesized that polymorphonuclear leukocyte elastase might be one of the factors inducing hemolysis in stored blood. Haptoglobin binds to free hemoglobin to reduce hemolysis. The purpose of the study was to investigate the effects of ulinastatin on hemolysis in blood preparations in comparison with haptoglobin. DESIGN: In vitro study. SETTING: Laboratory in a university hospital. SUBJECTS: Nine 2-day-old packs of red blood cell concentrates (CRC) in 400 mL each of mannitol, adenine, glucose, phosphate, and citrate (MAP) (MAP-CRC) from the Japan Red Cross Society. INTERVENTIONS: Each MAP-CRC was divided into three different packs of equal amount and was treated with 10 mL of saline (control group), 200 units of haptoglobin, or 50,000 units of ulinastatin. They were stored at 4 degrees C. MEASUREMENTS AND MAIN RESULTS: Supernatant concentrations of total and free hemoglobin, total haptoglobin, polymorphonuclear leukocyte elastase, and potassium were measured for 25 days. Free haptoglobin concentration was calculated. Total and free hemoglobin concentrations increased significantly depending on the storage days in the control group, whereas haptoglobin and ulinastatin groups showed no increase. Total and free haptoglobin concentrations were significantly higher in the haptoglobin group than in the other two groups. Free haptoglobin concentrations were 0 after 5 days of storage in the control and ulinastatin groups. Polymorphonuclear leukocyte elastase concentrations increased with the increase in storage days without any differences among the three groups. Potassium concentration increased according to the storage and showed the highest value in the control group. CONCLUSIONS: Adding haptoglobin or ulinastatin to MAP-CRC was useful to suppress hemolysis during storage of the preparation. The polymorphonuclear leukocyte elastase might not be involved in the mechanisms of hemolysis in MAP-CRC stored for 25 days.     

Longitudinal monitoring of WBC subsets in packed RBC units after filtration: implications for transfusion transmission of infections

BACKGROUND: Specific subsets of peripheral blood WBCs are reservoirs for infectious agents, such as CMV and EBV, and can serve as vectors for transfusion transmission of these agents. While filter WBC reduction has been used to prevent transfusion transmission of infections, its effectiveness has not been documented for many infectious agents and in some instances may be difficult to demonstrate in clinical trials. Because the effectiveness of filtration depends on the number of infected WBCs remaining at transfusion, WBC subpopulations in packed RBC units were quantitated after filtration and storage. STUDY DESIGN AND METHODS: Packed RBC units (n = 14) were filtered and stored at 4(o)C for 42 days or were stored without filtration. Serial samples were subjected to flow cytometric immunophenotyping of WBC subsets: neutrophils, monocytes, CD4+ and CD8+ T cells, B cells, and NK cells. RESULTS: Filtration produced a mean reduction in total WBCs of 3.2 log. Monocytes, lymphocytes, and neutrophils were reduced by 4.1, 3.8, and 2.5 log, respectively. Lymphocyte subsets also demonstrated differential reduction with filtration. All WBC subsets showed ongoing loss during storage. CONCLUSIONS: Monocyte and lymphocyte subsets are removed most effectively by prestorage filtration. Postfiltration storage leads to further significant reductions in WBC subsets. The implications of these findings for the mitigation of transfusion transmission of infection are discussed.     

Prestorage leukocyte reduction prevents the formation of microaggregates that occlude artificial capillary vessels

PURPOSE: The passage behavior of stored blood through an artificial microchannel system, as a model of capillary vessels, was examined. MATERIALS AND METHODS: Using blood obtained from a total of 17 healthy volunteers, untreated and prestorage leukocyte reduced blood, or untreated and prestorage microfiltered (35 microm-pore size) blood were stored, and then the passage behavior through the microchannels was evaluated. Also, using blood from 16 patients stored for about 2 weeks, the effect of a leukocyte reduction filter, microfilter or mesh filter (175-210 microm-pore size) on the passage through the microchannels was examined. RESULTS: Untreated blood passed through the microchannels immediately after blood collection, but after 1 week occlusion of the microchannels occurred. Prestorage leukocyte reduced blood, however, passed through the microchannels for up to 6 weeks. Occlusion of the microchannels occurred with both the untreated and prestorage microfiltered blood. Although filtration through a leukocyte reduction filter provided blood that can pass through the microchannels, occlusion occurred with blood filtered in other way. CONCLUSIONS: The present results show that stored blood produces abundant microaggregates, potentially occluding capillary vessels. These microaggregates are not formed after prestorage leukocyte reduction or can be removed by use of a leukocyte reduction filter.     

