Clinical Use of Umbilical Cord Blood Hematopoietic Stem Cells

Transcription

1 Biology of Blood and Marrow Transplantation 12:34-41 (2006) 2006 American Society for Blood and Marrow Transplantation /06/ $32.00/0 doi: /j.bbmt Clinical Use of Umbilical Cord Blood Hematopoietic Stem Cells Vanderson Rocha, Eliane Gluckman, Eurocord and European Blood and Marrow Transplant Group Eurocord Office Bone Marrow Transplant Hematology Department, Hôpital Saint Louis, Paris, France Correspondence and reprint requests: Vanderson Rocha, MD, PhD, Hôpital Saint Louis, Université de Paris 7, 1 Av Claude Vellefaux, 75010, Paris, France ( vanderson.rocha@sls.ap-hop-paris.fr). Received September 8, 2005; accepted September 23, 2005 ABSTRACT Umbilical cord blood hematopoietic stem cells coming from related or unrelated donors are an alternative source of hematopoietic stem cells for patients undergoing transplantation for a wide variety of diseases. In the unrelated donor transplant setting, shorter time to transplant, which is particularly relevant to patients requiring urgent transplantation, and tolerance of 1 2 human leukocyte antigen mismatch, which increases the chance of finding a suitable donor, are evident advantages over bone marrow transplantation. The speed of engraftment is slower after cord blood transplantation but it is counterbalanced by a lower incidence of severe graft-versus-host disease. Cell dose and human leukocyte antigen are major factors influencing outcome after umbilical cord blood transplantation. Retrospective comparisons of clinical outcomes between unrelated cord blood and unrelated bone transplantation in children and adults have shown similar results, showing the value of this source of hematopoietic stem cell for transplantation. This review describes the recent clinical results and discusses developing research strategies aimed at optimizing the results of cord blood transplantation American Society for Blood and Marrow Transplantation KEY WORDS Umbilical cord blood transplantation Related donor Unrelated donor INTRODUCTION Umbilical cord blood transplantation (UCBT) has extended the availability of allogeneic hematopoietic stem cell transplantation (HSCT) to patients who would otherwise not be eligible for this curative approach. Since the first successful UCBT from an HLA-identical sibling in a child with severe Fanconi anemia reported by Gluckman et al. [1] in 1989, the number of UCBTs from siblings and unrelated donors has increased dramatically, and we estimate that more than 5000 patients have undergone UCBT from unrelated donors thus far. A recent survey of the International Bone Marrow Transplant Registry (IBMTR) estimates that after 1998, 20% of stem cell transplantations performed in young patients ( 20 years old) have been cord blood transplantations. In Japan, nowadays approximately 50% of HSCTs from unrelated donors are being performed with cord blood cells (T. Takahashi, Medical Director, Tokyo Cord Blood Bank, personal communication, 2005). The inventory of Netcord, the cooperative network of large experienced umbilical cord blood (UCB) banks, currently has more than cryopreserved UCB units ready for clinical use, and a reasonably accurate worldwide estimate would be cord blood units. In comparison with other sources of allogeneic HSCT, UCB offers substantial logistic and clinical advantages, such as (1) significantly faster availability of banked cryopreserved UCB units, with patients receiving UCBTs a median of 25 to 36 days earlier than those receiving bone marrow (BM) [2,3]; (2) expansion of the donor pool, because sufficiently large UCB units mismatched for 1 or 2 HLA-A, -B, and -DR antigens seem tolerated for survival; (3) a lower incidence and severity of acute graft-versus-host disease (GVHD); (4) a lower risk of transmitting infections by latent viruses, such as cytomegalovirus and Epstein- Barr virus; (5) reduced donor attrition, because cords can likely be stored longer than an average living donor remains available in a registry; and (6) easier targeting of ethnic minorities and an increased pool of rare haplotypes [4]. The disadvantages of UCBT are (1) the low number of hematopoietic progenitor 34

