Cord blood volume reduction using an automated system (Sepax) vs. a semi-automated system (Optipress II) and a manual method (hydroxyethyl starch sedimentation) for routine cord blood banking: a comparative study

Background With the development of cord blood banking, solutions have to be found to solve the storage space problem, by reducing the volume of cord blood units (CBU). Methods We compared total nucleated cell (TNC) and CD34(+) cell counts before and after processing with three different CBU volume reduction methods used consecutively in our bank: a manual method based on hydroxyethyl starch sedimentation (HES) (n=447), a top-and-bottom (TB) semi-automated method (n=181) using Optipress II, and the Sepax automated method (n=213). Statistical analysis was done using t-tests, linear regression and Spearman correlation coefficients. Adjusted variables included TNC, CD34(+) cell counts, CD34(+) cell percentage and CB volume before processing. Results TNC recovery was higher with Sepax (80.3+/-7.7%) than with HES (76.8+/-9.1%) and TB (60.7+/-13.5%) (P<0.0001, both). It was higher with HES than with TB (P<0.0001). CD34(+) cell recovery was higher with Sepax (86+/-11.6%) than with HES (81.5+/-12.5%) and TB (82.0+/-17.7%) (P<0.008 and <0.0001, respectively) and results with HES and TB were not significantly different (P=0.7). Interestingly, with Sepax, TNC and CD34(+) cell recoveries were not correlated with pre-processing values (P=0.8 and 0.4, respectively). Discussion In conclusion, the Sepax volume reduction method allows higher TNC and CD34(+) cell recoveries.     

Comparison of five methods for concentrating progenitor cells in human marrow transplantation

Enrichment of bone marrow (BM) aspirates is an important prerequisite prior to in vitro treatment or cryopreservation. In this regard, we have analyzed the results obtained on 190 BM processed by the following 5 techniques: HES sedimentation with centrifugation; COBE 2991 blood cell processor; Ficoll/hypaque (F/H) gradient centrifugation; Continuous flow cell separator (CS 3000 Fenwal); Semicontinuous blood cell separator (Dideco T 90). Each procedure was evaluated by measuring the recovery of nucleated marrow cells (NC), mononuclear cells (MNC), committed progenitor cells (CFU-GM), the reduction of BM volume and the removal of red blood cells (RBC) and polymorphonuclear cells (PMN). The results of this comparative study show that F/H gradient on a COBE 2991 cell washer provides the most efficient system for purifying a MNC fraction (89% recovery) from unwanted cells (RBC less than 2% and PMN less than 2%) in a very small volume (98% reduction) with a good recovery of CFU-GM (80%).     

不同降温速率对脐血干细胞冷冻复苏后生物学特性的影响

考察了不同降温速率对脐血造血干细胞各种生物学特性的影响。在4℃～-40℃的降温范围内,分别选择-0.5℃/min, -1℃/min, -5℃/min的降温速率进行降温,对复苏后的脐血单个核细胞的回收率、活性和CD34+含量的变化以及BFU-E、CFUGM和CFU-MK集落的回收率进行了考察,发现在-1℃/min的降温速率下,脐血MNC回收率可达93.3%±1.8%,活性可达95.0%±3.9%, CD34^＋细胞回收率达80.0%±17.9%,BFUE回收率为87.1%±5.5%,CFUGM回收率达88.5%±8.9%,CFUMK的回收率也达到86.2%±7.4%。并且对复苏后的细胞进一步进行体外培养,发现在-1℃/min的降温速率下复苏的细胞仍然具有与未经冷冻细胞相似的扩增能力,而-0.5℃/min和-5℃/min这两种降温速率条件下复苏的细胞与未经冷冻的细胞相比差距较大。因而-1℃/min的降温速率对冻存脐血干细胞比较合适。     

Influence of volume reduction and cryopreservation methodologies on quality of thawed umbilical cord blood units for transplantation

Introduction

Although there is considerable variability in methodology among umbilical cord blood banks, their common goal is to achieve optimal product quality for transplantation. Cryopreservation is a critical issue for a long-term maintenance of cord blood viability and colony-forming capacities.

