The variability of compensatory erythropoiesis in repeated autologous blood donation

BACKGROUND: Compensatory RBC production during repeated preoperative autologous blood donation (PABD) shows marked interindividual variability. This study was performed to reveal variables that might be useful to predict the amount of the erythropoietic response to PABD in an individual patient who was not iron deficient. STUDY DESIGN AND METHODS: In a retrospective study, 104 adult patients, 48 women and 56 men (mean age, 59.9 years; range, 18-82 years) who donated 3 units (450 mL) of autologous blood at weekly intervals for major surgery were investigated. Blood counts, ferritin, and net preoperative RBC production (net RBC production) were determined in all patients, and soluble transferrin receptor and endogenous levels of EPO, SCF, and IL-1beta were measured in 63 patients. Multiple linear regression analysis was used to determine whether the variance of net RBC production was attributable to baseline values of these variables. RESULTS: Net RBC production was not different in patients who received oral iron and patients who did not (384 +/- 222 mL vs. 356 +/- 158 mL). In both groups, the same two variables consistently showed a significant relationship to net RBC production: the length of the period between the third donation and the last visit was positively related (p = 0.00001 vs. p = 0.0002) and the Hct at baseline was negatively related (p = 0.0002 vs. p = 0.02) with net RBC production. The proportion of variance in net RBC production that was attributable to these two variables was 48.1 percent (r(2) = 0.481) and 34.9 percent (r(2) = 0.349), respectively. CONCLUSION: RBC production after PABD increases with increasing interval from last donation to surgery. This suggests that the interval from last donation to surgery should be maximized. This can be achieved by organizational measures in combination with the preparation of RBC concentrates in additive solution with a maximum shelf life.     

Buffering and dilution in red blood cell storage

BACKGROUND: Red blood cell (RBC) storage solutions work in a narrow pH range between 7.2 and 6.4. While keeping RBC within that pH range, ATP production can be increased by buffering or dilution. STUDY DESIGN AND METHODS: In the first study, 12 units of packed CP2D RBCs were pooled in groups of four, re-aliquoted, and added to one of four additive solutions (ASs): AS-3, 110 mL; EAS-61, 170 mL; EAS-78, 170 mL; or EAS-81, 110 mL. EAS-78 and -81 contain bicarbonate. Units were sampled approximately weekly for 10 weeks for biochemical measures. In the second study, 12 volunteers donated RBCs for measures of (51)Cr in vivo recovery after 6 or 8 weeks of storage in EAS-81. RESULTS: RBCs stored in the higher-volume or buffered ASs had higher RBC ATP concentrations. The combination had an additive effect. Hemolysis was reduced in dilute ASs and less so with buffering. RBCs stored for 8 weeks (n=6) in EAS-81 exhibited 87+/- 2 percent 24-hour (51)Cr in vivo recovery and 0.4+/- 0.2 percent hemolysis. CONCLUSIONS: It is possible to store RBCs for 8 weeks in buffered conventional volume ASs. Combining buffering and increased AS volume improves stored RBC characteristics further.     

Recombinant human erythropoietin as adjuvant treatment for autologous blood donation in elective surgery with large blood needs (> or = 5 units): a randomized study

BACKGROUND: Autologous blood transfusion presents no infectious or immunologic side effects. The aim of this randomized study was to determine the impact of recombinant human erythropoietin (rHuEPO) on the donation of 5 units of autologous blood by nonanemic patients who were candidates for elective surgery with transfusion requirements of > or = 5 units. STUDY DESIGN AND METHODS: Starting on Day -35, 420 mL of blood was taken weekly. All patients received 200 mg of iron saccharose complex intravenously at each visit and six subcutaneous injections of rHuEPO (141 U/kg) or placebo between Days -21 and -7. RESULTS: Of 50 patients, 45 completed the study (placebo, 21; rHuEPO, 24). Total red cell production was higher in the rHuEPO group (p = 0.001). Donation of 5 units was possible for 67 percent (placebo group) and 79 percent (rHuEPO group) of patients (p = 0.5). The mean number of blood units donated was 4.6 (placebo group) and 4.7 (rHuEPO group). More patients in the placebo group received allogeneic blood (9/21 [43%] vs. 6/23 [26%]), although the difference did not reach significance (p = 0.34). CONCLUSION: In nonanemic patients donating 5 units of blood, rHuEPO associated with intravenous iron increased total red cell production. However, no difference was found between the rHuEPO and placebo groups with regard to the number of units of autologous blood donated of the number of patients receiving allogeneic blood transfusion.     