2 Related and Unrelated Cord Blood Transplantation cells and hematopoietic stem cells in UCB compared with BM or mobilized peripheral blood (this translates into an increased risk of graft failure and delayed hematopoietic engraftment); (2) increased resource utilization in hospitalization days and blood and platelet transfusions; and (3) the impossibility of using donor lymphocyte transfusion for immunotherapy. CLINICAL EXPERIENCE WITH UCBT UCBT from Related Donors Related UCBT has been performed almost exclusively in children [5]. In an update of the Eurocord experience with a median follow-up of 41 months after related UCBT for children, the survival estimate at 3 years was 47% 5% in patients with malignancies (n 96), 82% 7% in patients with BM failure (n 33), 100% in patients with hemoglobinopathies (n 52), of which 90% had a donor graft, and 70% 15% (n 10) in patients with inborn errors of metabolism or primary immunodeficiencies (Eurocord, unpublished data). For children with malignancies, the 3-year overall survival was 71% 12% for those in the early phase of the disease (first complete remission of leukemia), 45% 7% for those in the intermediate phase of the disease (second complete remission), and 24% 7% for those with an advanced phase of the disease. A joint study by Eurocord and the IBMTR [6] compared the outcome of 113 children who received UCB from HLA-identical siblings with that of 2052 children who underwent HLA-identical sibling BM transplantation (BMT). UCBT recipients had slower recovery of neutrophils and platelets and a lower risk of acute and chronic GVHD. It is interesting to note that relapse-related deaths, the mortality rate at 100 days after transplantation, and overall survival were not significantly different between the 2 groups [6]. Although longer follow-up is required, these findings suggest that in the HLA-identical sibling setting, UCBT is as useful as BMT in children. On the basis of these results, we recommend collecting and freezing cord blood units in families in which a sibling child is affected with genetic or hematologic diseases. UCBT from Unrelated Donors in Children Multicenter [4-8], single-institution [3,9,10], and consortium [11,12] studies have shown that unrelated donor UCBT in children was able to reconstitute hematopoiesis and achieve sustained engraftment in most cases, was associated with a low incidence of GVHD, and did not result in a higher relapse risk. Almost all pediatric series on UCBT from unrelated donors have demonstrated the profound effect of cell dose measured as total nucleated cells, colony-forming cells, and CD34 cells on engraftment, adverse transplant-related events, and survival [5,7-9,13]. Although the prognostic importance of HLA disparity Table 1. Patient Disease and Transplant Characteristics and Outcomes of 323 Children with ALL Receiving an Unrelated UCBT According to Disease Status at Transplantation Characteristic CR1 (n 76) CR2 (n 136) Advanced Phase (n 111) Median age (y) Immunophenotype (pre-b/b/t/null or biphenoptypic) 18%/47%/17%/15% 17%/57%/17%/8% 10%/67%/12%/5% Previous autologous transplantation, (n) 1 (1%) 5 (4%) 20 (18%) Caryotype, (n) Not available 5 (7%) 35 (26%) 31 (28%) Normal 14 (18%) 53 (39%) 37 (33%) Abnormal 57 (75%) 48 (35%) 43 (39%) Good and intermediate 6 (11%) 32 (57%) 25 (58%) Poor risk 51 (89%) 16 (33%) 18 (42%) Median time from diagnosis to UCBT (mo) HLA disparities (6/6), (n) 0 10 (14%) 14 (11%) 10 (10%) 1 29 (42%) 61 (48%) 47 (47%) 2 27 (39%) 47 (37%) 40 (39%) (4%) 4 (3%) 4 (4%) Nucleated cell dose infused, median ( 10 7 /kg) TBI-based regimen 39 (51%) 107 (79%) 68 (61%) Median follow-up, mo (range) 17 (3-60) 29 (3-93) 23 (3-96) Outcomes Neutrophil recovery at day % 85 3% 65 5% Acute GVHD (II-IV) at day % 43 4% 36 5% Chronic GVHD at 2 y 15 4% 16 3% 12 3% TRM at day % 25 4% 34 5% Relapse at 2 y 34 8% 37 5% 48 7% LFS at 2 y 42 6% 41 4% 24 4% CR indicates complete remission; TBI, total body irradiation. BB&MT 35

3 V. Rocha and E. Gluckman was not clearly recognized in earlier series, it became apparent in recent updates [8,9,13]. Recently, results of unrelated UCBT in children with specific diseases have been published in myeloblastic leukemia (AML) [7], Hurler syndrome [11], and Krabbe disease [12]. The Eurocord group has recently performed 2 studies (unpublished data) on the outcomes of unrelated UCBT for childhood acute lymphoblastic leukemia (ALL) and for children with primary immunodeficiencies. We have analyzed a total of 323 children with ALL who received a UCBT from 1994 to 2004 in 24 countries, mostly in Europe. The median age was 6.5 years, the median cell dose infused was /kg, and the median follow-up time was 22 months (range, 3-96 months). Overall, the 2-year leukemia-free survival (LFS) was 36% 3%. In a multivariate analysis, only first or second complete remission was associated with better LFS (hazard ratio [HR], 1.8; P.0001). Therefore, a separate analysis was performed according to the disease status. Disease and patient characteristics and outcomes are listed in Table 1. All children received myeloablative conditioning regimens, and most (67%) received cyclosporin A (CsA) and corticoids as GVHD prophylaxis. We have also analyzed the results of 82 unrelated UCBTs in children with severe primary immune deficiencies reported to the Eurocord by 40 centers (J. Ortega on behalf of Eurocord, unpublished data). The median age was 0.9 years (range, 0-26 years), and the median weight was 8 kg (range, 3-39 kg). There were 29 severe combined immunodeficiency