Materials and methods

We designed a prospective study to compare controlled (CRF) vs. non-controlled freezing (URF) of volume-reduced cord blood units. In addition, the influence of hydroxy ethyl starch (HES) on cryopreservation was also assayed. To assess the efficiency of protocols used, cell recoveries were measured and the presence of hematopoietic colony-forming units was quantified.

Results

In the study phase, we observed similar CB haematopoietc recoveries for CRF and URF strategies, except for TNC recovery that was better for HES volume reduced CB units in the URF group. When we analysed the data of routine processed CB units in samples from satellite cryovials, we found better BFU-E, CFU-GM, CFU-GEMM and CFU recoveries for those units processed with HES than without HES, in an URF manner.

Conclusions

URF of CB units is a cryopreservation procedure that allows similar hematopoietic progenitor recoveries than CRF with programmed devices. However, our study suggests that those banks that cryopreserve CB units in a URF manner should use HES for volume reduction. On the other hand, for CRF cryopreservation methodology volume reduction with and without HES are equally useful.     

Cell recovery comparison between plasma depletion/reduction- and red cell reduction-processing of umbilical cord blood

Background aimsLimited cell dose has hampered the use of cord blood transplantation (CBT) in adults. One method of minimizing nucleated cell loss in cord blood (CB) processing is to deplete or reduce plasma but not red blood cells - plasma depletion/reduction (PDR).MethodsThe nucleated cell loss of PDR was studied, and determined to be less than 0.1% in the discarded supernatant plasma fraction in validation experiments. After testing and archival sampling, the median nucleated cell recovery for PDR processing was 90%, and median CD34⁺ cell recovery 88%. In a CB bank inventory of 12 339 products with both pre- and post-processing total nucleated cells (TNC), PDR processing resulted in median post-processing TNC recoveries of 90.0% after testing and archival samples removal. Using the same 10 CB units divided into two halves, we compared directly the recovery of PDR against hydroxyethyl starch red cell reduction (RCR) for TNC, CD34⁺ cells and colony-forming units (CFU-GM, CFU-E, CFU-GEMM and total CFU) after parallel processing. We also compared the loss of very small embryonic-like stem cells (VSEL).ResultsWe demonstrated significantly higher recoveries using PDR for TNC (124%), CD34⁺ cells (121%), CFU-GM (225%), CFU-GEMM (201%), total CFU (186%) and VSEL (187%). The proportion of high TNC products was compared between 10 912 PDR and 38 819 RCR CB products and found to be 200% higher for products that had TNC ≥150 × 10⁷ (P = 0.0001) for the PDR inventory.ConclusionsOur data indicate that PDR processing of CB provides a significantly more efficient usage of this valuable and scarce resource.     

Initial cord blood unit volume affects mononuclear cell and CD34+ cell-processing efficiency in a non-linear fashion

Background aimsUmbilical cord blood (UCB) is a source of hematopoietic stem cells that initially was used exclusively for the hematopoietic reconstitution of pediatric patients. It is now suggested for use for adults as well, a fact that increases the pressure to obtain units with high cellularity. Therefore, the optimization of UCB processing is a priority.MethodsThe present study focused on parameters influencing total nucleated cell (TNC), mononucleated cell (MNC) and CD34 ⁺ cell (CD34C) recovery after routine volume reduction of 1553 UCB units using hydroxyethyl starch-induced sedimentation with an automated device, under routine laboratory conditions.ResultsWe show that the unit volume rather than the TNC count significantly affects TNC, MNC and CD34C processing efficiency (PEf), and this in a non-linear fashion: when units were sampled according to the collection volume, including pre-loaded anticoagulant (gross volume), PEf increased up to a unit volume of 110–150 mL and decreased thereafter. Thus units with initial gross volumes < 90 mL and > 170 mL similarly exhibited a poor PEf.ConclusionsThese data identify unit gross volume as a major parameter influencing PEf and suggest that fractionation of large units should be contemplated only when the resulting volume of split units is > 90 mL.     

