Smoothing the crescent curve: sickle cell disease
|
|
- Annice Miles
- 5 years ago
- Views:
Transcription
1 STEMWARE:STEM CELL THERAPY FOR CONGENITAL BLOOD DISORDERS Smoothing the crescent curve: sickle cell disease Julie-An Talano 1 and Mitchell S. Cairo Department of Pediatrics, Medical College of Wisconsin, Milwaukee, WI; and 2 Department of Pediatrics, 3 Department of Medicine, 4 Department of Pathology, 5 Department of Microbiology & Immunology, and 6 Department of Cell Biology & Anatomy, New York Medical College, Valhalla, NY Sickle cell disease (SCD) is an inherited disorder secondary to a point mutation at the sixth position of the beta chain of human hemoglobin that results in the replacement of valine for glutamic acid. This recessive genetic abnormality precipitates the polymerization of the deoxygenated form of hemoglobin S that induces a major distortion of red blood cells (sickle red blood cells), which decreases sickle red blood cell deformability, leading to chronic hemolysis and vasoocclusion. These processes can result in severe complications, including chronic pain, end organ dysfunction, stroke, and early mortality. The only proven curative therapy for patients with SCD is myeloablative conditioning and allogeneic stem cell transplantation from HLA-matched sibling donors. In this review, we discuss the most recent advances in allogeneic stem cell transplantation in SCD, including more novel approaches such as reduced toxicity conditioning and the use of alternative allogeneic donors (matched unrelated donors, umbilical cord blood transplantation, haploidentical donors) and autologous gene correction stem cell strategies. Prospects are bright for new stem cell approaches for patients with SCD that will enable curative stem and genetic correction therapies for a greater number of patients suffering from this chronic and debilitating condition. Learning Objective To highlight the current state of the art for allogeneic transplantation and corrective genetic cellular therapy for sickle cell disease Introduction In 1984, Johnson et al 1 first demonstrated the success of a myeloablative conditioning (MAC) and HLA-matched sibling allogeneic hematopoietic stem cell transplantation (allo-hsct) in a patient with sickle cell disease (SCD). Walters et al 2 subsequently reported on the successful use of HLA-matched sibling MAC allo-hsct in a larger series of patients with SCD. Twenty-two patients with severe symptoms of SCD received allo-hsct from a fully HLA-matched sibling donor (MSD) after receiving a MAC regimen consisting of busulfan (Bu), cyclophosphamide (Cy), and antithymocyte globulin (ATG). 2 The event-free survival (EFS) and disease-free survival (DFS) rates at 4 years were 91% and 73%, respectively. 2 Graft failure occurred in 19% of allo-hsct SCD recipients. One patient experienced early graft rejection at day 30 and the remaining 3 patients experienced late graft rejection between days 156 and 270. In 2007, the Center for International Blood and Marrow Transplant Research (CIBMTR) reported on 67 pediatric patients who received HLA-matched sibling allo-hscts after a MAC regimen. 3 Panepinto et al 3 demonstrated that the 5-year overall survival (OS) and DFS rates were 97% and 85%, respectively. The incidence of graft failure was 15%. The majority of the graft failures occurred late and approximately one-half of the patients had 10 packed RBC transfusions before BM transplantation (BMT) as a possible predisposing risk factor for developing graft failure. The rates of acute GVHD (AGVHD, grade II-IV) and chronic GVHD (CGVHD) were 10% and 22%, respectively. Bernaudin et al 4 reported the results from France demonstrating similar results in 87 allo-hsct SCD recipients who received allo-hscts from HLA MSDs after MAC with Bu and Cy. The 6-year OS was 93.1% and the EFS was 86.1%, respectively. Graft failure occurred in 7% of these patients; however, after the introduction of ATG as part of the conditioning regimen, the incidence of graft failure decreased to 2.9%. Six rejections occurred at months after transplantation. One patient failed to engraft after a matched sibling cord blood (CB) transplantation; that patient experienced autologous reconstitution despite a second BM graft from the same donor. The probability of AGVHD (grade II-IV) and CGVHD was 20% and 12.6%, respectively. 