diseases, 19 Wiskott-Aldrich syndromes, and 34 other immunodeficiencies (chronic granulomatous disease, X-linked lymphoproliferative syndrome, Chediak-Higashi syndrome, bare lymphocyte syndrome, Di George anomaly, common variable immunodeficiency, and so on). Considering HLA typing at the serologic level for HLA-A and -B and high-resolution DNA for -DRB1, donor and recipient were matched in 16 cases and had 1 difference in 32 cases, 2 differences in 25, and 3 in only 2. The median number of nucleated cells infused was /kg (range, ), and the median number of CD34 cells was /kg (range, ). The conditioning regimen more commonly used was busulfan cyclophosphamide (n 43) and busulfan others (n 17). Ten patients had no conditioning; total body irradiation (TBI) was administered in 4 cases, and total lymphatic irradiation, in 2. Anti-T serotherapy (antithymocyte globulin [ATG], antilymphocytic globulin, or monoclonal antibody) was given in 59 patients before transplantation. GVHD prophylaxis consisted of CsA plus steroids (n 42), CsA alone (n 16), CsA methotrexate (n 9), and others (n 15). The cumulative incidence of neutrophil recovery ( 500/mm 3 ) at day 60 was 78%, and the incidence of platelet engraftment ( 20,000/mm 3 ) at day 180 was 63%. Nineteen patients did not engraft; 2 of them engrafted after a second UCBT. During the first 3 months, 48% of patients showed full and 20% showed mixed chimerism; 8% had autologous reconstitution, and the data were not available in 24% (not reported, 13%; early death, 11%). The cumulative incidence of acute GVHD grade II to IV was 43%, and that of chronic GVHD was 13%. Data on immunologic reconstitution after transplantation was reported in 45 patients. At 2 years, the estimated overall survival was 70% 6% for severe combined immunodeficiency disease and other immunodeficiencies and 67% 11% for Wiskott-Aldrich syndrome. Twenty-six patients died (acute GVHD, n 8; infections, n 10; toxicity, n 6; rejection, n 1; and secondary malignancies, n 1). In summary, these results show that UCBT can be considered as a source of allogeneic stem cells for transplantation for children with genetic metabolic diseases and malignant disorders who need an HSCT and who lack an HLA-identical sibling HSCT. UCBT Compared with BM from Unrelated Donors in Children The comparison of the results of UCBT and BMT from unrelated donors in children is of paramount relevance, because for many patients the search process will identify both UCB units and unrelated bone marrow (UBM) donors. Unfortunately, no randomized clinical trial has been conducted to compare unrelated cord blood transplantation and unrelated BMT. Three published studies 2 single-center studies and a Eurocord registry series have reported retrospective analyses comparing outcomes after UCBT and unrelated bone marrow transplantation (UBMT) in children [3,14,15]. The Eurocord group has compared the outcomes of 99 children with acute leukemia receiving an unrelated cord blood transplant (UCBT) with those of 442 children receiving either a nonmanipulated UBMT (n 262) or a T cell depleted UBMT (T-UBMT) (n 180). Patients underwent transplantation from 1994 to Comparisons were performed after adjustment for patient, disease, and transplant variables. The major difference among the 3 groups was the higher number in the UCBT group of HLA mismatches (defined by serology for class I and molecular typing for DRB1). The donor was HLA mismatched in 92% of UCBTs, in 18% of UBMTs, and in 43% of T-UBMT (P.001). Other significant differences were observed in pretransplantation disease characteristics, preparative regimens, GVHD prophylaxis, and the number of cells infused. Nonadjusted estimates of 2-year survival and eventfree survival rates for patients surviving more than 100 days were 49% and 43%, respectively, in the UBMT group; 41% and 37% in the T-UBMT group; and 36

4 Related and Unrelated Cord Blood Transplantation 35% and 31% in the cord blood transplant group. After adjustment, differences in outcomes appeared in the first 100 days after transplantation. Compared with UBMT, UCBT recipients had delayed hematopoietic recovery (P.001), increased 100- day transplant-related mortality (P.01), and decreased acute GVHD (P.001). T-UBMT recipients had decreased acute GVHD (P.0001) and increased relapse (P.02). After day 100 after transplantation, the 3 groups achieved a similar relapse incidence. Chronic GVHD was decreased after T-UBMT (P.0001) and UCBT (P.002), and there was a trend of higher overall mortality after T-UBMT (P.07). The Minnesota [14] and Montreal [3] groups have analyzed a smaller group of patients with malignant and nonmalignant disorders. As with the Eurocord analysis, they have shown that recipients of UCBT underwent transplantation in a shorter time compared with children given a UBMT, that neutrophil and platelet recovery were