In utero or ex utero cord blood collection: which is better?

BACKGROUND: The relative nucleated cell count of umbilical cord blood (CB) correlates with improved engraftment and survival. This study compares two collection methods to assess CB content, including cell numbers. STUDY DESIGN AND METHODS: The Massachusetts CB bank used trained obstetricians and midwives to collect CB in utero before the delivery of the placenta. The banks in California, Ohio, Oregon, and Minnesota used trained American Red Cross (ARC) personnel who collected CB ex utero after the delivery of the placenta. All banks processed CB by RBC sedimentation and volume reduction. RESULTS: The volume and total nucleated cell count of collected CB before processing, as well as after processing CFU-GM and CD34+ cells, showed no advantage of either method. In utero collections resulted in more rejections of collected units (due to labeling problems, bacterial contamination, clotting, and delay between collection and processing) than ex utero collections. There were fewer medical exclusions after in utero collection. CONCLUSION: CB can be collected successfully using either the in utero or ex utero methods; both methods produce comparable nucleated cell, MNC, CD34+, and CFU-GM numbers. Bacterial contamination, low volume, clotting, and delay until processing are generally higher with in utero collection.     

The predictive value of white cell or CD34+ cell count in the peripheral blood for timing apheresis and maximizing yield

BACKGROUND: The collection of peripheral blood stem and progenitor cells (PBPCs) for transplantation can be time-consuming and expensive. Thus, the utility of counting CD34+ cells and white cells (WBCs) in the peripheral blood was evaluated as a predictor of CD34+ cell yield in the apheresis component. STUDY DESIGN AND METHODS: The WBC and CD34+ cell counts in the peripheral blood and the apheresis components from 216 collections were assessed. Sixty-three patients underwent mobilization with chemotherapy plus filgrastim, and 17 patients and 14 allogeneic PBPC donors did so with filgrastim alone. The relationship between the number of WBC and CD34+ cells in the peripheral blood and in the apheresis component was analyzed by using rank correlation and linear regression analysis. RESULTS: The correlation coefficient for CD34+ cells per liter of peripheral blood with CD34+ cell yield (x 10(6)/kg) was 0.87 (n = 216 collections). This correlation existed for many patient and collection variables. However, patients with acute myeloid leukemia had fewer CD34+ cells in the apheresis component at any level of peripheral blood CD34+ cell count. Components collected from patients with CD34+ cell counts below 10 x 10(6) per L in the peripheral blood contained a median of 0.75 x 10(6) CD34+ cells per kg. When the WBC count in the blood was below 5.0 x 10(9) per L, the median number of CD34+ cells in the peripheral blood was 5.6 x 10(6) per L (range, 1.0-15.5 x 10(6)/L). A very poor correlation was found between the WBC count in the blood and the CD34+ cell yield (p = 0.12, n = 158 collections). CONCLUSION: The number of CD34+ cells, but not WBCs, in the peripheral blood can be used as a predictor for timing of apheresis and estimating PBPC yield. This is a robust relationship not affected by a variety of patient and collection factors except the diagnosis of acute myeloid leukemia. Patients who undergo mobilization with chemotherapy and filgrastim also should undergo monitoring of peripheral blood CD34+ cell counts, beginning when the WBC count in the blood exceeds 1.0 to 5.0 x 10(9) per L.     

Impact of donor- and collection-related variables on product quality in ex utero cord blood banking

BACKGROUND: Optimizing product quality is a current focus in cord blood banking. This study evaluates the role of selected donor- and collection-related variables. STUDY DESIGN AND METHODS: Retrospective review was performed of cord blood units (CBUs) collected ex utero between February 1, 2000, and February 28, 2002. Preprocessing volume and total nucleated cell (TNC) counts and postprocessing CD34 cell counts were used as product quality indicators. RESULTS: Of 2084 CBUs, volume determinations and TNC counts were performed on 1628 and CD34+ counts on 1124 CBUs. Mean volume and TNC and CD34+ counts were 85.2 mL, 118.9 x 10(7), and 5.2 x 10(6), respectively. In univariate analysis, placental weight of greater than 500 g and meconium in amniotic fluid correlated with better volume and TNC and CD34+ counts. Greater than 40 weeks' gestation predicted enhanced volume and TNC count. Cesarean section, two- versus one-person collection, and not greater than 5 minutes between placental delivery and collection produced superior volume. Increased TNC count was also seen in Caucasian women, primigravidae, female newborns, and collection duration of more than 5 minutes. A time between delivery of newborn and placenta of not greater than 10 minutes predicted better volume and CD34+ count. By regression analysis, collection within not greater than 5 minutes of placental delivery produced superior volume and TNC count. CONCLUSION: Donor selection and collection technique modifications may improve product quality. TNC count appears to be more affected by different variables than CD34+ count.     