4 Locatelli et al 5 recently reported the results of 130 Eurocord registry patients who underwent HLA-identical sibling BMT and 30 patients who underwent HLA-identical sibling CB transplantations for SCD. All patients received conditioning that included Bu and the majority of patients who received BM also received Cy. Patients receiving CB were more likely to receive Bu combined with fludarabine (Flu) or thiotepa-based regimens. ATG was used in the majority of patients as well. The 6-year DFS for all SCD patients was 92 2%. Specifically the DFS at 6 years after BMT was 92% 2% and after sibling CB transplantation it was 90% 5% (Table 1). Dedeken et al 6 reported the outcome of 50 consecutive children with severe SCD that received HLA-matched sibling allo-hsct from 1988 to The stem cell source was BM (n 39), sibling CB (n 3), both (n 7), and PBSCs (n 1). The MAC regimen consisted of Bu and Cy (Bu/Cy) before November 1991 and Bu/Cy with rabbit ATG after that date. Since 1995, all patients have been treated with hydroxyurea before transplantation for a median of 2.7 years. AGVHD and CGVHD were observed in 11 and 10 patients, respectively. Eight-year OS and EFS rates were 94.1% and 85.6%, respectively. Since the introduction of hydroxyurea, no graft failures have occurred and the EFS now approaches 97.4% (Table 1). 6 These studies demonstrate that HLA-matched sibling allo- HSCTs after MAC offer very high survival rates with few transplantation-related complications (Table 1). 468 American Society of Hematology
2 Table 1. HLA-matched sibling allo-hscts after MAC in patients with SCD Study Country or registry N OS (%) EFS (%) Graft rejection (%) AGVHD (%) CGVHD (%) Panepinto et al 3 CIBMTR Walters et al 2 USA Bernaudin et al 4 France Locatelli et al 5 Eurocord, Oakland N/A N/A N/A Dedeken et al 6 Belgium Long-term (late effects) of HLA sibling-matched allo-hsct and MAC in patients with symptomatic SCD Walters et al 7 reported on late effects of MSD allo-hsct in children with severe SCD who underwent transplantation between 1991 and After allo-hsct, patients with stroke who had stable engraftment of donor cells experienced no subsequent stroke events after BMT and brain magnetic resonance imaging examinations demonstrated stable or improved results. However, 2 patients with graft rejection had a second stroke after BMT. After transplantation, most patients also had unchanged or improved pulmonary function. There was, however, significant gonadal toxicity after BMT, particularly among female recipients. Other investigators have also demonstrated that allo-hsct has been demonstrated to stabilize or reverse the organ damage secondary to SCD. In a long-term follow-up study of patients who received HLA-matched related allo-hsct, pulmonary function was stable in 22 of 26 patients, worse in 2, and not studied in 2. 8 Linear growth measured by median height SD score improved from 0.7 before HSCT to 0.2 after HSCT. 8 Reduced-intensity conditioning and allo-hsct in pediatric SCD recipients A major limitation of MAC and allo-hsct is the risk of transplantation-related mortality or treatment-related toxicities associated with MAC regimens. Organ toxicities are more likely to occur and be more severe in symptomatic patients with SCD who have impaired organ function or have been exposed to multiple RBC transfusions before MAC and allo-hsct. MAC facilitates durable engraftment of donor cells, but is limited by conditioning related toxicities and transplantation-related complications. 9 The ongoing National Heart, Lung, and Blood Institute (NHLBI) BMT clinical trials network (CTN) 0601 trial uses a reduced-intensity conditioning (RIC) regimen that includes alemtuzumab, Flu, and melphalan as a conditioning regimen, followed by an 8/8 HLA matched adult unrelated donor (MUD) transplantation. GVHD prophylaxis consists of cyclosporine/fk506, methotrexate, and steroids. However, the major difficulty with this approach is identifying an 8/8 HLA MUD because there are lower percentages of African-American and Hispanic-American donors in the international BM registries. Only 20%-25% of patients identified as potential BMT candidates have an 8/8 HLA MUD available. Clearly, other strategies to increase the donor pool or other alternatives are desperately needed for identifying allogeneic donors