delayed, that the acute GVHD incidence was similar or decreased, and that overall survival was not significantly different after UCBT compared with UBMT. These data gathered together strongly suggest that UCB is an acceptable alternative to matched unrelated BM in children and support the start of a simultaneous search for BM and UCB unrelated donors. The final selection of unrelated donor BM versus UCB should be based on the urgency of the transplantation and the characteristics of the BM and UCB unrelated donor, such as cell dose and HLA compatibility. For children who require an urgent transplantation, UCB is advantageous for faster procurement. UCBT from Unrelated Donors in Adults A recent review focusing on the clinical results of unrelated donor UCBT in adults has been published [16]. To date, more than 1400 UCBTs have been performed in adults with a unit coming from the Netcord organization ( however, the available information in this setting is still limited to small series of patients. Six major reports of unrelated donor UCBT in adults [17-22] have been published. As expected from retrospective studies and multicenter studies, the series were heterogeneous in terms of recipients and disease-related characteristics, such as the type and status of the disease at transplantation [17,21,22]. However, single centers report more homogenous series of patients and diseases with standard conditioning regimens and GVHD prophylaxis [18-20]. For example, in the Japanese series [19,20], the analyses are from a single center, reporting patients with myelodysplastic syndrome or AML with a homogenous conditioning regimen (without BB&MT ATG) and with the use of methotrexate in combination with CsA as GVHD prophylaxis. Another important difference is that in 4 of the 6 series, the median number of nucleated cells infused was /kg, and several patients received /kg figures that are below recent recommendations [9,13]. However, in the Japanese series, very few patients received a cord blood cell dose inferior to /kg. Granulocyte colony-stimulating factor was commonly used after UCBT in all series. The myeloid engraftment rate at 60 days has ranged from 80% to 100%, and the probability of platelet engraftment at 180 days was 65% to 90%. The median time to achieve a neutrophil count /L varied from 22 to 32 days. The incidence of acute and chronic GVHD has widely ranged in adults undergoing unrelated UCBT, as has transplant-related mortality (TRM) at 100 days (0%- 54%) and disease-free survival (15%-76%). It is difficult to explain the reason for such differences, because factors such as patient and cord blood graft selection, disease and disease status, center effect, and period of transplantation may be involved. Moreover, studies of prognostic factors with larger series of adults given a UCBT are still missing, and any attempt to explain the different outcomes among these series is still premature. Results of Unrelated Cord Blood Transplantations Compared with Unrelated BMTs in Adults with Hematologic Malignancies Three retrospective studies comparing the results of UCBT and UBMT in adults [23-25] have been recently published. Investigators from a single center in Japan have compared the outcomes of 113 adult patients with hematologic malignancies who received unrelated UBMT (n 45) or unrelated UCBT (n 68). In this single-center analysis, the time from donor search to transplantation was significantly shorter between UCBT recipients (median, 2 months) and UBMT recipients (11 months). Neutrophil and platelet recovery were delayed in UCBT recipients. UCBT recipients experienced a faster tapering of immunosuppressants after transplantation, and treatment of acute GVHD with steroids was less frequent. Moreover, no UCBT recipient died of GVHD, despite the high HLA mismatch. TRM was decreased, and disease-free survival was superior after UCBT when compared with UBMT. In this study, all but 4 patients received a cord blood cell dose /kg [23]. Eurocord and the Acute Leukemia Working Party of the European Group for Blood and Marrow Transplantation have performed a retrospective registrybased comparative study of 98 UCBTs with 584 UBMTs from unrelated donors in adults with acute leukemia [24]. The transplantations were performed between 1998 and Recipients of cord blood were younger (median, 24.5 versus 32 years; P 37

