Effect observation of different collection procedures of blood cell separator on collection of autologous peripheral blood hematopoietic stem cells in children / 白血病·淋巴瘤

Objective:To investigate the effect of different collection procedures of COBE Spectra blood cell separator on collection of autologous peripheral blood hematopoietic stem cells in children.Methods:The clinical data of 10 children who were collected autologous peripheral blood hematopoietic stem cells with the monocytes (MNC) or fully automatic peripheral blood stem cells (AutoPBSC) programs of COBE Spectra blood cell separator in the Children's Hospital of Soochow University from July 2018 to January 2020 were retrospectively analyzed, and the children were 3-10 years old with the body weight of 15-31kg. There were 5 cases in MNC group and 5 cases in AutoPBSC group.Results:Autologous peripheral blood hematopoietic stem cells were collected for 25 times, with an average of 2.5 times (1-4 times), 10 times in MNC group and 15 times in AutoPBSC group. The number of stem cells [the median (the range)] before collection was 19.3/μl (3.5-129.0/μl) in MNC group and 9.4/μl (2.2-38.7/μl) in AutoPBSC group. The number of CD34 + cells of single collection was 1.22×10 6/kg (0.18×10 6/kg-6.30×10 6/kg) in MCN group and 0.85×10 6/kg (0.13×10 6/kg-2.64×10 6/kg) in AutoPBSC group. Correlation analysis showed that there was a positive correlation between the number of collected CD34 + cells and the number of stem cells before collection (AutoPBSC group: r=0.921, P < 0.01; MNC group: r=0.833, P=0.003). The collection efficiency was 5.4% (3.4%-11.2%) in MNC group and 10.4% (4.7%-13.9%) in AutoPBSC group, and the difference was statistically significant ( Z=2.163, P = 0.031). Conclusion:The collection effect of children's autologous peripheral blood hematopoietic stem cells with COBE Spectra blood cell separator AutoPBSC program is better than that with MNC program.

Changes of Electrolytes, Hemoglobin and Platelets before and after Peripheral Blood Stem Cell Collection / 대한임상병리학회지

BACKGROUND: Many studies have reported hypocalcemia during peripheral blood stem cell (PBSC) collection. On the other hand, changes in other electrolyte levels such as potassium have received little attention. To see if it is necessary to monitor other electrolytes, we determined sodium, potassium, chloride, total CO(2), and ionized calcium before and after the PBSC harvest. The changes in hemoglobin and platelets were also investigated. METHODS: A total of 111 PBSC harvest procedures for thirty-six patients or donors were included in this study. The samples were collected within 2 hours around PBSC harvest. Patients who received blood transfusions or in whom electrolytes were administered immediately before or during the procedure were excluded from the evaluation. RESULTS: In the autologous PBSC harvest using CS3000, all five electrolytes showed significant changes. Ionized calcium significantly dropped by about 7.2+/-13.1% at the end of apheresis. Potassium significantly decreased to 12.3+/-10.2% during PBSC harvest. Hemoglobin and platelets significantly decreased except the autologous PBSC harvest using CS3000 and Cobe, respectively. CONCLUSIONS: Our data reveal a strong association between anticoagulant-induced hypocalcemia and concomitant hypokalemia during the PBSC harvest. We suggest that the potassium level should be carefully monitored, especially for patients with relatively low preharvest potassium levels.

Comparison of Leukocyte Depletion between COBE Spectra LRSTM and COBE Spectra followed by PALL PXLTM8 on Single Donor Platelet / 대한수혈학회지

BACKGROUND: Use of single donor apheresis platelets and concerning for the quality of apheresis platelets has been rapidly increased. Apheresis platelets depleted white blood cell (WBC) are used to prevent or to reduce febrile non-hemolytic transfusion reactions, alloimmunization and cytomegalovirus infection. We compared COBE Spectra LRSTM (leukoreduction system) and COBE Spectra with PALL PXLTM8 in terms of the yield predictors, processing times, and WBC contamination. METHOD: Seventy-two single donors who visited Apheresis Unit (APU) in St. Mary's hospital were prospectively randomized into COBE Spectra LRSTM and COBE Spectra followed by PALL PXLTM8 between September 1997 and October 1998. We used Coulter counting for platelet and Nageotte hemocytometer for WBC count. Data were analyzed by independent t-test. RESULTS: The mean platelet yield per unit was 3.6 +/- 1.0X1011 with COBE spectra LRSTM compared to 2.9 +/- 1.1X1011 with COBE Spectra (p=0.002), and the mean WBC content per unit with COBE spectra LRSTM was 4.1X104 (0.4-23.5) compared to 3.7X104 (0.43-17.9) with PALL PXLTM8 (p=0.0728). CONCLUSIONS: This study shows that COBE Spectra LRSTM has higher platelet yields than that of COBE Spectra, and similar WBC contamination compared to PALL PXLTM8. Therefore, this data suggests that COBE Spectra LRSTM is conveient than COBE Spectra with PALL PXLTM8 in clinical practice.