Efficacy of preoperative donation of blood for autologous use in radical prostatectomy

To determine the amount of blood lost, the number of transfusions, and the effectiveness of preoperative autologous blood donation in radical prostatectomy, 163 patients' records from 1987 to 1991 were reviewed at four university hospitals and three community hospitals. Calculated red cell volume lost was 1003 +/− 535 mL (mean +/− SD), which corresponds to 44 +/− 18 percent (mean +/− SD) of total red cell volume. Preoperative donation of blood for autologous use reduced the rate of transfusion of allogeneic blood from 66 to 20 percent (p < 0.001). Of the patients who donated 1 to 2 units, 32 percent received allogeneic blood; 14 percent of those who donated 3 units received allogeneic blood. Donation of 4 units reduced the allogeneic transfusion rate to 11 percent. However, as the number of units donated increased (1-3 units), the units not transfused also increased (0-21%). Ninety-one (56%) of 163 patients donated fewer than 3 units. Autologous blood donation is effective in minimizing the transfusion of allogeneic blood to radical prostatectomy patients, but many patients do not donate enough blood (< 3 units). The donation of 3 units of blood for autologous use is recommended for patients who undergo radical prostatectomy.     

Increased iron absorption during autologous blood donation supported by recombinant human erythropoietin therapy

BACKGROUND: Recombinant human erythropoietin (rHuEPO) therapy improves the success of autologous blood (AB) donation programs before elective surgery. The aim of this study was to evaluate iron absorption during an AB donation program with or without rHuEPO. STUDY DESIGN AND METHODS: Thirty-two patients were randomly assigned among placebo (Group 1) or 300 (Group 2) or 600 UI per kg rHuEPO (Group 3) on the first, second, and third donation visits. All patients also received daily oral iron (200 mg Fe(+)). RESULTS: The number of units collected in Group 3 was higher than in Group 1 (4.6 +/- 0.5 vs. 3.6 +/- 0.8 units; p < 0.01). Red blood cell (RBC) production increased in a rHuEPO dose-dependent manner. With rHuEPO, the RBC volume collected per unit presented a lower decrease with number of donated units than with placebo and was similar to that of homologous blood units. Storage iron did not influence the number of units collected, whereas circulating mobilizable iron was the limiting factor. Oral iron absorption increased in a rHuEPO dose-dependent manner (12-fold with 600 UI/kg rHuEPO) and was proportional to erythropoietic activity. CONCLUSION: rHuEPO does not only improve the number of AB units collected but also their quality. Storage iron cannot meet marrow iron requirements, but rHuEPO strongly increased oral iron absorption in a dose-dependent fashion through stimulation of erythropoietic activity.     

Automated collection of double red blood cell units with a variable-volume separation chamber

BACKGROUND: Automated collection of blood components offers multiple advantages and has prompted development of portable devices. This study sought to document the biochemical and hematologic properties and in vivo recovery of red cells (RBCs) collected via a new device that employed a variable-volume centrifugal separation chamber. STUDY DESIGN AND METHODS: Normal subjects (n = 153) donated 2 units of RBCs via an automated blood collection system (Cymbal, Haemonetics). Procedures were conducted with wall outlet power (n = 49) or the device's battery source (n = 104). Units were collected with or without leukoreduction filtration and were stored in AS-3 for 42 days. The units were assessed via standard biochemical and hematologic tests before and after storage, and 24 leukoreduced (LR) and 24 non-LR RBCs were radiolabeled on Day 42 with Na(2)(51)CrO(4) for autologous return to determine recovery at 24 hours with concomitant determination of RBC volume via infusion of (99m)Tc-labeled fresh RBCs. RESULTS: Two standard RBC units (targeted to contain 180 mL of RBCs plus 100 mL of AS-3) could be collected in 35.7 +/- 2.0 minutes (n = 30) or 40.3 +/- 2.7 minutes for LR RBCs (n = 92). An additional 31 collections were conducted successfully with intentional filter bypassing. RBC units contained 104 +/- 4.1 percent of their targeted volumes (170-204 mL of RBCs), and LR RBCs contained 92 percent of non-LR RBCs' hemoglobin. All LR RBCs contained less than 1 x 10(6) white blood cells. Mean hemolysis was below 0.8 percent (Day 42) for all configurations. Adenosine triphosphate was well preserved. Mean recovery was 82 +/- 4.9 percent for RBCs and 84 +/- 7.0 percent for LR RBCs. CONCLUSIONS: The Cymbal device provided quick and efficient collection of 2 RBC units with properties meeting regulatory requirements and consistent with good clinical utility.     