5 V. Rocha and E. Gluckman.001), weighed less (median, 58 versus 68 kg; P.001), and had more advanced disease at the time of transplantation (52% versus 33%; P.001). All marrow transplants were HLA matched, whereas 94% of cord blood grafts were HLA incompatible (P.001). The median number of infused nucleated cells was /kg for cord blood and /kg for BM (P.001). Multivariate analysis demonstrated lower risks of grade II to IV acute GVHD after UCBT (relative risk, 0.57; 95% confidence interval, ; P.01), but neutrophil recovery was significantly delayed (relative risk, 0.49; 95% confidence interval, ; P.001). Transplantation-related mortality, relapse rate, chronic GVHD, and LFS were not significantly different in the 2 groups. In another registry-based analysis, Laughlin et al. [25], on behalf of IBMTR, found inferior outcomes for patients with leukemia given a UCBT compared with an HLAmatched UBMT; however, similar outcomes were found when UCBT was compared with 1-HLA-mismatched UBMT. The results of these 3 comparative studies gathered together, despite their different results and although definitive conclusions will require larger and homogenous series of patients with longer follow-up, showed that UCBT is feasible in adults when a cord blood unit contains a higher number of cells and should be considered an option as an allogeneic stem cell source for patients lacking a HLA matched BM donor. The results also show that despite increased HLA disparity, UCB from unrelated donors offers promising results in adults with hematologic malignancies, thus leading to the conclusion, as in children, that the donor search process for BM and UCB from unrelated donors should be started simultaneously, especially in patients with acute leukemia, for whom the time factor is crucial. Results of Unrelated Cord Blood Transplantations Compared with Haploidentical Peripheral Blood Stem Cell Transplantation in Adults with Hematologic Malignancies Haploidentical T cell depleted peripheral blood stem cell transplantation has emerged as another option for treating patients with high-risk malignancies, mainly because of the lower risk of relapse in patients with AML who receive a haploidentical HSCT with killer immunoglobulin receptor incompatibilities [26]. We have retrospectively analyzed data from adult patients with ALL or AML who received either UCBT or haploidentical transplantation performed in European Group for Blood and Marrow Transplantation centers from 1998 to 2002 (V. Rocha, unpublished Eurocord data). One hundred forty-four patients had ALL (haploidentical, n 75; UCBT, n 73), and 220 had de novo AML (haploidentical, n 154; UCBT, n 66). In the ALL group, UCBT patients were younger and received less TBI than haploidentical recipients. The frequency of patients with an advanced phase of disease at transplantation was 45% in haploidentical and 51% in UCBT (P.79). Cytogenetics and the interval from diagnosis to transplantation were not statistically different between groups. In the AML group, UCBT recipients were younger than haploidentical recipients. Many patients underwent transplantation in an advanced phase of disease in both groups (58% of haploidentical recipients and 59% of the UCBT group), and other disease-related factors were not significantly different. Table 2 lists the unadjusted outcomes after haploidentical HSCT and unrelated UCBT in adults according to diagnosis. After statistical adjustment for differences between the 2 groups, in both analyses (ALL and AML), UCBT recipients had delayed neutrophil recovery and a higher incidence of acute GVHD (grade II-IV) compared with haploidentical recipients. In the AML group, relapse incidence, TRM, and LFS were not statistically different after UCBT or haploidentical; however, in the ALL group, LFS was superior and relapse incidence decreased after UCBT compared with haploidentical transplantation. In conclusion, in this registry-based retrospective analysis, UCBT and haploidentical showed similar TRM, relapse, and LFS for adults with AML. However, LFS was superior after UCBT for patients with ALL because of a decreased incidence of relapse. Table 2. Unadjusted Outcomes after Haploidentical (Haplo) HSCT and UCBT in Adults with Acute Lymphoblastic or Myeloblastic Leukemia Variable Cumulative Incidence of Acute GVHD Cumulative Incidence of 2y-RI Cumulative Incidence of 2-y TRM Kaplan-Meier Estimate 2-y LFS ALL Haplo (n 75) UCBT (n 73) P value AML Haplo (n 154) UCBT (n 66) P value <

6 Related and Unrelated Cord Blood Transplantation INCIDENCE AND RISK FACTORS OF EARLY SEVERE INFECTIONS AFTER UNRELATED CORD BLOOD TRANSPLANTATION Delayed hematopoietic reconstitution has raised concern regarding the high incidence and type of severe infections after unrelated UCBT. In fact, very few data are available to establish risk factors for severe infections after UCBT in a large series of patients. The Eurocord group has retrospectively analyzed 510 UCBTs performed from 1994 to 2002 in 55 Eurocord centers (unpublished data). The median age was 6.9 years, and the median follow-up for survivors was 36.6 months (range, months); 396 (77%) patients had hematologic malignancies, 65 (13%) had inborn errors and severe primary immuno-deficiencies, and 49 (10%) had BM failure. Conditioning was TBI based in 50% and associated with ATG/antilymphocytic globulin in 86%. CsA and glucocorticoids for GVHD