保存前去除白细胞对浓缩红细胞保存质量影响研究

为了研究保存前去除白细胞对不同方法制备的浓缩红细胞 (RCC)保存质量的可能影响 ,分别取分离血浆后所得浓缩红细胞 (RCC1)和分离富含血小板血浆后所得含少量血浆的浓缩红细胞 (RCC2 )各 8袋 ,每袋等量分为两份 :过滤组和对照组。过滤组在保存当天用去白细胞滤器过滤 ,然后按常规方法 4℃保存 35天 ;对照组直接 4℃常规保存 5周。每周取样本测定平均红细胞体积 (MCV)、平均红细胞血红蛋白含量 (MCH)和平均红细胞血红蛋白浓度 (MCHC) ,血浆K+浓度和乳酸脱氢酶 (LDH) ,游离血红蛋白 (FHb)和红细胞ATP水平 ,同时做细菌培养污染监测。结果表明 :两种方法制备的RCC在过滤组与对照组中MCV ,MCH和MCHC无显著差别 ;红细胞ATP水平在保存第 0 ,1,2和 3周过滤组与对照组无显著差异 ,第 4和 5周过滤组红细胞ATP水平低于对照组 (P <0 .0 5 ) ;在保存过程中过滤组K+水平低于对照组 ,除了RCC1在保存第 0 ,1,2和 3周与对照组无显著差别外 ,均有显著差异 (P <0 .0 5 )。过滤组血浆LDH释放量显著低于对照组 (P <0 .0 1) ,在分离血小板后制备的RCC2这种差别更为明显。在保存期间RCC2组血浆的FHb水平过滤组显著低于对照组 (P <0 .0 5 ) ,而RCC1两组间FHb水平无显著差异。各组细菌培养均为无细菌生长。结论 :保存前去白细胞过     

Filtration of RBC units:effect of storage time and temperature on filter performance

BACKGROUND: The influence of time, temperature, and rate of filtration on the efficacy of WBC reduction of RBC units was studied in a controlled, paired-donor format. STUDY DESIGN AND METHODS: Ten donors underwent whole-blood phlebotomy on two to four occasions each. Units were filtered (RCXL-1, Pall Biomedical) under laboratory conditions and gravity flow as follows: 1) after 0 to 2 hours of storage at 22 degrees C, 2) after 7 to 8 hours at 22 degrees C, 3) after 14 days of storage at 4 degrees C, and 4) under mock bedside conditions after 14 days of storage at 4 degrees C. Prefiltration and postfiltration cell counts and prefiltration WBC CD11a expression were assessed on Days 0 and 14. RESULTS: WBC content before filtration was 2.20 and 2.34 x 10(9) (p>0.05) for units stored for 2 and 8 hours (Groups 1 and 2) and declined to 52.8 and 7. 57 x 10(4) (p<0.01) after filtration. The efficacy of WBC reduction in units stored for 14 days was similar to that in units stored for 8 hours, but absolute postfiltration WBC counts were significantly lower because of a 0.6 log reduction in the starting WBC count after 14 days of storage (postfiltration WBC content of 1.02 and 2.31 x 10(4) for units filtered under laboratory vs. bedside conditions [p>0.05]). Filtration under bedside conditions was associated with a greater degree of variation in residual WBC counts than laboratory filtration. WBC reduction by filtration was significantly greater in units stored for at least 8 hours (Groups 2, 3, and 4) than in those stored for less than 2 hours (4.59 log vs. 3.83 log reduction in WBC content, p<0.05). Surface expression of leukocyte function antigen 1 as measured by CD11a was similar in all groups. CONCLUSION: WBC reduction of RBC units by filtration was least effective when performed within 2 hours of collection. Efficacy of WBC reduction increased significantly after the units were stored for 8 hours to 14 days, without significant differences between these storage intervals. Laboratory filtration yielded more consistent results than did mock bedside filtration. Temperature and filtration rate had no effect on the efficacy of WBC reduction by filtration.     

Stablization of von Willebrand factor in banked blood by leucocyte depletion

Summary: The von Willebrand factor (vWf) activity, as measured by the ristocetin co-factor (vWf:RCo) and collagen binding (vWf:CBA) assays, declined progressively in standard blood units stored at 4°C after a 2-day storage period. This loss of activity was accompanied by a loss and degradation of high molecular weight (HMW) vWf multimers. In studies using a paired design, filtration of blood with a high efficiency leucocyte-removal filter, prior to storage at 4°C, led to significantly improved maintenance of vWf:RCo and vWf:CBA compared with unfiltered units ( P , < 0·01 after 8 days). Loss and degradation of HMW vWf decreased when blood was filtered prior to 4°C storage. Filtration had no effect on vWf-associated activities when blood was stored at 22°C for 10 days.
These results indicate that part of the storage lesion of vWf in banked blood is due to leucocyte-mediated removal and degradation of HMW vWf. This has implications when specifying plasma for the production of vWF concentrates and may also play a role in the haemostatic lesion associated with massive transfusion of stored blood.     