Feasibility and success of a single-donor red cell program for pediatric elective surgery patients

Although the risks of allogeneic blood transfusions are small, it is wise to limit donor exposure whenever possible. A program has been developed in which one donor provided all red cell (RBC) units for each patient awaiting elective surgery. Patients were mostly children who were ineligible for autologous blood donation. Seventy-three patients and 115 donors (mostly parents) entered the program. Of the 115 donors, 90 (78%) were eligible to participate and 25 (22%) were ineligible; 21 were ineligible because of RBC incompatibility. For each of the 73 patients, one eligible donor was selected to donate all RBC units. Preoperative RBC orders were 1 to 2 units for 41 patients and > or = 3 units for 32 patients. Of the 73 donors, 58 (79%) gave all RBC units ordered; 15 (21%) failed to complete all donations, but only 1 because of anemia (hematocrit < 33% [0.33]). Of 73 patients entered, 46 (63%) underwent transfusion, and 27 (37%) did not. Of 46 patients transfused, 38 (83%) received only single-donor RBCs. Thus, the RBC needs of nearly all pediatric elective surgery patients were provided by a single donor for each patient. Single-donor blood programs should be considered for elective surgery patients who are ineligible for autologous blood donation and who would otherwise be exposed to multiple donors.     

Circulating RBC volume,measured with biotinylated RBCs,is superior to the Hct to document the hematologic effects of delayed versus immediate umbilical cord clamping in preterm neonates

BACKGROUND: One problem assessing the hematologic physiology of preterm infants after delivery and/or the efficacy and toxicity of therapeutic interventions affecting RBC measurements is the inability of blood Hct values to accurately reflect circulating RBC volume-owing to changes in plasma volume that influence Hct (i.e., a fall in plasma volume concentrates RBCs to increase Hct; a rise in plasma volume dilutes RBCs to decrease Hct). STUDY DESIGN AND METHODS: As part of a randomized, clinical trial testing the hypothesis that delayed clamping of the umbilical cord at delivery expands neonatal circulating RBC volume, blood Hct was compared to circulating RBC volume results measured directly with autologous, biotinylated RBCs or estimated mathematically with neonatal body weight and Hct values in neonates after immediate or delayed (60 sec) cord clamping. RESULTS: Circulating RBC volume measured directly with biotinylated RBCs significantly increased (p=0.04) in neonates after delayed (42.1 +/- 7.8 mL/kg) versus immediate (36.8 +/- 6.3 mL/kg) cord clamping-a difference not detected indirectly by measuring Hct or estimating circulating RBC volume mathematically. CONCLUSIONS: Because true hematologic effects of delayed versus immediate cord clamping may not be apparent or may be misinterpreted, when based on indirect measurements of Hct or calculations of circulating RBC volume, it is important to measure circulating RBC volume directly-as done with autologous, biotinylated RBCs-to document whether delayed cord clamping truly results in a transfer of significant quantities of RBCs from placenta to neonate. The clinical benefits and potential toxicities of increased RBC transfer to neonates require further studies.     

Possible guidelines for autologous red blood cell donations before total hip arthroplasty based on the surgical blood order equation

