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  • 1
    Online Resource
    Online Resource
    Chimeric Antigen Receptor T-Cell Therapy
    Harborside Press, LLC ; 2018
    In:  Journal of the National Comprehensive Cancer Network Vol. 16, No. 9 ( 2018-09), p. 1092-1106
    Details
    In: Journal of the National Comprehensive Cancer Network, Harborside Press, LLC, Vol. 16, No. 9 ( 2018-09), p. 1092-1106
    Type of Medium: Online Resource
    ISSN: 1540-1405 , 1540-1413
    URL: Article
    DOI: 10.6004/jnccn.2018.0073
    Language: English
    Publisher: Harborside Press, LLC
    Publication Date: 2018
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  • 2
    Online Resource
    Online Resource
    Adoptive Immunotherapy With Autologous CD3/CD28-Costimulated T-Cells After Fludarabine-Based Chemotherapy In Patients With Chronic Lymphocytic Leukemia
    American Society of Hematology ; 2013
    In:  Blood Vol. 122, No. 21 ( 2013-11-15), p. 2874-2874
    Details
    In: Blood, American Society of Hematology, Vol. 122, No. 21 ( 2013-11-15), p. 2874-2874
    Abstract: Fludarabine-based therapies prolong survival of patients (pts) with chronic lymphocytic leukemia (CLL), but deplete T-cells causing immunosuppression which increases the risk of infection and may limit control of minimal residual disease by the immune system. Adoptive immunotherapy using autologous CD3/CD28-costimulated T-cells expanded ex vivo (ACTC) enhances immune reconstitution after fludarabine-based therapy of lymphoma (Schuster Blood abstract 2007). Methods We conducted a multicenter phase I/II trial of ACTC following fludarabine- or alemtuzumab-based therapy of CLL. Eligibility required IWCLL 2008 indications for treatment of CLL. After leukapheresis, pts received fludarabine- or alemtuzumab-based therapy. Eight - 12 weeks after last immuno-chemotherapy, responding pts (CR, PR) received a single dose of ACTC prepared from autologous T-cells collected before therapy. Primary study endpoints were feasibility, defined as the ability to generate a T-cell dose of 1.0 E+10+/- 20%, and safety, defined as 〈 grade 3 non-hematologic toxicity. Secondary endpoints evaluate immune reconstitution following ACTC infusion. Progression-free survival (PFS) was calculated from the date of ACTC infusion (D0) for patients who were evaluable for studies of immune reconstitution at day +90 following ACTC infusion. Results Thirty-four pts with CLL were enrolled (median age: 62). Eighteen patients were previously untreated and 16 patients had relapsed or refractory CLL. Four pts (12%) had del(17p), 11 pts (33%) del(11q), and 3 (9%) both del(17p) and del(11q). For previously untreated patients, 17 received fludarabine-cyclophosphamide-rituximab (FCR) and 1 pt received fludarabine-rituximab (FR); for relapsed patients, 10 received FCR, 3 FCR-bevacizumab, 2 alemtuzumab, and 1 oxaliplatin-fludarabine-cytarabine-rituximab (OFAR). Ten patients did not receive ACTC infusion for the following reasons: 6 pts (including 1 receiving alemtuzumab) had progressive disease prior to ACTC, 1 pt developed autoimmune hemolyic anemia during FCR, 1 pt developed ITP during FCR, 1 pt developed pure red cell aplasia during FCR, and 1 pt receiving alemtuzumab was removed from study per physician preference. Median ACTC dose was 1.0 E+10 CD3 cells (range: 3.94 E+08 -1.03 E+10). Two pts had progressive disease less than 90 days after ACTC and 1 pt was lost to follow-up. Twenty-one pts (14 CR; 2 CRi; and 5 PR at the time of ACTC infusion) were evaluable for studies of immune reconstitution at ≥90 days after ACTC. After chemotherapy prior to ACTC (D0), median