prophylaxis were frequently used, and 269 patients (53%) received hematopoietic growth factor. The donor was more frequently HLA disparate for 5/6 (n 216; 43%) or 4/6 (n 204; 41%) HLA-A, -B, and -DR antigens. The median number of nucleated cells and CD34 cells infused was /kg and /kg, respectively. In 95% of the cases, patients underwent transplantation in a laminar air flow room. Prophylaxis of infections varied among centers. The incidence of first infections was analyzed by using competing risk analysis, and risk factors were studied by using cumulative hazard analysis of all infectious episodes that occurred during 100 days after UCBT. The cumulative incidences of neutrophil recovery, acute GVHD (grade II-IV), and 100-day mortality were 75%, 38%, and 32% respectively. Cumulative incidences at day 100 of first overall, bacterial, viral, and fungal infections were, respectively, 69%, 49%, 32%, and 10%. During the first 100 days, 686 severe infections episodes were diagnosed in 352 patients. A total of 404 episodes were from a bacterial origin (276 gram positive, 124 gram negative, and 4 others), 189 were severe viral infections or disease episodes (142 cytomegalovirus, 21 adenovirus, 12 Epstein-Barr virus, 12 herpes simplex or human herpesvirus 6, and 2 paramyxovirus), 54 episodes were severe fungal infections (26 candidemia, 20 aspergillus, and 8 other), 5 episodes were of toxoplasmosis, and 34 episodes were not classified. In a multivariate analysis, a shorter time to engraftment decreased the cumulative hazard of bacterial infections (HR, 0.22; P.0001). The following factors decreased the cumulative hazard of viral infections: negative cytomegalovirus serology (HR, 0.28; P.001), 3/6 HLA disparate graft (HR, 0.21; P.03), and a shorter time to engraftment (HR, 0.40; P.002). The following factors decreased the cumulative hazard of fungal infections: recipient s BB&MT age 16 years (HR, 0.10; P.004), malignant disease (HR, 0.13; P.03), a shorter time to engraftment (HR, 0.17; P.02), and an absence of acute GVHD grade III or IV (HR 0.24; P.03). Considering all types of infections, among the factors cited, the period when UCBT was performed (after 1998) was also associated with a decreased hazard of severe infections at day 100. In summary, in this retrospective analysis, we observed that bacterial infections appeared early, followed by viral and fungal infections during the first 100 days after UCBT. Delayed engraftment was frequently associated with an increased risk of all types of infections. Approaches that will improve time to engraftment after UCBT might decrease the incidence and severity of early infections after UCBT. STRATEGIES TO IMPROVE THE OUTCOMES OF CORD BLOOD TRANSPLANTATION Many approaches have been proposed to improve the results of unrelated cord blood transplantation. These approaches have been focusing on speeding time to hematopoietic recovery and reducing transplant-related toxicity. The following strategies are currently being developed. Accelerating Engraftment by Increasing the Cell Dose and Homing of UCB Units 1. Optimization of the process of UCB collection, establishment of high-quality UCB banks, and expansion of the pool of donors, which is particularly relevant for ethnic and racial minorities. 2. Ex vivo expansion of cord blood cells by using new pharmacologic agents such as linear polyamine copper chelator. Phase I clinical trials using expanded cord blood cells with copper chelators have already started in the United States and Europe. 3. Transplantation of more than 1 cord blood unit. Results with double cords, although preliminary, support the safety of the procedure, with encouraging results [27]. 4. Cotransplantation of a UCB unit with highly purified CD34 cells from haploidentical family donors. Phase I/II clinical trials have been already published, with interesting results. 5. Cotransplantation of UCB cells with mesenchymal stem cells from an allogeneic donor and intrabone infusion of cord blood cells. These approaches may improve engraftment. Phase I clinical trials have just started in the United States and Europe. Choosing the Best UCB Unit It has been suggested that the cell dose and number of HLA mismatches interact mutually on engraftment and on other outcomes. Thus, a higher cell dose 39