OBJECTIVES: To determine, in patients undergoing total hip arthroplasty (THA), clinical predictive criteria for preoperative autologous blood donation and to propose guidelines to increase the efficiency and reduce the cost of preoperative autologous blood donation. PATIENTS AND METHODS: In this retrospective analysis of 165 adult patients undergoing primary THA, a stepwise regression analysis was used to determine which clinical variables predict erythropoiesis in patients donating autologous blood before THA. The surgical blood order equation (SBOE), which includes values for hemoglobin lost at surgery, preoperative hemoglobin level, and minimal acceptable hemoglobin level, was used to estimate the number of units of red blood cells (RBCs) needed for each patient at surgery and thus identify which patients should have made preoperative autologous blood donations. RESULTS: The statistically significant indicators for RBC production were predonation hemoglobin concentration (P<.001) and male sex (P=.003). Combining the regression equation for erythropoiesis with the SBOE allowed development of guidelines for the use of preoperative autologous RBC donation and erythropoietic therapy. For primary THA surgery, a patient with a predonation hemoglobin level higher than 14.7 g/dL does not need preoperative autologous donation. Preoperative autologous RBC donation would be effective for men with hemoglobin concentrations of 14.7 g/dL or less and for women with predonation hemoglobin levels of 13.2 to 14.7 g/dL. In women whose hemoglobin level is less than 13.2 g/dL, erythropoietic therapy should accompany autologous donation. CONCLUSION: Incorporation of patient factors with the SBOE system may result in increased efficiency and decreased cost of autologous blood ordering practices before THA.     

Utilization and effectiveness of a hospital autologous preoperative blood donor program

The utilization and effectiveness of a hospital preoperative autologous blood donation program were analyzed. Over 16 months, 180 donors, or 11.6 percent of eligible patients (those undergoing elective surgical procedures where blood was routinely crossmatched), were enrolled in the program. They donated an average of 2.2 units of red cells, or 59 percent of the mean order of 3.7 units. Donations were completed in 17.9 days, leaving 10.7 days between the last donation and hospitalization. Of all scheduled donations, 25.5 percent were cancelled due to deferrals; 47.8 percent of patients were deferred at least once. Most patients were able to donate a unit of blood weekly, with minimal drops in hematocrit (mean 3.2%). The reaction rate, 4.8 percent, was comparable to figures reported for homologous donors. Nearly two-thirds of participants used no homologous blood during their hospitalization: 28.6 percent used no blood whatsoever, and 36.9 percent used only autologous components. Including released autologous components subsequently administered to other recipients, transfused autologous red cells were 2.1 percent and fresh-frozen plasma (FFP) 7.2 percent of the hospital's blood supply. Although the high deferral rate complicated the administration of the program, this complication was offset by the demonstration of donor safety, reduction in the proportion of patients who used homologous blood, and the contribution of autologous blood components to the hospital's blood inventory.     

Iron and erythropoietin measurement in autologous blood donors with anemia: implications for management

Background : The importance of autologous blood donation for elective surgery is recognized, and the method is being used at many hospitals. Not all patients are able to deposit a sufficient amount of blood before surgery because they cannot recover rapidly enough from phlebotomy-induced anemia. The ability to donate sufficient blood for autologous use was studied in patients who are particularly susceptible to phlebotomy-induced anemia. Study Design and Methods : Of 840 patients who donated blood for autologous use in elective surgery from November 1987 through May 1993, 20 with rheumatoid arthritis, 24 with iron deficiency anemia, and 37 aged 65 years and above with normocytic anemia were compared with 24 nonanemic elderly patients who donated a total of 1000 mL of blood for autologous use. Patients received iron sulfate orally and donated blood once a week until operation. Results : The amount of blood collected before surgery per control patient was more than that in others. Consequently, there was a tendency to allogeneic blood transfusion in patients with rheumatoid arthritis or elderly patients. The ferritin levels in controls and in patients with iron deficiency anemia during the donation period were almost within the normal range in spite of iron supplementation, which implied a good utilization of iron sulfate for erythropoiesis. On the other hand, the rise in ferritin levels in the elderly and in patients with rheumatoid arthritis suggested inappropriate iron availability for erythropoiesis and resulted in an increase in iron storage. Since an adequate endogenous erythropoietin response to phlebotomy-induced anemia was not observed in these patients, impaired erythropoietin production was considered one of the reasons for anemia. Conclusion : Patients with iron deficiency anemia are able to continue donating blood for autologous use so long as they have sufficient iron supplementation. However, the elderly or those with rheumatoid arthritis occasionally fail to donate a sufficient volume of blood before surgery as a result of phlebotomy-induced anemia, which is caused in turn by impaired erythropoietin production.     