Increased numbers of total nucleated and CD34+ cells in blood group O cord blood: an analysis of neonatal innate factors in the Korean population

BACKGROUND: We analyzed neonatal factors that could affect hematopoietic variables of cord blood (CB) donated from Korean neonates. STUDY DESIGN AND METHODS: The numbers of total nucleated cells (TNCs), CD34+ cells, and CD34+ cells/TNCs of CB in neonates were compared according to sex, gestational age, birth weight, birth weight centile for gestational age, and ABO blood group. RESULTS: With 11,098 CB units analyzed, blood group O CB showed an increased number of TNCs, CD34+ cells, and CD34+ cells/TNCs compared with other blood groups. Although TNC counts were lower in males, no difference in the number of CD34+ cells was demonstrated because the number of CD34+ cells/TNCs was higher in males. An increase in the gestational age resulted in an increase in the number of TNCs and decreases in the number of CD34+ cells and CD34+ cells/TNCs. The numbers of TNCs, CD34+ cells, and CD34+ cells/TNCs increased according to increased birth weight centile as well as birth weight. CONCLUSION: CB with blood group O has unique hematologic variables in this large‐scale analysis of Korean neonates, although the impact on the storage policies of CB banks or the clinical outcome of transplantation remains to be determined.     

Factors affecting banking quality of umbilical cord blood for transplantation

BACKGROUND: The most important objective for cord blood banks is to store cord blood units of high quality, which is determined by total nucleated cells (TNCs) and CD34+ cells. Determining the factors affecting the stored life‐saving cells would be beneficial to the field. STUDY DESIGN AND METHODS: A total of 4930 cord blood units were collected between January 2007 and October 2009 and processed using a double extraction technique to sediment red blood cells with variable centrifugation time determined by the formula CT = KL – M, where CT is centrifuge time, K is 7.7227, M is 29.742, and L is ln (volume of cord blood with anticoagulant). The recovery rate of TNCs and other relevant factors affecting banking quality were analyzed. RESULTS: The mean recovery rate of TNCs was 97.7 ± 2.5% with 0.04% (2/4930) units below 80% and 10.8% (532/4930) units below 95%. The TNCs per unit was affected by gestation duration (p < 0.01), sex of infant (p < 0.01), mode of delivery (p < 0.01), collection method (p < 0.01), and ethnicity (p < 0.001). The number of postprocessing CD34+ cells was affected only by sex of the infant (p < 0.05). The viability of nucleated cells after processing was 94.8 ± 4.8% and was affected by the number of hours between collection and processing (p < 0.01). In contrast, the viability of CD34+ cells was 99.5 ± 1.0% (n = 30) when samples with low viability of TNCs were assessed. The results did not reveal a significant correlation (r = 0.07, p = 0.38). CONCLUSION: The double extraction technique provides a high and consistent recovery of TNCs, which ensures that more life‐saving cells will be banked for transplants.     

TRANSPLANTATION AND CELLULAR ENGINEERING: Association of stress‐related perinatal factors and cord blood unit hematopoietic progenitors is dependent on delivery mode

BACKGROUND: Perinatal characteristics, variably utilized in cord blood (CB) selection for banking, affect CB hematopoietic progenitor cells (HPCs). The association between perinatal stress factors and CB unit HPCs was evaluated. STUDY DESIGN AND METHODS: Umbilical arterial (UA) pH, absolute and relative birth weight (BW) and placental weight (PW), and PW/BW ratio of 167 healthy, full‐term infants were compared with CB unit prefreeze total nucleated cells (TNCs), total CD34+ (TCD34+) cells, and total colony‐forming unit (CFU‐TOT) number. Cesarean section (C‐section, n = 104) and vaginal delivery subgroups were also analyzed. RESULTS: UA pH (median, 7.28; range, 7.04‐7.40) correlated with CB unit CFU‐TOT number (n = 166; r = ?0.32, p < 0.0001), TCD34+ cells (r = ?0.31, p < 0.0001), and TNCs (r = ?0.29, p = 0.0002). Similarly, BW, PW, and PW/BW ratio correlated with HPCs. In multiple linear regression analysis, CFU‐TOT number was predicted by collected CB TNCs and UA pH in vaginal deliveries (R² = 0.53), in contrast with TNCs, PW, and BW in C‐sections (R² = 0.37). TCD34+ cells were predicted by adding UA pH (vaginal deliveries, R² = 0.75) or PW (C‐sections, R² = 0.36) to collected CB TNCs. CONCLUSIONS: Stress‐related perinatal factors, particularly UA pH, are associated with CB unit HPCs and may improve unit selection. Multiple linear regression models may prove useful for predicting HPCs. Mode of delivery affects model choice; UA pH has a strong effect on HPCs in vaginal deliveries.     