Characteristics of white cell-reduced red cells stored in tri-(2- ethylhexyl)trimellitate plastic

BACKGROUND: Standard blood storage containers contain extractable plasticizers that accumulate in blood during storage and are an unintended transfusion product. However, extractable plasticizers have a protective effect on the red cell membrane and improve red cell storage variables. Prestorage white cell reduction also improves selected red cell storage variables. STUDY DESIGN AND METHODS: The study evaluated whether the beneficial effect of prestorage white cell reduction would offset the negative effect of the absence of extractable plasticizer in red cells stored in AS-3 for 42 days at 4 degrees C. Filtered red cells stored in polyvinylchloride containers with the nonextracting plasticizer, tri-(2-ethylhexyl)trimellitate (TEHTM), were compared to unfiltered red cells stored in polyvinylchloride containers with the extractable plasticizer di-(2- ethylhexyl)phthalate (DEHP). RESULTS: Poststorage supernatant potassium and red cell osmotic fragility were significantly higher in white cell- reduced TEHTM units than in unfiltered DEHP units. The mean 24-hour recovery of the filtered TEHTM red cells was significantly lower than that of the unfiltered DEHP red cells (69.1 +/− 7.4% vs. 77.1 +/− 5.1%, p < 0.05, n = 8). CONCLUSION: These data demonstrate that white cell reduction before 42-day storage in TEHTM containers with currently approved preservatives does not yield an acceptable red cell component.     

Evaluation of nonleukoreduced red blood cell transfusion units collected at delivery from the placenta

BACKGROUND: The objective of this study was to evaluate the suitability of cord blood (CB) as a source of red blood cells (RBCs) for autologous transfusion. STUDY DESIGN AND METHODS: CB was collected in 150-mL storage containers with citrate phosphate dextrose (CPD) as anticoagulant and stored in either saline, adenine, glucose, and mannitol (SAG-M; n = 18) or phosphate, adenine, glucose, guanosine, saline, and mannitol (PAGGS-M; n = 18) for 35 days at 4 degrees C. Hematologic status and hemolysis were studied. The lipopolysaccharide (LPS)-induced production of tumor necrosis factor (TNF)-alpha and transforming growth factor (TGF)-beta1 from CB monocytes was analyzed after incubation with addition of weekly sampled supernatants from the CB RBC units. Five additional units (PAGGS-M) were leukoreduced and thereafter analyzed as indicated above. RESULTS: Hemolysis increased significantly over time, in SAG-M more than in PAGGS-M. During storage in both media, the number of white blood cells (WBCs) decreased, and the LPS-induced production of TNF-alpha and TGF-beta1 decreased and increased, respectively. There were no significant changes in the LPS-induced production of TNF-alpha and TGF-beta1 in the leukoreduced CB RBC units. CONCLUSION: Hemolysis in CB RBC units increased significantly over time, and PAGGS-M appears to be superior to SAG-M as a preservation solution for CB RBC. The changes in LPS-induced TNF-alpha and TGF-beta1 production over time were probably caused by substances released from apoptotic and/or necrotic WBCs. Further studies are needed to identify both which substances are responsible for the changes in LPS-induced cytokine release and the clinical significance hereof.     

Efficacy and safety of a polyester leukocyte removal filter for whole blood and red cell concentrate filtration

Patients receiving multiple whole blood transfusions often experience adverse clinical symptoms caused by leukocytes. In the present study, the efficacy and safety of a polyester filter for leukocytes (Sepacell R-500) was evaluated. Donor units of whole blood and red cell concentrate stored for varying lengths of time were filtered. Emphasis was placed on humoral parameters indicative of release and/or activation reactions of granulocytes (neutral proteinase elastase, lysozyme, aggregation, chemiluminescence) and erythrocytes (lactate dehydrogenase, plasma haemoglobin). Nonspecific adsorption effects were investigated by plasma protein determinations (albumin, alpha 2-macroglobulin). A complete blood cell count as well as values of haemoglobin and haematocrit were determined. Sepacell R-500 proved to be a highly efficient filter to the leukocyte depletion of blood. Our results of erythrocyte and granulocyte related humoral parameters provided no significant evidence of filtration mediated activation or releasing reactions of clinical consequence.