Acute normovolemic hemodilution is a cost-effective alternative to preoperative autologous blood donation by patients undergoing radical retropubic prostatectomy

BACKGROUND: Preoperative autologous blood donation is accepted as a standard of care for radical prostatectomy. Acute normovolemic hemodilution (ANH) is an alternative method for obtaining autologous blood. The cost and benefits of these two autologous blood-collection techniques are compared. STUDY DESIGN AND METHODS: Thirty consecutive patients scheduled for radical prostatectomy underwent ANH to a target hematocrit level of 28 percent. Blood was transfused in the perioperative period to maintain the hematocrit level > 25 percent. Hematocrit levels, transfusion outcomes and costs, and postoperative outcomes for these patients (hemodilution group) were compared with a matched patient cohort who preoperatively donated 3 units of blood for autologous use in prostatectomy surgery (nonhemodilution group, n = 30). RESULTS: Thirty patients underwent ANH to a hematocrit level of 28.7 +/− 1.7 percent, and 1740 +/− 346 mL (3.5 +/− 0.7 units) of blood were collected. Three (10%) of the patients in each cohort had allogeneic blood exposure. Transfusion costs were 73 percent higher for the nonhemodilution group patients than for the hemodilution group patients ($330 +/− $100 vs. $191 +/− $55, p < 0.001). No differences were found in postoperative outcomes. CONCLUSION: An integrated blood conservation program utilizing hemodilution and a defined transfusion trigger can decrease the requirement for preoperative donation of blood for autologous use in radical prostatectomy. Point-of-care autologous blood procurement is more cost-effective than preadmission donation of autologous blood units.     

Twelve-week RBC storage

BACKGROUND: Better storage can improve RBC availability and safety. Optimizing RBC ATP production and minimizing hemolysis has allowed progressively longer storage. STUDY DESIGN AND METHODS: In the first study, 24 units of packed CPD RBCs were pooled in groups of four, realiquoted, and added to 300 mL of one of four variants of experimental additive solution 76 (EAS-76) containing 45, 40, 35, or 30 mEq per L NaCl. Units were sampled weekly for 12 weeks for morphologic and biochemical measures. In the second study, 10 volunteers donated 2 units of RBCs for a crossover comparison of Tc/Cr 24-hour in vivo recovery of 6-week storage in AS-1 versus 12-week storage in EAS-76 variant 6 (EAS-76v6) having 30 mEq per L NaCl. RESULTS: RBCs stored in the lower salt variants of EAS-76 had higher concentrations of RBC ATP with less hemolysis and microvesiculation. RBC 2,3 DPG was preserved for two weeks. RBCs stored for 12 weeks in EAS-76v6 exhibited 78 +/- 4 percent 24-hour in vivo recovery. CONCLUSIONS: It is possible to store RBCs for 12 weeks with acceptable recovery and 0.6 percent hemolysis and with normal 2,3 DPG concentrations for 2 weeks.     

前蛙跳式自体预贮血在猪心脏体外循环手术模型中的应用

背景:同种异体输血在相同血型的人类中已经得到实现,但关于猪的血型类型及如何异体输血国内外无确切报道.目的:探讨术前蛙跳式自体预贮血在猪心脏体外循环手术模型中应用的可行性.方法:16只家猪随机区组法分为2组,自体预贮血组、同种异体输血组.另4头猪放血供同种异体输血组异体输血应用.两组猪均在体外循环下行心脏手术.自体预贮血组手术全程仅输自体血,同种异体输血组手术全程输注等量异体血.记录自体预贮血组放血前后的血红蛋白及血细胞压积,两组术前基础值、体外循环过程中、体外循环结束后及术后1 d的血红蛋白值.结果与结论:20只实验猪全身血容量 (2500±428) mL;自体预贮血组第1次预计放血量为(501±86) mL,实际放血量为(493±93) mL;第2次预计放血量为(750± 128) mL,实际放血量为(719±98) mL.自体预贮血组猪采血前后血红蛋白计数及血细胞压积差异有显著性意义(P < 0.01).自体预贮血组术后1 d时点血红蛋白数值明显高于同种异体输血组(P < 0.01),两组其余术前基础值、体外循环过程中、体外循环结束后时点血红蛋白数值差异无显著性意义(P > 0.05);与术前比较,两组术后1 d时点血红蛋白值显著低于术前基础值 (P < 0.01).自体预贮血组存活率明显高于同种异体输血组(P < 0.01).结果说明与同种异体输血相比,术前蛙跳式自体预贮血安全有效,术后猪成活率更高.