Comparison of CD34+ cell collection on the CS-3000+ and Amicus blood cell separators

BACKGROUND: Mobilized PBPCs, detectable on the basis of CD34 expression, can be collected on various cell separators. The CD34+ cell collection efficiencies of two cell separators (CS-3000+ and Amicus, Baxter) were tested on two comparable groups of oncology patients. STUDY DESIGN AND METHODS: Leukapheresis assisted by the standard manufacturer's software and variables settings was performed in 37 (CS-3000+) and 34 (Amicus) patients (total of 83 and 67 collections, respectively) after chemotherapy plus G-CSF treatment. RESULTS: The total CD34+ cell count per leukapheresis components as well as per kg of patient's body weight were twofold higher by using the Amicus than the CS-3000+ device. Platelet contamination in Amicus components was twice as low compared to the CS3000+. Mean Amicus CD34+ collection efficiency (CD34+eff) (54.9 +/- 27.2%) was significantly higher (p < 0.015) than the CS-3000+ (46.4 +/- 16.7%) one. However, Amicus CD34+eff decreased progressively as the peripheral blood CD34+ concentrations increases over 200 CD34+ cells per microL. A parallel increase in the WBC counts in these cases seems to be the principal cause of decrease in CD34+eff (evident for WBCs >40 x 10(3)/microL and most pronounced for WBCs >60 x 10(3)/microL). CONCLUSIONS: Mean CD34+eff and CD34+ cell yields were better on Amicus than on CS-3000+. CD34+eff of Amicus, however, seems to be related to the initial WBC counts, decreasing progressively when WBC increased over 4 x 10(3) per microL that coincided with the increase in CD34+ cell concentrations. For these cases, the volume and duration of cycles should be adapted to optimize CD34+ collections by using Amicus separators.     

WBC reduction in cryopreserved RBC units

BACKGROUND: WBC reduction of blood components by filtration is widely practiced to decrease the incidence of alloimmunization. Freezing RBCs reduces the WBC load but is insufficient to achieve the currently recommended US limit of 5 x 10(6) cells per unit. STUDY DESIGN AND METHODS: Blood units were WBC reduced by filtration or by buffy-coat (BC) removal and then frozen in the presence of a high-glycerol concentration. The count of residual WBCs was determined by flow cytometry after deglycerolization. RESULTS: Without WBC reduction, the total number of WBCs present after freezing and thawing was 11.5 +/- 9.2 x 10(6) WBCs per unit (n = 18). Particulate residues from monocytes and neutrophils that were detected in the remaining cell populations were positive for CD66b, CD3, CD14, and CD41. Removal of 40 mL of BC at the time of blood collection lowered the number of WBCs after freezing and deglycerolization to 1.9 +/- 1.20 x 10(6) per unit (n = 11). Similar results were obtained when only 20 mL of BC was removed using a modified blood-bag design. Unfiltered RBC units that were stored for 15 days at 4 degrees C after BC removal contained fewer than 5 x 10(6) WBCs after deglycerolization. Units WBC reduced by filtration before freezing had no detectable WBCs after thawing and washing (n = 14) and did not contain particulate residues. Filtration after deglycerolization was effective in reducing the WBC count below 10(6), although some debris was still present. CONCLUSION: RBC freezing alone will not reduce residual counts to recommended levels. However, initial removal of BC can provide an economical alternative to WBC filtration for cryopreserved units. Units that were not WBC reduced before freezing can be filtered after deglycerolization when needed.     