Comparison of Leukocyte Depletion between COBE Spectra LRS/TM and COBE Specta followed by PALL PXL/TM 8 on Single Donor Platelet

BACKGROUND: Use of single donor apheresis platelets and concerning for the quality of apheresis platelets has been rapidly increased. Apheresis platelets depleted white blood cell(WBC) are used to prevent or to reduce febrile non-hemolytic transfusion reactions, alloimmunization and cytomegalovirus infection. We compared COBE Spectra LRS (leukoreduction system) and COBE Spectra with PALL PXL 8 in terms of the yield predictors, processing times, and WBC contamination. METHOD: Seventy-two single donors who visited Apheresis Unit(APU) in St. Mary s hospital were prospectively randomized into COBE Spectra LRS and COBE Spectra followed by PALL PXL 8 between September 1997 and October 1998. We used Coulter counting for platelet and Nageotte hemocytometer for WBC count. Data were analyzed by independent t-test. RESULTS: The mean platelet yield per unit was 3.6+ 1.0 x 10 ' with COBE spectra LRS compared to 2.9+ 1.1 X 10 with COBE Spectra(p=0.002), and the mean WBC content per unit with COBE spectra LRS was 4.1 x 104(0.4-23.5) compared to 3.7 x 104(0.43-17.9) with PALL PXL""8(p=0.0728). CONCLUSIONS: This study shows that COBE Spectra LRS has higher platelet yields than that of COBE Spectra, and similar WBC contamination compared to PALL PXL 8. Therefore, this data suggests that COBE Spectra LRS is conveient than COBE Spectra with PALL PXL 8 in clinical practice. (Korean J Blood Transfusion 10(1): 43-51, 1999)

Large-Volume Leukapheresis for Collection of Peripheral Blood Stem Cells: A Comparison of Two Continous Flow Cell Separators / 대한혈액학회지

BACKGROUND: Mobilized peripheral blood stem cells (PBSCs) are now used increasingly in patients with hematologic and solid tumors to reconstitute hematopoiesis after dose-intensive chemotherapy. We evaluated the efficacy of large-volume leukapheresis (LVL) and compared the ability of Fenwal CS3000 Plus and Cobe Spectra to collect mononuclear cells (MNCs) for PBSCT. METHODS: Twenty liters of whole blood per LVL were processed in 22 patients with acute leukemia and lymphoma. LVL were performed in rapid recovery phase (white cells >3x109/L, or CD34+ cells > 1% of white cells) after chemotherapy followed by granulocyte-colony stimulating factor. The end point of LVL was mononuclear cells (MNCs) >8x108/kg, or CD34+ cells > 6x106/kg. A-35 collection chamber was used in Fenwal CS3000 Plus and whole blood flow was set at 85mL/min, whole blood to anticoagulant ratio 11~13:1, interface offset 150. MNC procedure was used in Cobe Spectra, whole blood flow was 90~100mL/min, whole blood to anticoagulant ratio 24:1 with heparin to anticoagulant and product bags, collection rate 1mL/min, and hematocrit 2~3%. RESULTS: Total 53 LVL (35 with Fenwal CS3000 Plus and 18 with Cobe Spectra) were performed on 22 patients. An average of 2.4 LVL per patient (range 1~4) were performed. With Fenwal CS3000 Plus, post-LVL values of hematocrit, platelets and MNCs were reduced by 12.4%, 53.1%, and 33.0% and with Cobe Spectra, 9.2%, 36.1%, and 39.6%, respectively. Mean collection volume of Fenwal CS3000 Plus and Cobe Spectra were 135.7mL and 175.2mL per LVL, respectively. There was no statistical significant difference in the yields of LVL between Fenwal CS3000 Plus (3.4+/-1.9x108/kg MNCs, 7.2+/-11.2x106/kg CD34+ cells) and Spectra (4.7+/-2.1x108/kg MNCs, 7.4+/-9.6x106/kg CD34+ cells). The yields of LVL were correlated well with patients' pre-MNC counts in both cell separators. Mean percentages of MNC were 95.4% with Fenwal CS3000 Plus and 74.0% with Cobe Spectra (P 0.05). LVL product with Cobe Spectra contained less red cells (10.5+/-2.7mL) than Fenwal CS3000 Plus (34.1+/-10.8mL) (P<0.001). Platelet contamination was not different for Fenwal CS3000 Plus (2.3+/-2.1x1011) and Cobe Spectra (3.1+/-1.0x1011). CONCLUSION: LVL could be conveniently used for PBSC collection with good collection efficiency and safety without serious citrate toxicities. LVL products with Fenwal CS3000 Plus showed less collection volume and granulocyte contamination. The products with Cobe Spectra showed less red cell contamination and less decrease in patients' platelet counts.

Evaluation of COBE Spectra "Leukocyte Reduction System (LRSTM)" for the Production of Leukocyte-Reduced Platelets / 대한수혈학회지

BACKGROUND: Leukocytes have been shown to be an undesirable contaminants in platelet transfusions because these contaminants may develop various adverse consequences. Current platelet products by plateletpheresis are heavily contaminated with leukocytes. Recently, new platelet apheresis system (COBE Spectra LRSTM) was designed to make it possible to collect platelets with very low leukocytes contamination. We evaluated the COBE Spectra LRSTM by comparing it with COBE Spectra. METHODS: Plateletpheresis procedures were performed on 75 normal donors; 45 procedures for COBE Spectra LRSTM and 30 procedures for COBE Spectra. We evaluated platelet yields, processing times, efficiency, and leukocytes content on two apheresis machines. RESULTS: Comparative results of COBE Spectra LRSTM with COBE Spectra were as follows: the mean processing time per unit was 97 min and 91 min, the efficiency per unit was 38.4 +/- 11.5% and 46.9 +/- 12.1%, the mean leukocytes contamination per unit was 6.1x104 and 2.1x106 respectively (p0.05). CONCLUSIONS: Platelet collections with COBE Spectra LRSTM demonstrated comparable platelet yields and strikingly low WBC contamination. This study indicate that the COBE Spectra LRSTM is an efficient and reliable system for the collection of platelets with very low residual WBC levels. It seems that leukocyte reduction filter for platelet products by COBE Spectra LRSTM is not necessary for further removal of leukocytes to prevent alloimmunization, non-hemolytic transfusion reactions, certain viral and bacterial infections.