Processing of autologous bone marrow cells by apheresis technology for cell-based cardiovascular regeneration

Background aims. Bone marrow (BM)-derived mononuclear cell (MNC) preparations are increasingly used in experimental studies exploring the potential effect of progenitor cell-derived therapies in cardiocirculatory diseases. We analyzed the cellular BM composition, side-effects and other process-related variables of BM harvest and BM-MNC preparation in 80 patients with cardiovascular disease. Methods. BM (median 828 mL, range 223-1038 mL) was collected from the iliac crest. After BM harvest the MNC fraction was enriched by semi-automatic apheresis to reduce the total volume of the transplant. Autologous red blood cells (RBC) were salvaged from the initial BM harvest and autotransfused to the patients. Results. There were no serious side-effects related to BM collection, particularly no serious bleeding complications. Twenty- five of 80 (31%) patients developed mild pain. BM harvest resulted in the collection of a median of 2.8 × 10(9) MNC, containing a median of 66.5 × 10(6) CD34/45 cells, 39.5 × 10(6) CD133/45 cells and 50.3 × 10(6) CD34/CD133 cells. Apheresis technology-based MNC enrichment of harvested BM resulted in a progenitor cell recovery of 69-75.3% of total cells. Additional salvage of RBC from the initial BM harvest resulted in the recovery of a median of 175.0 mL autologous RBC mass. Transfusion of salvaged RBC was well tolerated and resulted in a significant increase in hemoglobin levels. Conclusions. Collection of BM of up to 1 L in combination with in vitro processing using a semi-automated apheresis device is a safe and feasible approach to increasing the number of progenitor cells necessary for cellular therapies, particularly when combined with RBC salvage.     

A novel high-yield volume-reduction method for the cryopreservation of UC blood units

BACKGROUND: For the application of umbilical cord blood (UCB) units as hematopoietic grafts, a dose of 3.7 x 10(7) nucleated cells (NC)/kg body weight is required. NC can be lost during volume-reduction processing and during thawing. A novel modification of the double-processing protocol with the aim of minimizing NC loss is described and evaluated. METHODS: One-hundred and fifty UCB were collected. The volume was reduced by a centrifugation step following double-processing in the presence of 2% HES 200/0.5. Pre- and post-processing cell counts and platelet parameters were measured with an automatic counter. The number of viable CD34+ hemopoietic stem cells was measured by flow cytometry. In 25 of the samples, colony-forming units (CFU) were also determined. The same samples were thawed 6 months after cryopreservation and re-evaluated. RESULTS: The volume was reduced to 6 +/- 1.5 mL. The recovery of NC, MNC, CD34+ hemopoietic stem cells, RBC depletion and CFU following double-processing was 93.6 +/- 3.2%, 95.8 +/- 2.2%, 98.4 +/- 1.5%, 96.8 +/- 1.1% and 107.1 +/- 6.1% (for 25 samples), respectively. The post-thaw recoveries of NC, MNC, CD34+ hemopoietic stem cells and CFU (for 25 samples) were 78.6 +/- 5.4%, 90.8 +/- 4.4%, 96.4 +/- 2.5%, 89.1 +/- 4.1%, respectively. No post-thaw cell aggregation was observed. A significant (P<0.05) post-thaw loss of platelets and signs of platelet activation was observed. DISCUSSION: The protocol uses non-expensive equipment and clinically approved materials and results in samples that can be used in patients with a mean weight of 32.7 kg.     