供者特征对脐带血造血功能的影响

目的 分析可能影响脐带血造血功能的供者特征.方法 对广州脐带血库1998年6月至2008年12月保存的4 358份脐带血的供者特征(包括母亲年龄、分娩方式、妊娠期、婴儿体重、婴儿性别)和脐带血采集量及造血功能的指标(包括总有核细胞数、CD34+细胞、干细胞集落等)进行相关性分析.结果 婴儿体重、分娩方式及婴儿性别是影响脐带血采集量、总有核细胞数、CD34+细胞数、CFUs及CFU-GM的主要因素.随着婴儿体重的增加,脐带血采集量、总有核细胞数、CD34+细胞数、CFUs、CFU-GM均呈上升趋势(P=0.000).阴道分娩时脐带血的采集量虽然低于刮宫产(P=0.000),但总有核细胞数、CD34+细胞数、CFUs,CFU-GM均高于剖宫产(P=0.000).女婴脐带血中总有核细胞数含量高于男婴(P=0.000),但脐带血采集量(P=0.000)、CD34+细胞数(P=0.002)均低于男婴.随着妊娠期的延长,脐带血中总有核细胞数增加(P=0.000),但CD34+细胞数减少(P=0.001).结论 某些脐带血供者特征对脐带血造血功能指标有积极影响.     

Predicting overall viability of cord blood harvests

BACKGROUND: Cord blood (CB) is a product rich in primitive adult stem cells used in hematopoietic stem cell transplantation. After collection, the CB is transported to a facility where the unit is processed and then frozen up to 48 hours later. These processes can lead to compromised white blood cell (WBC) viability. This study investigates the factors that affect WBC viability before freezing of the cells. STUDY DESIGN AND METHODS: We retrospectively analyzed WBC viability from 9918 CB collections harvested from 2003 to 2010 to determine if collection volume and time to freezing (TTF) had a significant effect on WBC viability. CB was collected in dispersed clinical locations by local staff trained to the same methods. CB was transported to the central lab under controlled conditions for analysis and processing. RESULTS: The collected CB units had a mean volume of 77.1 ± 31.3 mL, mean WBC count of 10.5 × 10⁸ ± 5.6 × 10⁸, mean total CD34+ cell count of 4.0 × 10⁶ ± 3.7 × 10⁶, and mean WBC viability of 91.7% ± 6.5%. WBC viability was most significantly affected by the volume of CB collected and the TTF. As collection volumes increased, WBC viability increased, with mean viability of 95.0% ± 3.5% in CB collections of more than 120 mL. Decreased viability was associated with volumes of less than 60 mL and TTF of more than 24 hours. From these data we have developed decision tables that estimate WBC viability based on CB volume and TTF. CONCLUSION: This study identifies optimal TTF for different collection volumes to maintain WBC viability of the collected CB.     

Maternal and neonatal factors associated with the high yield of mononuclear low-density/CD34+ cells from placental/umbilical cord blood

Placental/umbilical cord blood (CB) contains nucleated cells and hematopoietic stem/progenitor cells (CD34(+) cells). However it is difficult to predict the number of nucleated/CD34(+) cells in each CB before cell processing. Despite many previous studies from institutes affiliated with CB banks in metropolitan areas, little information is available regarding the characteristics of CB units from other medical facilities. The purpose of the present study was to analyze the maternal/neonatal factors on the yield of cells in CB units. A total of 176 CB units were obtained from single-birth and normal vaginal deliveries. Mononuclear low-density (LD) cells were separated using Ficoll-Paque within 24 hrs after CB collection and then processed for the purification of CD34(+) cells. A multiple linear regression analysis was performed to assess the correlations between the yield of cells and maternal/neonatal factors including maternal age, gravid status, duration of labor, gestational age, neonatal height and weight, cord length, and meconium in the amniotic fluid. The total LD cells per CB unit had a weak positive correlation with the maternal age of primigravidae. The total LD cells per CB unit from the primigravidae aged > or = 25 were significantly higher than those from the primigravidae aged < or = 24. The total CD34(+) cells per CB unit from the 1-gravidae were significantly higher than those from the 2-gravidae and 3-gravidae, respectively among all donors. These results indicate that the CB units from the primigravidae aged > or = 25 are more likely to contain higher yield of LD/CD34(+) cells.     