CD4 count was 120 (range: 19-573); 90 days after ACTC (D+90), median CD4 count was 399 (range 62-1818) (p = 0.0003; median fold CD4 increase 2.3, range -0.5–20.9) [figure 1]. Median CD8 count also increased significantly (p = 0.004; median D0 = 86, range: 4-682; D+90 = 267, range: 18-2876; median fold CD8 increase 1.1, range: -0.8-18.4) [figure 2] . The increases in CD4 and CD8 counts between D0 and D+90 were not dependent on ACTC dose. There were no SAEs or grade 3 or higher non-hematologic toxicities related to T-cell infusion. For all 21 patients evaluable for immune reconstitution at D+90, median follow-up is 33 months with median PFS 30 months (not shown). PFS for previously untreated patients is 42 months, whereas PFS for relapsed patients is 12 months (figure 3). There was no correlation between magnitude of increase in post-infusion CD4 and CD8 counts and PFS at 1 year. Conclusions For CLL patients, ACTC production is feasible. ACTC infusion is well tolerated and results in a dose-independent acceleration of CD4+ and CD8+ cell recovery after fludarabine-based chemotherapy compared to historical controls. The application of adoptive immunotherapy with ACTC to accelerate immune reconstitution after immunochemotherapy could potentially provide an optimal immunologic milieu for early application of additional immunotherapeutic interventions. Disclosures: Levine: Novartis: cell and gene therapy IP, cell and gene therapy IP Patents & Royalties. June:Novartis: Patents & Royalties, Research Funding.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V122.21.2874.2874
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2013
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    detail.hit.zdb_id: 80069-7
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  • 3
    Online Resource
    Online Resource
    Adoptive Immunotherapy with Autologous CD3/CD28-Costimulated T-Cells After Fludarabine-Based Chemotherapy in Patients with Chronic Lymphocytic Leukemia
    American Society of Hematology ; 2011
    In:  Blood Vol. 118, No. 21 ( 2011-11-18), p. 2855-2855
    Details
    In: Blood, American Society of Hematology, Vol. 118, No. 21 ( 2011-11-18), p. 2855-2855
    Abstract: Abstract 2855 Background: Fludarabine-based therapies prolong survival of patients (pts) with chronic lymphocytic leukemia (CLL), but deplete CD4 T-cells causing immunosuppression which increases the risk of infection and may limit control of minimal residual disease by the immune system. Adoptive immunotherapy using autologous CD3/CD28-costimulated T-cells expanded ex vivo (ACTC) enhances immune reconstitution after fludarabine-based therapy of lymphoma (Schuster et al Blood abstract 2007). Methods: We conducted a multicenter phase I/II trial of ACTC following fludarabine-based therapy of CLL. After leukapheresis, pts received fludarabine-based therapy. 8 – 12 weeks after last chemotherapy, responding pts (CR, PR) received a single dose of ACTC prepared from autologous T-cells collected before chemotherapy. Results: 34 pts are enrolled (median age 61; male 24, female 10). To date, 19 pts are evaluable for studies of immune reconstitution at ≥90 days after ACTC infusion. Prior to ACTC, 11 pts received FCR and 1 pt FR as first therapy, while 5 pts received FCR and 2 pts FCR + bevacizumab for previously treated CLL. Median ACTC dose was 6.8E+9 CD3 cells (range: 4.88E+07 −1.05E+10). After chemotherapy, before ACTC infusion (day 0), median CD4 and CD8 counts for all evaluable pts were 119 (range: 12–573) and 80 (range: 4–682), respectively; 30 days after ACTC (day 30), median CD4 and CD8 counts were 373 (range 