for SCD. This trial is nearing completion and the results will be forthcoming (S. Shenoy, Washington University, St. Louis, MO, personal communication). Krishnamurti et al 10 reported on stable donor engraftment after RIC with Bu, Flu, equine ATG, and total lymphoid irradiation. Six of 7 patients with SCD demonstrated long-term engraftment. Four of 6 patients had evidence of only partial donor chimerism, but these patients still had a hemoglobin level 10 and alleviation of their symptoms of SCD (Table 2). Radhakrishnan et al 11 reported on the experience of RIC with Bu, Flu, and alemtuzumab for 8 consecutive pediatric patients with high-risk symptomatic SCD undergoing unrelated CB transplantation (UCBT). Among evaluable (5 of 8) UCBT recipients, 62.5% engrafted neutrophils at median day 34 (range, 27 to 47). In addition to the 3 unrelated UCBT recipients who did not engraft neutrophils, one unrelated UCBT recipient achieved absolute neutrophil count 500/mm 3 for 3 days, but did not achieve 50% donor chimerism in whole blood by day 60 and was therefore classified as having primary graft failure. The probability of grade II to grade IV AGVHD was 50.0% and the probability of grade III to grade IV AGVHD was 25.0%. One recipient developed CGVHD, which was limited. Two-year EFS and OS were 50% and 62.5%, respectively. Three patients with primary graft failure died from infection: one died from cytomegalovirus pneumonitis on day 84; another died of adenovirus on day 128; and one patient, who had developed primary graft failure due to cytomegalovirus, received a second allograft 1 year later for persistent aplasia and died of Candida parapsilosis. The above results parallel the results reported by Kamani et al, 12 with high incidence of graft failure after RIC and UCBT in pediatric recipients with high-risk SCD. Bhatia et al 13 have demonstrated the successful use of reducedtoxicity conditioning (RTC) followed by HLA-matched sibling BM or CB transplantation in patients with SCD. Eighteen patients received Bu, Flu, and alemtuzumab before receiving either matched sibling BM or CB allo-hsct. The median age was 8.9 years (range, ), and 15 sibling BM and 3 sibling CB transplantations were performed. Mean whole blood and erythroid donor chimerism were 90.7% and 87.7% at days 100 and 365, respectively. Probability of grade II-IV AGVHD was 16.7%. Two-year EFS and OS were both 100%. 13 These data illustrate the well-tolerated and successful Table 2. RIC/RTC regimens before allo-hsct in patients with symptomatic SCD Study Country N Regimen Graft sources OS (n) EFS (%) Graft rejection (no.) Krishnamurti et al 10 USA 7 Bu/Flu/ATG/TLI Related BM Radhakrishnan/Cairo et al 11 USA 8 Bu/Flu/alemtuzumab Unrelated UCB Shenoy et al 39 USA 16 Alemtuzumab/Flu/melphalan Related/unrelated BM Bhatia/Cairo et al 13 USA 18 Bu/Flu/alemtuzumab Related BM, related CB Hsieh et al 14 USA 10 Alemtuzumab/3Gy TBI/Sirolimus Related PBSC TLI indicates total lymphoid irradiation; and TBI, total body irradiation. Hematology
3 RTC regimen of Bu, Flu, and alemtuzumab in SCD patients after MSD allo-hsct (Table 2). Hsieh et al 14 reported the results of a pilot study of nonablative conditioning and HLA-MSD allo-hsct using 300 cgy of total body irradiation and alemtuzumab in 10 adult patients with highrisk SCD and demonstrated a 90% EFS but a 10% incidence of graft failure. However, patients required long-term immunosuppression with 50% T-cell donor chimerism at 1 year. 14 This confirms that RTC can allow for sufficient donor whole blood and RBC engraftment to ameliorate SCD. These studies support the use of RIC/RTC regimens in patients with symptomatic SCD who cannot undergo a MAC allo-hsct (Table 2). Alternative allogeneic donor sources for allo-hsct in patients with SCD We and others have demonstrated that UCB is an excellent alternative allogeneic donor source for both childhood malignant and nonmalignant conditions The preliminary results of UCBT as an alternative allogeneic source for SCD, although limited in scope, have been disappointing. 11,18,19 The NHLBI BMT CTN trial of RIC UCBT in symptomatic patients with SCD was closed early to accrual secondary to increased graft rejection. 