Cesarean section due to fetal distress increases the number of stem cells in umbilical cord blood

BACKGROUND: Umbilical cord blood (UCB) can be used as hematopoietic stem cell source for transplantation. The success of a transplantation is highly correlated with the number of total nucleated cells (TNCs) and CD34+ cells in the UCB. Certain obstetric factors increase the yield of stem cells in the UCB. It is necessary to evaluate optimal conditions in labor to decrease the rate of sample rejection due to low cell count. No data exist regarding the difference between primary and secondary Cesarean sections in terms of efficacy of stem cell harvesting. STUDY DESIGN AND METHODS: Seventy-nine consecutive UCB units from women who had a Cesarean section between 1997 and 2003 were included. The number of TNCs, CD34+ cells, colony-forming units (CFUs), white blood cells (WBCs), nucleated red blood cells (NRBCs), and the total collection volume were compared between cases with primary and secondary Cesarean section. RESULTS: UCB obtained after a Cesarean section due to fetal distress has significantly higher numbers of TNCs, CD34+ cells, NRBCs, and WBCs compared to elective Cesarean section. Of the cases with secondary Cesarean section due to fetal distress, 67 percent resulted in UCB units with sufficient TNC numbers (> or =80 x 10(7) TNCs) compared to 42 percent of the cases with primary Cesarean section. CONCLUSION: Fetal distress increases the number of hematopoietic stem cells mobilized into UCB. Particular effort should be made to collect UCB from newborns who experienced fetal distress.     

Whole-blood leuko-depletion filters as a source of CD 34+ progenitors potentially usable in cell therapy

BACKGROUND: Used leuko-depletion filters (LDFs), containing billions of white blood cells (WBCs), are discarded. Because the steady-state blood contains low quantities of stem and progenitor cells that are retained in LDFs, the viability and the functional properties of mononuclear cells (MNCs) and CD 34+ cells recovered from LDFs were investigated. STUDY DESIGN AND METHODS: WBCs were recovered from LDFs by use of a closed system. MNCs and CD 34+ cells were isolated from freshly LDF-recovered WBCs or after their overnight incubation. The CD 34+ cells were enumerated, as well as the number of colony-forming unit (CFU)-granulocyte-macrophage, burst-forming unit-erythroid, and CFU-Mixed. The expansion in clinical-scale volume cultures (serum-free medium plus stem cell factor, granulocyte-colony-stimulating factor, and megakaryocyte growth and development factor) was performed starting from MNCs, freshly isolated CD 34+ cells, and CD 34+ cells isolated after overnight incubation of WBCs. The erythroid, megakaryocytic, eosinophilic, and monocyte-myelocytic lineage differentiation of LDF-recovered CD 34+ cells was challenged in liquid cultures by adding relevant cytokines. RESULTS: Nearly 450 x 10(3) viable CD 34+ cells were recovered per LDF. These cells exhibit unimpaired colony-forming ability. It is possible to expand these cells ex vivo, but their response to cytokines is different compared to mobilized peripheral blood and cord blood CD 34+ cells. Thus, further work is necessary to optimize their ex vivo expansion. These cells give rise to the mature cells and precursors of erythroid, megakaryocytic, eosinophilic, and monomyelocytic lineage in liquid cultures. CONCLUSION: MNCs and CD 34+ cells recovered from the LDFs exhibit unimpaired functional capacities. Recent development of ex vivo technologies for expansion, retro-differentiation, and differentiation reinforces the value in cell therapy of these LDG-recovered peripheral blood progenitor cells that are routinely discarded.     

Associations among birth weight, placental weight, gestational period and product quality indicators of umbilical cord blood units

Introduction

Numbers of CD34+ cell and total nucleated cell (TNC) and cord blood volume are commonly used as indicators for haematopoietic potential of umbilical cord blood (UCB) units. The purpose of this study was to investigate the relationship between donor-related factors and the quality indicators of UCB.

Methods

Obstetric and neonatal clinical laboratory data of a total of 1549 UCB units were obtained from Buddhist Tzu Chi Stem Cells Center (BTCSCC) Cord Blood Bank. A retrospective multivariate analysis was conducted to analyze the data.

Results

Our results showed that birth weight had positive correlations with each of the clinical features of CD34+ cell number, TNC count and unit volume of UCB, followed by the placental weight. Longer gestational period would decrease CD34+ cell number and volume of UCB. Female baby and mode of vaginal delivery of neonates were found to have larger amount of TNC in UCB.

Conclusion

Our results would be helpful and beneficial in building up standard criteria for evaluating stored UCB units.     