低氧对CD34^＋造血干／祖细胞增殖分化及其对细胞因子依赖性的影响

To elucidate the effects of hypoxia on the proliferation and differentiation of CD34(+) hematopoietic stem/progenitor cells and their response to cytokines, the cells were isolated from umbilical cord blood by using a high-gradient magnetic cell sorting system (MACS). Mononuclear cells (MNC) and CD34(+) cells were incubated in severe hypoxia (1% oxygen) culture system, and the colony forming cells and antigen expression were studied by colony forming assays and FACS analysis. The results showed that incubation in severe hypoxia increased the number of erythroid bursts (BFU-E) (324.8+/-41.4/10(4) cells) generated from CD34(+) cells (191.2+/-34.5/10(4) cells in the control group, P<0.01). Severe hypoxia also enhanced the maintenance and cloning efficiency of BFU-E in a liquid culture system without growth factors, the number of BFU-E (152.4+/-22.6/10(4)cells) was much bigger than that in the control group (74.2+/-9.3/10(4) cells, P<0.01). In cultures incubated in hypoxia, the percentage of CD34(+) cells was significantly higher (2.5+/-1.2-fold, P<0.05) than in those incubated in air. BFU-E cloning efficiency of MNC was not significantly affected by hypoxia. The above results show that hypoxia enhances the maintenance of erythroid progenitor cells generated from CD34(+) hematopoietic stem/progenitor cells, no matter growth factors are present or not. These positive effects of hypoxia did not occur for the other progenitors.     

A cross-sectional study of umbilical cord blood donor profiles and their influence on umbilical cord blood collection in a Brazilian hospital

Background aimsUmbilical cord blood (UCB) cells are a new alternative to bone marrow source for hematopoietic stem cell transplantation and their use has increased in the last decade. Thus efforts are being made to improve the umbilical cord blood unit's quality. Besides compatibility, other factors, such as the total nucleated cell (TNC) count and the percentage of CD34⁺ cells in the product, are very important for a successful transplant outcome. Our aim was to describe our donor population and assess the best cord blood collection technique at Hospital Israelita Albert Einstein's cord blood bank (São Paulo, Brazil).MethodsThis was a retrospective study in which all analyses were performed simultaneously. A Student's t-test was used for qualitative variables for non-matched samples. For qualitative analyses, we used either the chi-square test or the exact Fisher's test.ResultsThe stratification of the population characteristics allowed us to determine which ones had an impact on unit volume, TNC count and percentage of CD34⁺ cells. A significant correlation was observed between donor characteristics and the quality of UCB units as related to maternal and gestational age, type of pregnancy, route of delivery, cord blood collection technique and birth weight.ConclusionsWe found that cord blood collection technique and newborn weight were significantly correlated with the TNC content. The collection technique used at our institution significantly improved the UCB unit volume and consequently the TNC count. Some findings, such as the impact of maternal age and newborn weight, have led us to re-evaluate our protocol in order to achieve better results.     

Identification of immunodeficient molecules in neonatal mononuclear cells by proteomic differential displays

Human newborns are known to be susceptible to microbial infection. This susceptibility is generally attributed to immaturity of the newborn immune system. However, the mechanisms for impaired immunity in newborns are still incompletely defined. In this study, we sought to elucidate the protein differential display between adult and neonatal mononuclear cells (MNC) using a proteomic approach. MNC samples from cord blood and adult peripheral blood were subjected to 2-D PAGE analysis. Differential protein displays between cord blood and adult MNC were determined and validated. There were 34 differentially expressed proteins between cord blood and adult MNC identified by 2-D PAGE. The differentially displayed proteins were clustered into two major signal pathways, cellular processing and purine metabolism. After validation by Western blot, we found more abundant arginase-1 (ARG1) and Rho GDP-dissociation inhibitor 2 (RhoGDI2), while less adenosine deaminase (ADA) and β-actin in cord blood MNC. In functional validation, we found that lower ADA was proven to enhance the TNF-α production by cord blood monocytes. The results from this study discovered the proteomic displays for altered immunity between adult and neonatal MNC that support a understanding of the correction of impaired immune response in newborns.     