Abstract：

BACKGROUND: Allogeneic blood transfusion in humans of the same blood type has been implemented, but studies regarding swine blood type and how to perform allogeneic blood transfusion have been rarely reported. OBJECTIVE: To investigate the feasibility of preoperative autologous blood donation using the leap-frog technique for cardiopulmonary bypass surgery in a swine model.METHODS: Sixteen domestic swine were randomly divided into two groups: autologous blood donation and allogeneic blood transfusion. Another four swine were used as blood donors. Two groups of swine underwent cardiopulmonary bypass surgery. The autologous blood donation group received self-transfusion reserved before surgery while the allogeneic blood transfusion group received the same amount of allogeneic blood. Hemoglobin (Hb) concentration and hematocrit (Hct) level prior to and after donation in the autologous blood donation group was recorded. Hb concentration in the two groups was recorded prior to, during, immediately after, and 1 day after the surgery. RESULTS AND CONCLUSION: The total blood volume of each experimental swine was (2500±428) mL. For the autologous blood donation group, the predicted blood volume of the first donation was (501±86) mL and the actual blood volume was (493±93) mL; in the second donation, the predicted blood volume was (750±128) mL and the actual blood volume was (719±98) mL. There was a significant difference in Hb concentration and Hct level between prior to and after donation in the autologous blood donation group (P < 0.01). Hb concentration at 1 day after the surgery was significantly higher in the autologous blood donation group than in the allogeneic blood transfusion group (P < 0.01), while no significant difference in Hb concentration existed between these two groups prior to, during, and immediately after the surgery (P > 0.05). Compared with prior to surgery, Hb concentration in each group was significantly lower at 1 day after the surgery (P < 0.01). The autologous blood donation group exhibited significantly higher survival rate of swine than the allogeneic blood transfusion group (P < 0.01). These findings indicate that compared with allogeneic blood transfusion, preoperative autologous blood donation using the leap-frog technique appears to be a safe, effective method with a high survival rate for cardiopulmonary bypass surgery.     

The value of oxygen-carrying solutions in the operative setting, as determined by mathematical modeling

BACKGROUND: The use of oxygen carriers (red cell [RBC] substitutes) in acute trauma and in surgery, with or without the use of acute normovolemic hemodilution (ANH), is being investigated. Mathematical modeling was used to assess the impact of RBC substitutes, with or without ANH, in the elective surgical setting. STUDY DESIGN AND METHODS: Mathematical equations and computer models were developed on the basis of previously described mathematical principles, for better understanding of the potential efficacy of RBC substitutes for blood needs with or without ANH. Savings were calculated for a patient with a blood volume of 5000 mL and an initial hematocrit (Hct) of 45 or 30 percent. RESULTS: Substantial increases in the tolerable blood losses (or reduced allogeneic RBC needs) were most evident when the use of an RBC substitute to achieve severe ANH to a Hct that the patient might not otherwise have been able to tolerate was combined with the use of RBC substitutes as replacement for the surgical blood subsequently lost. However, the benefit was greatly dependent on the patient's initial Hct. For example, for a patient with a blood volume of 5000 mL and an initial Hct of 45 percent, a blood loss of approximately 2500 mL resulted in a final Hct of 28 percent without the use of an RBC substitute or ANH. In contrast, with the combined use of staged ANH with an RBC substitute and the RBC substitute for lost surgical blood, a blood loss of up to 14.5 L could be tolerated. However, in an anemic patient (blood volume 5000 mL, initial Hct 30%), a Hct of 28 percent cannot be sustained without the use of allogeneic RBCs for any of the described strategies, even when blood losses were as low as 1 L. CONCLUSION: The use of RBC substitutes has the potential to result in a substantial reduction in allogeneic RBC exposure. This benefit is essentially limited to the nonanemic patient when the use of an RBC substitute is combined with severe ANH and there is concomitant large perioperative blood loss. Anemic patients can be expected to have only limited benefit, because of an inability to sequester an adequate volume of autologous RBCs via ANH.     