141–846) and 208 (range: 25–879), respectively. The increases in CD4 and CD8 counts between days 0 and 30 were statistically significant (p = 0.0003 for both CD4 and CD8 cell counts) and remained significantly increased between days 0 and 90 for both CD4 (p = 0.0004) and CD8 (p = 0.005) cell counts. ACTC dose was not associated with change in CD4 or CD8 count. Pts in complete remission (CR) at the time of ACTC infusion had significantly higher CD4 counts on day 30 than pts in partial remission (PR) [median day 30 CD4 count for CR = 464 (range: 194–846) vs PR = 190 (range: 141–395), p = 0.02], but not on days 0 and 90. There was no difference in CD8 counts for pts in CR or PR on days 0, 30, and 90. There were no SAEs; 1 pt developed AIHA after ACTC. For 19 evaluable pts at a median follow-up of 12 months (range: 3.2–22), PFS from ACTC infusion is 80%. Conclusions: ACTC infusion results in a dose-independent acceleration of CD4 and CD8 T-cell recovery after fludarabine-based chemotherapy compared to historical controls. CD4 counts on day 30 are significantly higher for pts in CR at the time of ACTC infusion. Further studies of immune reconstitution and function following ACTC are in progress. Disclosures: No relevant conflicts of interest to declare.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V118.21.2855.2855
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2011
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    detail.hit.zdb_id: 80069-7
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  • 4
    Online Resource
    Online Resource
    Fucosylation Enhances the Efficacy of Adoptively Transferred Antigen-Specific Cytotoxic T Lymphocytes
    American Association for Cancer Research (AACR) ; 2019
    In:  Clinical Cancer Research Vol. 25, No. 8 ( 2019-04-15), p. 2610-2620
    Details
    In: Clinical Cancer Research, American Association for Cancer Research (AACR), Vol. 25, No. 8 ( 2019-04-15), p. 2610-2620
    Abstract: Inefficient homing of adoptively transferred cytotoxic T lymphocytes (CTLs) to tumors is a major limitation to the efficacy of adoptive cellular therapy (ACT) for cancer. However, through fucosylation, a process whereby fucosyltransferases (FT) add fucose groups to cell surface glycoproteins, this challenge may be overcome. Endogenously fucosylated CTLs and ex vivo fucosylated cord blood stem cells and regulatory T cells were shown to preferentially home to inflamed tissues and marrow. Here, we show a novel approach to enhance CTL homing to leukemic marrow and tumor tissue. Experimental Design: Using the enzyme FT-VII, we fucosylated CTLs that target the HLA-A2–restricted leukemia antigens CG1 and PR1, the HER2-derived breast cancer antigen E75, and the melanoma antigen gp-100. We performed in vitro homing assays to study the effects of fucosylation on CTL homing and target killing. We used in vivo mouse models to demonstrate the effects of ex vivo fucosylation on CTL antitumor activities against leukemia, breast cancer, and melanoma. Results: Our data show that fucosylation increases in vitro homing and cytotoxicity of antigen-specific CTLs. Furthermore, fucosylation enhances in vivo CTL homing to leukemic bone marrow, breast cancer, and melanoma tissue in NOD/SCID gamma (NSG) and immunocompetent mice, ultimately boosting the antitumor activity of the antigen-specific CTLs. Importantly, our work demonstrates that fucosylation does not interfere with CTL specificity. Conclusions: Together, our data establish ex vivo CTL fucosylation as a novel approach to improving the efficacy of ACT, which may be of great value for the future of ACT for cancer.