Analysis and cryopreservation of hematopoietic stem and progenitor cells from umbilical cord blood

BACKGROUND: Umbilical cord blood (UCB) is an important source of hematopoietic stem and progenitor cells (HSC/HPC) for the reconstitution of the hematopoietic system after clinical transplantation. Cryopreservation of these cells is critical for UCB banking and transplantation as well as for research applications by providing readily available specimens. The objective of this study was to optimize cryopreservation conditions for CD34+ HSC/HPC from UCB. METHODS: Cryopreservation of CD34+ HSC/HPC from UCB after mononuclear cell (MNC) preparation was tested in a research-scale setup. Experimental variations were concentration of the cryoprotectant, the protein additive and cell concentration. In addition, protocols involving slow, serial addition and removal of DMSO were compared with standard protocols (fast addition and removal of DMSO) in order to avoid osmotic stress for the cryopreserved cells. Viability and recoveries of MNC, CD34+ cells and total colony-forming units (CFU) were calculated as read-outs. In addition, sterility testing of the collected UCB units before further processing was performed. RESULTS: The optimal conditions for cryopreservation of CD34+ HPC in MNC preparations were 10% DMSO and 2% human albumin at high cell concentrations (5 x 10(7) MNC/mL) with fast addition and removal of DMSO. After cryopreservation using a computer-controlled freezer, high viabilities (89%) and recoveries for CD34+ cells (89%) as well as for CFU (88%) were observed. Microbial contamination of the collected UCB samples was reduced to a rate of 6.4%. DISCUSSION: Optimized cryopreservation conditions were developed for UCB MNC in respect of the composition of the cryosolution. In addition, our results showed that fast addition of DMSO is essential for improved cryopreservation and post-thaw quality assessment results, whereas the speed of DMSO removal after thawing has little influence on the recoveries of CD34+ cells and CFU.     

Epinephrine-induced changes in the distribution of lymphocyte subsets in peripheral blood of humans

We have previously demonstrated that mitogen responsiveness of mononuclear cells (MNC) from peripheral blood is reduced after a single injection of epinephrine to human subjects. The purpose of the present study was to characterize the relative distributions of MNC subsets after epinephrine administration using monoclonal antibodies and conventional cell markers. The absolute number of circulating MNC increased 64% within 30 min after injection of epinephrine, and returned to baseline by 2 hr. Analysis of MNC subsets revealed that there were no changes in the relative percentages of total T lymphocytes [T3+ cells, or neuraminidase-treated sheep red blood cell rosettes (EN-rosettes)], B lymphocytes (B1+, or cells with surface-bound immunoglobulin), or monocytes (by morphologic criteria) after epinephrine administration. The percentage of inducer T cells (T4+) declined at 30 and 60 min postinjection. Overall, the percentage of suppressor/cytotoxic T cells (T8+) did not change after injection of epinephrine; however, analysis of individual subjects revealed opposing responses of this subset. The T4:T8 ratio was 2.19 before injection, declined to 1.56 at 60 min, then increased to 3.10 2 hr postinjection. The percentage of natural killer/killer cells (HNK-1+) increased from a baseline of 15.5% before epinephrine injection to 29.6% at 30 min postinjection, then declined to 11.4% at 2 hr. Therefore, the administration of physiologic doses of epinephrine results in changes in the relative proportions of lymphocyte subsets in peripheral blood, in addition to reduced mitogen responsiveness as reported previously.     

Improved immunomagnetic enrichment of CD34(+) cells from umbilical cord blood using the CliniMACS cell separation system

Background aimsCD34+ enrichment from cord blood units (CBU) is used increasingly in clinical applications involving ex vivo expansion. The CliniMACS instrument from Miltenyi Biotec is a current good manufacturing practice (cGMP) immunomagnetic selection system primarily designed for processing larger numbers of cells: a standard tubing set (TS) can process a maximum of 60 billion cells, while the larger capacity tubing set (LS) will handle 120 billion cells. In comparison, most CBU contain only 1–2 billion cells, raising a question regarding the optimal tubing set for CBU CD34+ enrichment. We compared CD34+ cell recovery and overall viability after CliniMACS processing of fresh CBU with either TS or LS.MethodsForty-six freshly collected CBU (≤ 36 h) were processed for CD34+ enrichment; 22 consecutive units were selected using TS and a subsequent 24 processed with LS. Cell counts and immunophenotyping were performed pre- and post-selection to assess total nucleated cells (TNC), viability and CD34+ cell content.ResultsTwo-sample t-tests of mean CD34+ recovery and viability revealed significant differences in favor of LS (CD34+ recovery, LS = 56%, TS = 45%, P = 0.003; viability, LS = 74%, TS = 59%, P = 0.011). Stepwise linear regression, considering pre-processing unit age, viability, TNC and CD34+ purity, demonstrated statistically significant correlations only with the tubing set used and age of unit.ConclusionsFor CD34+ enrichment from fresh CBU, LS provided higher post-selection viability and more efficient recovery. In this case, a lower maximum TNC specification of TS was not predictive of better performance. The same may hold for smaller scale enrichment of other cell types with the CliniMACS instrument.     