Automated blood component collection with the MCS 3p cell separator: evaluation of three protocols for buffy coat-poor and white cell- reduced packed red cells and plasma

BACKGROUND: Automated collection of blood components with a cell separator (MCS 3p, Haemonetics), was performed according to three protocols. STUDY DESIGN AND METHODS: The first protocol provided 2 units of fresh-frozen plasma (FFP); and one buffy coat-poor red cell (RBC) concentrate in additive solution. The second protocol included an additional in-line filtration of the RBC in a closed system after storage at 4 degrees C for 24 hours. In the third protocol, an additional platelet concentrate (PC) was recovered from the buffy coat. Cell counts and biochemical characterization of the RBCs (n=20 each) were determined on Days 0, 1, 14, 28, and 49. RESULTS: The RBC volume was 336 +/? 9 mL (first protocol), 337 +/? 7 mL (second protocol) and 293 +/? 12 mL (third protocol) with a hematocrit of 59 +/? 2, 53 +/? 3, and 61 +/? 5, percent respectively. On Day 49, hemolysis was 0.24 +/? 0.1 percent (first protocol), 0.33 +/? 0.32 percent (second protocol), and 0.38 +/? 0.1 percent (third protocol). The filtered RBC concentrate met the international standards for white cell-reduced RBCs. Filtration resulted in a clinically irrelevant increase of hemolysis. The in vitro RBC values (lactate dehydrogenase, 2-hydroxybutyrate dehydrogenase, hemolysis, potassium, 2,3 DPG, ATP) were at least equal to those in RBCs collected by conventional whole-blood donation. There is a trend toward extended preservation of 2,3 DPG in RBCs collected by apheresis. Two units of FFP could be collected with each donation (first protocol: 420 +/? 55 mL, 5.4 +/? 7 WBCs/microL, 6.5 +/? 5 × 10(3) platelets/microL; second protocol: 440 +/? 33 mL, 3 +/? 5.2 WBCs/microL, 32 +/? 12 × 10(3) platelets/microL; third protocol: 398 +/? 32 mL, 5 +/? 12 WBCs/microL; 3.4 +/? 3.5 × 10(3) platelets/microL). PCs prepared from the buffy coat collected by the third protocol contained 90 +/? 30 × 10(9) platelets in 88 +/? 14 mL of plasma. In vitro test results in these PCs were superior to those in PCs collected by conventional whole-blood donation. The procedure was well tolerated by all donors. No adverse reactions appeared. CONCLUSION: Erythroplasmapheresis with the MCS 3p cell separator is a useful alternative to conventional whole-blood donation and separation.     

In vitro characteristics of red blood cell concentrates prepared from under- and overcollected units of whole blood and from a paediatric blood bag system

The problem of how to deal with red blood cell concentrates (RBCs) prepared from under- or overcollected units of whole blood (WB) and how to collect blood from underweight persons arises in the context of autologous predeposit. To determine the quality of RBCs stored in PAGGS-M additive solution prepared from under- and overcollected units of whole blood and of PAGGS-M RBCs prepared from a paediatric 250-mL top outlet blood bag system we measured blood picture, haemolysis, K+, pH, ATP and 2,3-DPG on days 0, 10, 20, 30, 40 and 49 of storage. The volume of WB collected ranged from 150 to 600 mL in 50-mL increments (4 units per volume). Haemolysis was under 0.8% on day 49 in all RBCs prepared from WB donations between 200 mL and 600 mL. However, the day 49 haemolysis level of standard RBCs prepared from 450 mL of WB (0.15 +/- 0.03%) was reached earlier in RBCs from under- and overcollected units of whole blood. 2,3-DPG levels decreased rapidly between days 10 and 20 in all RBCs studied. RBCs from 450-mL donations showed acceptable ATP maintenance after 49 days (70.4% of day 0 value), while all other RBC ATP levels were below 50% of the day 0 level on day 49. In vitro quality data of RBCs prepared from a 250-mL donation in the paediatric blood bag system after storage for about 25 days were comparable to those after 49 days of storage of standard RBCs. Our results suggest that it is feasible to transfuse PAGGS-M RBCs prepared from under- as well as overcollected units of WB in the autologous setting. However, we strongly recommend shortening the storage period of such RBCs to maintain the quality level of standard RBCs.     