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.     

双份脐血间CD34^＋细胞与CD3^＋细胞相互作用对分化增殖能力的影响

目的双份脐血移植的植入动力学机制目前尚无定论,推测双份脐血中的淋巴细胞与优势份脐血的产生相关。本实验将双份脐血的CD34^＋细胞与CD3^＋细胞混合培养,观察CD3^＋细胞对CD34^＋细胞的增殖分化有无影响。方法建立液体和半固体培养体系,将免疫磁珠分选纯化的双份脐血间的CD34^＋细胞和CD3^＋细胞混合培养6d和14d。以流式细胞计数观测CD34^＋细胞培养后的分化指标（CD33,CD41,CD71）;计数集落形成单位（GM—CFU、BFU-E、GEMM—CFU）分析CD34^＋细胞的增殖情况。结果液体共培养后各份CD34^＋细胞表面分化指标的变化。脐血CD34^＋细胞分选富集的纯度为（98．70±0．72）％。3d实验组和对照组的各项分化指标无差异（P〉0．05）;6d的CD33、CD71实验组明显低于对照组,而CD41明显高于对照组（P〈0．05）。半固体共培养后CD34^＋细胞增殖能力的变化。实验组的红系集落形成单位（BFU—E）及粒单细胞集落形成单位（GM—CFU）数低于对照组（P〈0．05）,而混合细胞集落形成数（GEMM—CFU）高于对照组（P〈0．05）。结论将两份脐血的CD34^＋细胞和CD3^＋细胞体外混合培养对CD34^＋细胞的增殖分化能力有影响,推测双份脐血间的相互作用可部分地通过CD3^＋细胞介导。     

Characterization of banked umbilical cord blood hematopoietic progenitor cells and lymphocyte subsets and correlation with ethnicity, birth weight, sex, and type of delivery: a Cord Blood Transplantation (COBLT) Study report

BACKGROUND: The Cord Blood Transplantation (COBLT) Study banking program was initiated in 1996. The study goals were to develop standard operating procedures for cord blood (CB) donor recruitment and banking and to build an ethnically diverse unrelated CB bank to support a transplantation protocol. STUDY DESIGN AND METHODS: The hematopoietic progenitor cell (HPC) and lymphocyte subset (LS) content of approximately 8000 CB units were characterized, and these results were correlated with donor ethnicity, birth weight, gestational age, sex, and type of delivery. RESULTS: There was a significant correlation of CD34+ cell count with colony-forming unit (CFU)-granulocyte-macrophage (r=0.68, p<0.001), CFU-granulocyte-erythroid-macrophage-megakaryocyte (r=0.52, p<0.001), burst-forming unit-erythroid (BFU-E; r=0.61, p<0.001), and total CFUs (r=0.67, p<0.001). Nucleated red blood cell count was significantly correlated with total CD34+ (r=0.56, p<0.001), total CFU (r=0.50, p<0.001), BFU-E (r=0.48, p<0.001), and counts of CD34+ subsets (p<0.001). Caucasian ethnicity was significantly correlated with higher CD3+/CD4+, CD19+, and CD16+/CD56+ LSs. Furthermore, CD34+/CD38- and CD34+/CD61+ CB units (HPC-C) were significantly lower in African American and Asian persons compared to Caucasian and Hispanic persons. Male sex was associated with significantly fewer CD3+/CD4+, CD19+, and CD16+/CD56+ but increased CD3+/CD8+ LSs (p<0.001). Finally, cesarean section was associated with significantly higher total CFU and CD16+/CD56+ but lower CD3+/CD4+, CD3+/CD8+, and CD19+ LSs. CONCLUSION: These results provide a standard and range for uniformly processed HPC-C progenitor cells and LSs. CB progenitor cells and/or LSs may in the future predict for rapidity of engraftment, incidence of graft-versus-host disease, speed and quality of immunore- constitution, graft-versus-tumor effects, and/or success of gene transfection after CB transplantation.     