Recovery of CD45−/Lin−/SSEA-4+ very small embryonic-like stem cells by cord blood bank standard operating procedures

Background aimsVery small embryonic-like (VSEL) stem cells are a rare cell population present in bone marrow, cord blood and other tissues that displays a distinct small cell size and the ability to give rise to cells of the three germ layers. VSEL stem cells were reported to be discarded in the red blood cell fraction by Ficoll-Paque density gradient centrifugation during the processing of bone marrow and cord blood specimens. However, most cord blood banks do not include density gradient centrifugation in their procedures while red blood cells are removed by Hespan sedimentation following the Cord Blood Transplantation Study cord blood bank standard operating procedures (COBLT SOP). To clarify the retention of VSEL stem cells, we investigated the recovery of VSEL stem cells following COBLT SOP guidelines.MethodsThe recovery of CD45⁻/Lin⁻/SSEA-4⁺ VSEL stem cells of umbilical cord blood was examined by flow cytometry before and after COBLT SOP processing, and relative expression of pluripotent genes was analyzed by quantitative polymerase chain reaction.ResultsCD45⁻/Lin⁻/SSEA-4⁺ VSEL stem cells were mostly recovered in the final products following COBLT SOP guidelines. The expression of pluripotent genes could be maintained at >80% in products after hetastarch (Hespan; B. Braun Medical Inc., Irvine, CA, USA) processing.ConclusionsThe rare sub-population of CD45⁻/Lin⁻/SSEA-4⁺ VSEL stem cells survived after Hespan sedimentation. This finding suggests that umbilical cord blood units cryopreserved by COBLT SOP in cord blood banks should retain most VSEL stem cells present in the un-processed specimens.     

影响脐带血采集质量的相关性因素分析

目的回顾性分析影响脐带血采集质量的母婴因素和采集处理因素。 方法记录389份脐带血的采集量、母亲年龄、孕龄、新生儿体重、分娩方式、新生儿性别、胎次及脐带血采集至计数间隔以及采集方式。用KX-21型全自动血液分析仪进行细胞计数并计算有核细胞总数（TNC）。采用Pearson相关和Spearman秩相关进行相关性分析,采用t检验、Mann-Whitney U检验、方差分析及Kruskal-Wallis H检验进行分组比较,分析影响脐带血采集量和TNC的相关因素。? 结果脐带血采集量与TNC显著相关（r = 0.723,P < 0.001）,脐带血采集量大于80 ml时的TNC显著高于低体积者。在母婴因素中,母亲年龄与采集量及TNC差异均无统计学意义;孕龄与采集量负相关（r = -0.119,P = 0.019）,而与TNC正相关（r = 0.138,P = 0.007）,足月儿脐带血的TNC显著高于早产儿（P = 0.038）;婴儿出生体重与采集量及TNC均正相关（r = 0.236,P < 0.001;r = 0.275,P < 0.001）,体重较大婴儿脐带血的采集量和TNC均显著高于体重较小者（P?< 0.001）;剖宫产的脐带血采集量虽高于阴道分娩（P < 0.001）,但其TNC不及阴道分娩;男婴与女婴在脐带血采集量和TNC之间无显著差异。在采集处理因素中,脐带血采集至计数的时间间隔与采集量及TNC均无显著相关。 结论为提高脐带血的保存质量,应侧重选择胎儿体重较大、经阴道分娩的产妇作为脐带血供者,实验室应首先处理采集量较大的脐带血。     