    Type of Medium: Online Resource
    ISSN: 1078-0432 , 1557-3265
    URL: Article
    DOI: 10.1158/1078-0432.CCR-18-1527
    RVK:
    XA 36791
    Language: English
    Publisher: American Association for Cancer Research (AACR)
    Publication Date: 2019
    detail.hit.zdb_id: 1225457-5
    detail.hit.zdb_id: 2036787-9
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  • 5
    Online Resource
    Online Resource
    Fucosylated Antigen-Specific Cytotoxic T Lymphocytes Demonstrate Enhanced Killing of Leukemia Targets
    American Society of Hematology ; 2015
    In:  Blood Vol. 126, No. 23 ( 2015-12-03), p. 1888-1888
    Details
    In: Blood, American Society of Hematology, Vol. 126, No. 23 ( 2015-12-03), p. 1888-1888
    Abstract: Introduction Immunotherapy using cytotoxic T lymphocytes (CTL) has shown efficacy in the management of leukemia. However the efficacy of CTL, whether they are engineered and adoptively transferred or administered as part of allogeneic stem cell transplantation, must be balanced by their off-target toxicities, which at times can be lethal. Fucosylation, which is mediated by fucosyl transferases, is a process by which fucose sugar groups are added to cell surface receptors. Fucosylated T cells have been shown to preferentially home to inflamed tissues, including bone marrow. In view of recent data showing that fucosylation with fucosyltransferase (FT)-VI facilitates homing of regulatory T cells (T-regs) to inflamed tissues and cord blood engraftment into the bone marrow, we hypothesized that fucosylation could enhance the efficacy of CTL that target leukemia antigens. In this study, we tested whether ex vivo fucosylation of CTL that target the HLA-A2 restricted leukemia peptides, CG1 (derived from cathepsin G) and PR1 (derived from neutrophil elastase and proteinase 3), with the novel enzyme FT-VII enhances their migration and anti-leukemia functions. Experimental design CG1- and PR1-CTL were generated using standard methodologies. Fucosylation was achieved by incubating T cells with FTVII enzyme and GDP fucose (Targazyme). To study migration, fucosylated and non-fucosylated CTL were passed through chambers coated with a HUVEC barrier and migrated CTL were detected using cell fluorescence. To examine CTL surface markers, cells were stained for standard co-stimulatory and adhesion molecules and were analyzed using flow cytometry. Calcein AM cytotoxicity assays were used to determine the effects of fucosylation on CTL killing of target cells. In vitro effects of fucosylation on leukemia-CTL specificity was accomplished using standard CFU assays. For in vivo assessment of fucosylation on activity of CTL, NSG mice were engrafted with U937-A2 human acute myeloid leukemia (AML) cells or primary AML and were treated with intravenous injections of 5.0 x 105 fucosylated or non-fucosylated CTL. Mice were followed twice weekly and were sacrificed for bone marrow and tissue analysis at prespecified time points or when they became moribund. Results Fucosylated CG1-CTL and PR1-CTL showed approximately 2-fold higher migration through the HUVEC cell barrier compared to non-fucosylated CTL. Analysis of T cell surface expression of chemokine/adhesion molecules showed an approximately a 5-fold increase in CD49d and CD195, and a 50% increase in CXCR1 and CXCR3 following fucosylation. Fucosylation enhanced the cytotoxicity of leukemia specific-CTL against primary HLA-A2+ leukemia and HLA-A2+ U937 cells at increasing effector to target ratios. For primary patient AML, we show enhanced leukemia killing by fucosylated-PR1-CTL in comparison with non-fucosylated-PR1-CTL at the 20:1 effector to target (E:T) ratio (25-fold higher killing ) and the 10:1 E:T ratio (4-fold higher killing). Similar results were seen using the U937-A2 AML cell line favoring fucosylated-CG1-CTL: 20-fold higher killing at 20:1 E:T ratio and a 9-fold higher killing at the 10:1 E:T ratio. In vitro CFU assays using HLA-A2+ healthy donor bone marrow showed no change in the specificity of the antigen specific CTL following fucosylation. Specifically we show 283 and 295 colonies in the fucosylated and non-fucosylated CG1-CTL groups, respectively (P 〉 0.05). These were also compared to irrelevant peptide HIV-CTL, which demonstrated 286 and 269 CFUs in the fucosylated and non-fucosylated HIV-CTL groups, respectively (P 〉 0.05). In vivo experiments using CG1-CTL against primary AML showed 5-fold higher killing of AML by fucosylated CTL vs. non-fucosylated CTL. Similar results were also seen using U937-A2 AML targets. Conclusion Fucosylation with FT-VII enhances the efficacy of leukemia-targeting CTL against primary human AML and AML cell lines. These data demonstrate a novel approach to enhance the efficacy of antigen specific CTL that could be used in adoptive cellular immunotherapy approaches for leukemia. Disclosures No relevant conflicts of interest to declare.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V126.23.1888.1888
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2015
    detail.hit.zdb_id: 1468538-3
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  • 6
    Online Resource
    Online Resource
    Ex Vivo Mesenchymal Precursor Cell-Expanded Cord Blood Transplantation Following Reduced Intensity Conditioning Regimens
    American Society of Hematology ; 2015
    In:  Blood Vol. 126, No. 23 ( 2015-12-03), p. 1190-1190
    Details
    In: Blood, American Society of Hematology, Vol. 126, No. 23 ( 2015-12-03), p. 1190-1190
    Abstract: Introduction: Double-unit cord blood (CB) transplantation (DCBT) after myeloablative conditioning, where one CB unit is expanded ex-vivo with mesenchymal precursor cells (MPC)-co-culture led to significantly improved neutrophil and platelet engraftment compared to historical controls.1 Our aim was to determine the efficacy of this technique after reduced-intensity conditioning (RIC) regimens. Methods: We evaluated consecutive adult patients with hematological malignancies who received RIC regimens followed by DCBT where one unit was infused unmanipulated and second unit was expanded ex-vivo with MPC prior to infusion ("MPC group" n=27), as described previously,1 andcompared themwith historical cohort who received two unmanipulated CB units ("controls" n= 51) from 2003-2015. Two RIC regimens were used - Flu/Cy/TBI (flu 40 mg/m2, cy 50 mg/kg and TBI 200cGy) (n=40) and Flu/Mel (flu 40 mg/m2 and mel 140 mg/m2) (n=38) with rabbit ATG 3mg/kg. Tacrolimus and MMF were used for GVHD prophylaxis. Primary endpoint was median time to engraftment of neutrophils (≥ 0.5 X 109/L X 3 consecutive days) and platelets (≥ 20 X 109/L X 7 consecutive days without transfusion). Results: Diagnoses were AML/MDS (N=38; 49%), ALL (N=13; 17%),NHL (N=18; 23%), HD (N=3; 4%), CML (N=1; 1%), and CLL (N=4; 5%). Baseline patient characteristics were similar among the groups [Table 1]. Majority of CB units (66%) were 5-6/8 matched at HLA-A, B, C and DRB1 by high resolution testing. Infused median total nucleatedcells (TNC) (x107/Kg) were 4 and 8 , and median CD34 cells (x105/Kg)were 4.3 and 19.7, respectively for control and MPC groups. Co-culture with MPCs led to expansion of TNC by a median of 11.1 and of CD34+ cells by a median of 49.3. Among engrafted patients, median time to neutrophil engraftment was 12 (range 1-28) days in MPC group as compared with 16 (range 5-48) days in controls (p=0.02); the median time to platelet engraftment was 31 days and 37 days, respectively (P=0.3). On day 26, the cumulative incidence of neutrophil engraftment was 78% in MPC group versus 67% in controls (P=0.1). On day 60, the cumulative incidence of platelet engraftment was 74% and 74%, respectively (P=0.7). [Figure 1] Conditioning regimen also affected the time to neutrophil recovery. Among patients with Flu/Mel, the median time to neutrophil engraftment was 14 days in MPC-group (n=13) compared with 22 days in controls (n=19) (p=0.001). Patients with Flu/Cy/TBI regimen had faster time to engraftment; median time to neutrophil engraftment was 6 days in MPC group (n=10) and 11 days in controls (n=27) (p=0.04). However, the median time to platelet engraftment was similar in MPC- and control groups in patients who received either Flu/Mel (37 vs 44 days, p=0.1) or Flu/Cy/TBI regimen (29 vs 31 days, p=0.5). There was no difference in the cumulative