7 V. Rocha and E. Gluckman in the graft could partially overcome the negative effect of HLA for each level of HLA disparity; however, this hypothesis has not been demonstrated. However, on the basis of previous data [8,9] and Eurocord data [13], we recommend a cord blood graft with no more than 2 HLA disparities and with nucleated cells /kg at cryopreservation. In a recent collaborative study between the Düsseldorf Cord Blood Bank and the Eurocord-Netcord registry, we have tried to analyze the effect of HLA highresolution typing for class I and II on outcomes after UCBT. We studied 122 patient/cord blood donor combinations by using high-resolution DNA typing for both HLA class I (HLA-A, -B, and -C) and class II (HLA-DRB1 and -DQB1) loci (G. Koegler, unpublished data). The analysis showed a large number of HLA disparities between recipient and donor (up to 8/10 mismatches on the allelic typing level); however, we were not able to find any association of the number and type of HLA incompatibilities with engraftment, acute GVHD, transplant-related mortality, or survival by using high-resolution tying. This finding is probably due to the high number of HLA incompatibilities encountered in a relatively small and heterogeneous group of unrelated UCBT recipients. Reducing Conditioning-Related Mortality Encouraging results regarding engraftment and TRM have recently been reported with the use of reduced-intensity conditioning regimens [28]. In the largest experience to date, investigators from the University of Minnesota have reported the preliminary results of UCBT from mismatched unrelated donors after nonmyeloablative conditioning in 43 adult patients (median age, 49.5 years) with advanced or highrisk hematologic malignancies. In this series, some patients received 2 cord blood units, and 2 there were types of nonmyeloablative conditioning regimens: fludarabine 200 mg/m 2, busulfan 8 mg/kg, and TBI 200 cgy (Flu/Bu/TBI) for 21 patients and fludarabine 200 mg/m 2, cyclophosphamide 50 mg/kg, and TBI 200 cgy (Flu/Cy/TBI) for the remaining cases. All patients received CsA and mycophenolate mofetil as GVHD prophylaxis. The median time to neutrophil recovery was 26 days (range, days), with a cumulative incidence of 76% for the Flu/Bu/TBI recipients, and was only 9.5 days (range, 5-28 days), with a cumulative incidence of 94%, for the Flu/Cy/TBI recipients. The cumulative incidence of acute GVHD grade II to IV and III/IV was 44% and 9%, respectively. TRM at day 100 was 48% for Bu/Flu/TBI recipients and 28% for Flu/Cy/TBI recipients. Causes of death during the first 100 days were predominantly organ failure and infections. Disease-free survival at 1 year for these high-risk patients was 24% for Flu/Bu/ TBI recipients and 41% for Flu/Cy/TBI recipients. Despite these encouraging results, more experience and a longer follow-up are needed. Improving Immune Reconstitution Immune recovery after UCBT is an area of great interest and concern because of the low number and immaturity of UCB lymphocytes, as well as the degree of HLA mismatching. Despite those facts, several studies have shown that immune reconstitution in children undergoing UCBT is not delayed compared with BMT in terms of the number of T- and B- lymphocyte and natural killer lymphocyte subsets and of the T-cell repertoire diversity and thymic function and recovery of specific immune response toward viruses and fungi. In contrast, central T-cell recovery and lymphocyte recovery are delayed after UCBT in adults compared with children, especially in the presence of GVHD. CONCLUSIONS UCB has emerged as an appealing alternative source of hematopoietic stem cells for transplantation. Although many issues remain uncertain and greater experience will be required to clearly determine the relative merits of UCBT compared with BMT, all available data suggest that unrelated donor UCBT should be considered an acceptable option in children and adults with hematologic and nonhematologic malignancies for whom an HLA-matched unrelated BM donor is not readily available. A shorter time to transplantation and an improved chance of finding a suitable graft are evident advantages of unrelated donor UCBT over unrelated donor BMT [2,3]. This is particularly relevant to patients who require urgent transplantation. Increasing the available pool of UCB units would increase the probability of finding one suitable with more cells and fewer HLA disparities and seems to be a feasible way of improving the results of UCBTs. This simple approach probably offers much more room for improvement regarding the outcome than expanding the current pool of unrelated BM donors. Hopefully, current research approaches and greater experience of transplant centers with UCBT will improve outcomes and will provide successful therapy to more patients who need an allogeneic HSCT. ACKNOWLEDGMENTS We would like to thank G. Sanz, MD, Valencia, Spain, for his suggestions and comments and all Eurocord-Netcord members and data managers for providing data to the registry. This work was supported in part by a European Union grant for Eurocord BIOMED II QLRT