Frozen preoperative autologous blood donation for heart transplantation at the Mayo Clinic from 1988 to 1999

BACKGROUND: Preoperative autologous blood donation (PABD) has been used to reduce the need for allogeneic RBC transfusion, decreasing risk and conserving supply. A frozen PABD program for heart transplant patients was instituted at the Mayo Clinic in 1988, but participation has steadily declined. The aims of this study were to determine how the availability of PABD influenced the transfusion RBC components, whether the availability of PABD reduced exposure to allogeneic RBC components, and the costs of providing PABD units. STUDY DESIGN AND METHODS: A retrospective review of all heart transplant cases from 1988 to 1999 was performed (n = 141). Data on collection and transfusion practices were compared for patients with (n = 88, 62%) and without PABD (n = 53, 38%). RESULTS: Total RBC transfusion requirements did not differ between the groups. Patients with frozen PABD received fewer allogeneic units, but they also had less blood salvaged and reinfused. Twenty patients (23%) completely avoided exposure to allogeneic RBCs in the PABD group versus three patients (6%) in the group without PABD. Although patients in the PABD group successfully donated a total of 423 units, 41 percent were discarded. Over 11 years, the need for 251 units of allogeneic RBCs was avoided ($27,610), but $283,500 was spent to have the frozen PABD units available. CONCLUSION: PABD can be performed for heart transplantation, but it is expensive.     

Modeling red cell procurement with both double-red-cell and whole-blood collection and the impact of European travel deferral on units available for transfusion

BACKGROUND: In 1997 the FDA approved the first double-red-blood-cell (2RBC) collection device. Soon after, travel deferral for variant Creutzfeldt-Jakob disease (vCJD) risk was adopted. To show the importance of including 2RBCs in predictive models of the blood supply, an existing whole-blood (WB) model was updated to include 2RBC collection and then run to simulate the effect of vCJD deferral on total RBC availability. STUDY DESIGN AND METHODS: The model simulates donation of allogeneic WB and 2RBCs, with donors stratified into eight age and sex groups. The model was updated with 2003 donation and economic data from 16 blood centers. RESULTS: The distribution of donations by demographic group differed both within and between WB and 2RBCs. Overall, 2RBC donation made up 24 percent of transfusable RBC units, at a lower per-unit acquisition cost from both the blood bank and the societal perspectives. Component fees from hospitals would alter this interpretation. The model predicts that vCJD travel deferral led to a 3.3 percent (95% confidence interval [CI], 2.3-4.1) decrease in the total number of RBC units, which was more than offset by 2RBC collection, resulting in a 10.4 percent (95% CI, 9.8%-11.1%) net increase in RBC units. Modeled 2RBC results match operational records, whereas vCJD deferral is overestimated. CONCLUSION: Shifting to 2RBC collection led to a substantial gain in available RBCs: even with policies that adversely affect the quantity of RBCs in the supply, 2RBC collection results in a net gain. The economics of 2RBC collection are not as clear, however.     

Red blood cell mass in autologous and homologous blood units. Implications for risk/benefit assessment of autologous blood crossover and directed blood transfusion

A prospective analysis of 300 consecutively collected homologous blood (HB) units from a regional blood center and an analysis of 188 consecutively collected autologous blood (AB) units from a community hospital was conducted. Analysis of the red blood cell (RBC) mass content of these blood units revealed that HB contained 13 percent more RBC than AB: 200 +/- 1.1 vs 177.1 +/- 1.1 mL, (m +/- SE), respectively (p less than 0.05). Of 174 AB units eligible for crossover by AABB criteria for RBC mass (greater than or equal to 154 mL), 35 (20%) were below the 95 percent confidence interval range for RBC mass of HB units collected; mean RBC mass of 300 HB units was 12 percent greater than that of 174 AB units (200.1 +/- 1.1 vs 178.9 +/- 0.9 mL, p less than 0.001) and 20 percent greater than that of the 35 AB units outside the 95 percent confidence interval (200.1 +/- 1.1 vs 161.2 +/- 0.5 mL, p less than 0.001). These findings indicate that an evaluation of the issues of AB crossover for HB transfusion should include a risk/benefit analysis of AB units with lower RBC mass. These findings also indicate that the proposed changes in AABB standards regarding directed donation (DD) should consider the reduced benefits of DD units with lower RBC mass in a risk/benefit analysis of this practice, and support retention of homologous donor standards for directed donors.