未动员的外周血造血干细胞采集效果及影响因素

目的探讨未动员的外周血造血干细胞(PBSC)采集效果及影响因素。方法应用血细胞分离机对112例未经重组人粒细胞集落刺激因子(rhG-CSF)动员的健康供者进行PBSC采集,并分析年龄、体质量指数(BMI)、采集前血常规指标、采集循环血容量、处理血量及循环次数等因素对男女两组供者所采集获得的单个核细胞(MNC)、CD34+计数的影响,同时比较分析男女两组供者采集前血常规指标及采集过程、采集物等指标。结果男性组年龄,BMI,采集前血细胞比容(Hct)、血红蛋白(Hb)、MNC计数、白细胞(WBC)计数,总循环血量高于女性组,而采集处理血量、采集物中MNC计数低于女性组,差异均有统计学意义(P<0.05)。在男性组中,采集物中MNC计数的影响因素为采集循环数(P=0.018),CD34+计数的影响因素为采集前血小板(PLT)计数(P=0.048)。女性组年龄、采集前PLT计数、WBC计数、MNC百分比、MNC计数是采集物中MNC计数的影响因素(P<0.05),采集前Hct、PLT计数及采集处理血量是采集物中CD34+计数的影响因素(P<0.05)。结论未经rhG-CSF动员的健康供者其外周血中存在一定数量的MNC、CD34+细胞,并能采集到满足临床嵌合抗原受体T细胞疗法所需要的MNC阈值。健康供者不同年龄、性别、总循环血量等可致采集效果不一致;采集前关注血常规中PLT计数有助于预测PBSC采集效果。     

Factors influencing cord blood viability assessment before cryopreservation

BACKGROUND: Cord blood (CB) viability determines product quality and varies with time and temperature of exposure before cryopreservation. Global viability assessment may not reflect viability of white blood cell (WBC) subsets, CD34+ cell viability, or hematopoietic stem/progenitor cells function. STUDY DESIGN AND METHODS: We compared trypan blue (TB) and acridine orange/propidium iodide (AO/PI) staining with flow‐cytometric (7‐aminoactinomycin D [7‐AAD]) viability in total WBCs (Tot‐AAD), granulocytes, monocytes, lymphocytes, and CD34+ cells and total nucleated cell, CD34+, and colony‐forming cell (CFC) recovery as a function of time and temperature (4, 24, and 37°C) before cryopreservation. RESULTS: TB, AO/PI, and Tot‐AAD viability was concordant up to 72 hours (4°C) and 48 hours (24°C) postcollection; however, CD34+ viability was significantly higher due to loss of viable granulocytes. In contrast, at “physiologic” temperature (37°C), the decline in TB, AO/PI, and Tot‐AAD viability was significantly lower than the rate of viable CD34+ and CFC loss. At all times and temperatures, CFC recovery correlated best with CD34+ viability and recovery. CONCLUSIONS: CB cell populations exhibit differential time‐ and temperature‐dependent susceptibility to in vitro cell death; consequently, global viability measurements using TB, AO/PI, or 7‐AAD (Tot‐AAD) significantly underestimate (4‐24°C) or overestimate (24‐37°C) CD34+ viability and CFC recovery. Our results demonstrate the limitations of global viability assessment with TB, AO/PI, and total AAD; endorse the routine use of CD34+ cell viability measurements; emphasize the importance of temperature control during shipment; and have implications with regard to establishing acceptable “cutoff” values for viability measurements and CB collection through processing time.     

Analysis of maternal and neonatal factors that influence the nucleated and CD34+ cell yield for cord blood banking

BACKGROUND: It would be beneficial to be able to predict the cord blood (CB) cell yield from volunteer donors before cell processing. STUDY DESIGN AND METHODS: The maternal and neonatal factors that influence the total nucleated cell (TNC), CD34+ cell, and CFU-GM yields in CB collected for the Chugoku-Shikoku Cord Blood Bank were evaluated. RESULTS: In a univariate analysis, the volume of CB collected was significantly correlated with the TNC, CD34+ cell, and CFU-GM yields (p < 0.001). A longer cord (p < 0.001), larger placenta (p < 0.001), and bigger baby (p < 0.001) were associated with a greater volume of CB. A female baby (p < 0.05) and longer gestational age (p < 0.005) were associated with a higher TNC concentration. A younger maternal age (p < 0.05), larger birth weight (p < 0.001), shorter gestational age (p < 0.001), and shorter time from collection to processing (p < 0.05) were associated with a higher CD34+ cell concentration. A multivariate linear regression analysis was performed to predict the yield and determine first-level selection criteria to start processing when the volume of CB units was on the borderline. However, this formula might not be suitable for actual use. CONCLUSION: Maternal and neonatal factors appeared to affect CB cell yields. These findings might be useful for efficiently collecting more qualified CB units.