8 Related and Unrelated Cord Blood Transplantation REFERENCES 1. Gluckman E, Broxmeyer HE, Auerbach AD, et al. Hematopoietic reconstitution in a patient with Fanconi s anemia by means of umbilical-cord blood from an HLA-identical sibling. N Engl J Med. 1989;321: Barker JN, Krepski TP, DeFor T, et al. Searching for unrelated donor hematopoietic stem cell grafts: availability and speed of umbilical cord blood versus bone marrow. Biol Blood Marrow Transplant. 2002;8: Dalle JH, Duval M, Moghrabi A, et al. Results of an unrelated transplant search strategy using partially HLA-mismatched cord blood as an immediate alternative to HLA-matched bone marrow. Bone Marrow Transplant. 2004;33: Davey S, Armitage S, Rocha V, et al. The London Cord Blood Bank: analysis of banking and transplantation outcome. Br J Haematol. 2004;125: Gluckman E, Rocha V, Boyer-Chammard A, et al. Outcome of cord blood transplantation from related and unrelated donors. Eurocord Transplant Group and the European Blood and Marrow Transplantation Group. N Engl J Med. 1997;337: Rocha V, Wagner JE, Sobocinski KA, et al. Graft-versus-host disease in children who have received a cord blood or bone marrow transplant from an HLA-identical sibling. N Engl J Med. 2000;342: Michel G, Rocha V, Chevret S, et al. Unrelated cord blood transplantation for childhood acute myeloid leukemia: a Eurocord Group analysis. Blood. 2003;102: Rubinstein P, Carrier C, Scaradavou A, et al. Outcomes among 562 recipients of placental-blood transplants from unrelated donors. N Engl J Med. 1998;339: Wagner JE, Barker JN, DeFor TE, et al. Transplantation of unrelated donor umbilical cord blood in 102 patients with malignant and nonmalignant diseases: influence of CD34 cell dose and HLA disparity on treatment-related mortality and survival. Blood. 2002;100: Styczynski J, Cheung YK, Garvin J, et al. Outcomes of unrelated cord blood transplantation in pediatric recipients. Bone Marrow Transplant. 2004;34: Staba SL, Escolar ML, Poe M, et al. Cord-blood transplants from unrelated donors in patients with Hurler s syndrome. N Engl J Med. 2004;350: Escolar ML, Poe MD, Provenzale JM, et al. Transplantation of umbilical-cord blood in babies with infantile Krabbe s disease. N Engl J Med. 2005;352: Gluckman E, Rocha V, Arcese W, et al. Eurocord Group. Factors associated with outcomes of unrelated cord blood transplant: guidelines for donor choice. Exp Hematol. 2004;32: Rocha V, Cornish J, Sievers E, et al. Comparison of outcomes of unrelated bone marrow and umbilical cord blood transplants in children with acute leukemia. Blood. 2001;97: Barker JN, Davies SM, DeFor T, et al. Survival after transplantation of unrelated donor umbilical cord blood is comparable to that of human leukocyte antigen-matched unrelated donor bone marrow: results of a matched-pair analysis. Blood. 2001;97: Rocha V, Sanz G, Gluckman E. Eurocord and European Blood and Marrow Transplant Group. Umbilical cord blood transplantation. Curr Opin Hematol. 2004;11: Laughlin MJ, Barker J, Bambach B, et al. Hematopoietic engraftment and survival in adult recipients of umbilical-cord blood from unrelated donors. N Engl J Med. 2001;344: Sanz GF, Saavedra S, Planelles D, et al. Standardized, unrelated donor cord blood transplantation in adults with hematological malignancies. Blood. 2001;98: Ooi J, Iseki T, Takahashi S, et al. Unrelated cord blood transplantation for adult patients with de novo acute myeloid leukemia. Blood. 2004;103: Ooi J, Iseki T, Takahashi S, et al. Unrelated cord blood transplantation for adult patients with advanced myelodysplastic syndrome. Blood. 2003;101: Long GD, Laughlin M, Madan B, et al. Unrelated umbilical cord blood transplantation in adult patients. Biol Blood Marrow Transplant. 2003;9: Rocha V, Arcese W, Sanz G, et al. Prognostic factors of outcome after unrelated cord blood transplant in adults with hematologic malignancies [abstract]. Blood. 2000;96:587a. 23. Takahashi S, Iseki T, Ooi J, et al. Single-institute comparative analysis of unrelated bone marrow transplantation and cord blood transplantation for adult patients with hematological malignancies. Blood. 2004;104: Rocha V, Labopin M, Sanz G, et al. Acute Leukemia Working Party of European Blood and Marrow Transplant Group; Eurocord-Netcord Registry. Transplants of umbilical-cord blood or bone marrow from unrelated donors in adults with acute leukemia. N Engl J Med. 2004;351: Laughlin MJ, Eapen M, Rubinstein P, et al. Outcomes after transplantation of cord blood or bone marrow from unrelated donors in adults with leukemia. N Engl J Med. 2004;351: Aversa F, Terenzi A, Tabilio A, et al. Full haplotype-mismatched hematopoietic stem-cell transplantation: a phase II study in patients with acute leukemia at high risk of relapse. J Clin Oncol. 2005;23: Barker JN, Weisdorf DJ, DeFor TE, et al. Transplantation of 2 partially HLA-matched umbilical cord blood units to enhance engraftment in adults with hematologic malignancy. Blood. 2005;105: Barker JN, Weisdorf DJ, DeFor TE, Blazar BR, Miller JS, Wagner JE. Rapid and complete donor chimerism in adult recipients of unrelated donor umbilical cord blood transplantation after reduced-intensity conditioning. Blood. 2003;102: BB&MT 41