Droplet freezing of antibody-linked indicator red cells of sheep, ox, and human origin

A droplet freezing technique for the cryopreservation of indicator red cells is described. Recovery was crucially dependent on the composition of the solution in which the cells were suspended. Preliminary experiments to determine the relative importance of sucrose, glucose, sodium chloride and hydroxyethyl starch (HES) in determining the survival of trypsin-treated sheep red cells showed that the addition of sucrose or HES or both to isotonic sodium chloride solution increased recovery, whereas the additional inclusion of glucose was detrimental. It was shown that glucose penetrated the cells whereas sucrose did not. The optimum combination of sucrose and sodium chloride concentration, in the presence of 6 g/dl HES, was 7 g/dl sucrose plus 0.3 g/dl sodium chloride. Recovery was increased by increasing the concentration of HES, and maximal recovery was obtained by thawing the frozen droplets in phosphate-buffered saline at 40 °C. Trypsintreated ox and human cells gave much lower recovery than sheep cells when HES was used in the freezing mixture but the substitution of dextran (10 g/dl) for HES gave greater than 80% recovery with all three species. Ten different antibody-coupled reagent cells all gave >83% recovery. The effects of hematocrit, incubation time, and storage temperature are described. The preservation technique described is simple and convenient, and will make it possible to extend the use of immunoassay procedures using antibody-coupled red cells.     

Ex vivo expansion of cord blood mononuclear cells on mesenchymal stem cells

BACKGROUND: Cord blood (CB) cells are being used increasingly as a source of hematopoietic cells to support high dose chemotherapy. However, CB units contain low numbers of cells, including CD34+ cells, and thus their use is associated with significant delays in engraftment of neutrophils and platelets. Exvivo expansion of CB has been proposed to increase the numbers of cells available. We and others have reported the requirement of CD34 selection for optimal expansion of CB products'; however, the selection of frozen CB products in clinical trials results in significant loss of CD34+ cells, with a median recovery of 50, but less than 40% recovery in more than one-third of products. In the present studies we evaluated the potential of mesenchymal stem cells (MSC) to support ex vivo expansion of unselected CB products. METHODS: Mononuclear cells (MNC) from CB products were isolated and cultured on preformed MSC layers in T150 flasks containing 50 mL Stemline II media plus hematopoietic growth factors. Various culture conditions were compared for optimal expansion of the CB MNC. RESULTS: Ex vivo expansion of CB MNC on MSC resulted in 10- to 20-fold expansion of total nucleated cells, seven- to 18-fold expansion of committed progenitor cells, two- to five-fold expansion of primitive progenitor cells and 16- to 37-fold expansion of CD34+ cells. DISCUSSION: These studies demonstrated significant expansion of CB products without CD34 cell selection using culture conditions that are clinically applicable. Our current focus is to initiate clinical trials to evaluate the in vivo potential of CB cells expanded with these conditions.     

Optimization of cryopreservation condition for hematopoietic stem cells from umbilical cord blood

The conditions for cryopreservation of CD34⁺ hematopoietic stem cells (HSC) from umbilical cord blood (UCB) were optimized with a new cryo-medium containing 10% ethylene glycol (EG) and 2% dimethyl sulfoxide (Me₂SO) using a controlled-rate freezing (CRF) method. After the cryopreservation of mononuclear cells (MNC) from UCB, recoveries of MNC, CD34⁺ cells, and total colony-forming units (CFU) were significantly improved compared to those in the control cryo-medium containing 10% Me₂SO and 2% Dextran-40 (P < 0.05). This study shows that the new cryo-medium and CRF method provide better recoveries of MNC, HSC and total CFU than the control cryo-medium and isopropylalcohol freezing (IPA) method. Therefore, this cryo-medium, combined with the CRF method, is valuable for optimizing cryopreservation conditions for HSC from UCB to obtain satisfactory HSC recovery.