incidence of day 100 non-relapse mortality (4% vs. 11%, p=0.6), 6th month mortality (25% vs 24%, p=0.6), grade II-IV acute GVHD (28% vs 27%, p=0.9), 2-year chronic GVHD (29% vs 20%; p=0.9) and estimates of 2-year OS (32% vs. 34%) between patients with ex-vivo expanded and unmanipulated CB units. Conclusions: Transplantation of CB units expanded with MPC appeared to be safe and effective. Using MPC-expanded CB units significantly improved time to engraftment following Flu/Mel or Flu/Cy/TBI RIC regimens as compared with unmanipulated units. Table 1. Patient characteristics Control(N=51) MSC group(N=27) P value Age, years (median, interquartile range) 57 (48, 63) 59 (49, 67) 0.3 Disease Status CR1/CR2 20 (40%) 12 (45%) Advanced 31 (61%) 15 (56%) 0.7 Disease Risk Index, n (%) V. High/High 8 (16%) 9 (33%) Intermediate 38 (75%) 16 (59%) Comorbidity index 0-1 24 (47%) 13 (48%) 2-4 22 (43%) 11 (41%) 〉 4 5 (10%) 3 (11%) 0.97 Flu/Mel regimen 22 (43%) 16 (59%) 0.2 References 1. de Lima M, McNiece I, Robinson SN, et al. Cord-blood engraftment with ex vivo mesenchymal-cell coculture. NEJM. 2012;367(24):2305-2315 Disclosures Kaur: UT MD Anderson Cancer Center: Employment. Alousi:Therakos, Inc: Research Funding. Skerrett:Mesoblast: Employment. Burke:Mesoblast: Employment.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V126.23.1190.1190
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2015
    detail.hit.zdb_id: 1468538-3
    detail.hit.zdb_id: 80069-7
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  • 7
    Online Resource
    Online Resource
    Fucosylation enhances activity of cytotoxic T lymphocytes against breast cancer
    BMJ ; 2015
    In:  Journal for ImmunoTherapy of Cancer Vol. 3, No. Suppl 2 ( 2015), p. P2-
    Details
    In: Journal for ImmunoTherapy of Cancer, BMJ, Vol. 3, No. Suppl 2 ( 2015), p. P2-
    Type of Medium: Online Resource
    ISSN: 2051-1426
    URL: Article
    DOI: 10.1186/2051-1426-3-S2-P2
    Language: English
    Publisher: BMJ
    Publication Date: 2015
    detail.hit.zdb_id: 2719863-7
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  • 8
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    Online Resource
    HIV-Specific T Cells Generated from Naive T Cells Suppress HIV In Vitro and Recognize Wide Epitope Breadths
    Elsevier BV ; 2018
    In:  Molecular Therapy Vol. 26, No. 6 ( 2018-06), p. 1435-1446
    Details
    In: Molecular Therapy, Elsevier BV, Vol. 26, No. 6 ( 2018-06), p. 1435-1446
    Type of Medium: Online Resource
    ISSN: 1525-0016
    URL: Article
    DOI: 10.1016/j.ymthe.2018.04.009
    Language: English
    Publisher: Elsevier BV
    Publication Date: 2018
    detail.hit.zdb_id: 2001818-6
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  • 9
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    Outcomes of Hospital-Associated Covid-19 in Hematopoietic Cell Transplant (HCT) Recipients: A Single Center Experience
    Elsevier BV ; 2022
    In:  Transplantation and Cellular Therapy Vol. 28, No. 3 ( 2022-03), p. S331-S332
    Details
    In: Transplantation and Cellular Therapy, Elsevier BV, Vol. 28, No. 3 ( 2022-03), p. S331-S332
    Type of Medium: Online Resource
    ISSN: 2666-6367
    URL: Article
    DOI: 10.1016/S2666-6367(22)00586-3
    Language: English
    Publisher: Elsevier BV
    Publication Date: 2022
    detail.hit.zdb_id: 3056525-X
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  • 10
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    Ex Vivo Mesenchymal Precursor Cell–Expanded Cord Blood Transplantation after Reduced-Intensity Conditioning Regimens Improves Time to Neutrophil Recovery
    Elsevier BV ; 2017
    In:  Biology of Blood and Marrow Transplantation Vol. 23, No. 8 ( 2017-08), p. 1359-1366
    Details
    In: Biology of Blood and Marrow Transplantation, Elsevier BV, Vol. 23, No. 8 ( 2017-08), p. 1359-1366
    Type of Medium: Online Resource
    ISSN: 1083-8791
    URL: Article
    DOI: 10.1016/j.bbmt.2017.05.002
    Language: English
    Publisher: Elsevier BV
    Publication Date: 2017
    detail.hit.zdb_id: 3056525-X
    detail.hit.zdb_id: 2057605-5
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