12 Eight children with severe SCD underwent UCBT after alemtuzumab, Flu, and melphalan. Cyclosporine or tacrolimus and mycophenolate mofetil were administered for GVHD prophylaxis. The median precryopreservation total nucleated cell dose was /kg (range, ) and the median post-thaw infused CD34 cell dose was /kg (range, ). Three patients engrafted had 100% donor cells by day 100, which was sustained, and 5 patients had autologous hematopoietic recovery. With a median follow-up of 1.8 years (range, 1-2.6), 7 patients are alive with a 1-year survival of 100% and 3 of 8 are alive without graft failure or disease recurrence. 12 Ruggeri et al 19 examined the efficacy of UCBT in children with SCD (N 16). OS and DFS were 94% and 50%, respectively. The 2-year probability of DFS was 45% in patients who received allografts with nucleated cell dose /kg compared with only 13% with lower cell doses. Primary graft failure was the predominant cause of treatment failure, occurring in 7 patients with SCD. These results suggest that only UCB units containing an expected infused nucleated cell dose /kg should be considered for transplantation for hemoglobinopathies, which further limits the available UCB units for this population of patients. 19 Bolanos-Meade et al 20 reported on using a nonmyeloablative approach in 17 adult patients, 14 from HLA-haploidentical donors and 3 from HLA-matched related donors. The regimen consisted of ATG, Flu, Cy, total body irradiation, and GVHD prophylaxis with posttransplantation high-dose Cy, mycophenolate mofetil, and tacrolimus or sirolimus. Graft failure was not seen in HLA-matched patients, but 43% of the haploidentical patients rejected their graft. Only one patient developed skin-only AGVHD and there was no mortality. Therefore, non-mac with posttransplantation high-dose Cy expands the donor pool, making BMT feasible for most patients with SCD, and is associated with a low risk of complications. However, further investigation is needed to lower the rejection rate. 20 Familial haploidentical T-cell-depleted transplantation Familial haploidentical (FHI) T-cell depletion (TCD) is another approach to overcoming the paucity of well-matched related and unrelated donors in this patient population. 21 For patients with thalassemia, Lucarelli et al originally designed a conditioning regimen consisting of hydroxyurea and azathioprine between days 45 and 11 before Flu 20 mg/m 2 /d 6 days, Bu 14 mg/kg/total dose and Cy 60 mg/kg/total dose in 33 poor-risk class 3 thalassemia patients before allo-hsct. Graft rejection was reduced to only 8% compared with the previous 30% reported from the same group without the hydroxyurea, azathioprine, and Flu. 22,23 Further improvements were achieved in 22 poor-risk thalassemia patients by modifying the conditioning regimen to add thiotepa 10 mg/kg/ 1, rabbit ATG 12.5 mg/kg/total dose, expanding the use of hydroxyurea and azathioprine to day 59, and increasing Cy to 200 mg/kg/total dose. Grafts primarily from a maternal donor (N 20) were depleted of T cells using the CliniMACS system to achieve a median of CD34 cells/kg with a controlled add-back of CD3 /kg and cyclosporine added as AGVHD prophylaxis. Engraftment was achieved in 16/22 patients without AGVHD and with OS of 90%. These results suggest that a similar approach could be investigated in high-risk patients with SCD. We have created a multicenter, multidisciplinary consortium of pediatric SCT centers, each having a substantial SCD patient population with the intent of investigating FHI TCD allo-hsct in high-risk patients with SCD. 21 We have adopted the conditioning regimen that Lucarelli piloted in the FHI TCD allo-hsct study in a high-risk thalassemia population (Figure 1A). We have included the addition of total lymphoid irradiation to potentially reduce the rejection rate in this SCD population. Selected high-risk patients with SCD will be enrolled on this study. Patients will receive a myelosuppressive/immunosuppressive conditioning regimen and will receive FHI TCD (CD34 selected) and T-cell add-back PBSC transplantation using the CliniMACS device IND #14359 (Figure 1B). Four patients have received allo-hscts to date. All used maternal donors without complications and had early myeloid engraftment, 97% whole blood and 96% RBC donor chimerism, and no AGVHD or CGVHD. 24 Early results indicate FHI TCD allo-hsct is feasible in high-risk SCD patients who lack an MSD or MUD. 24 A larger cohort is needed to assess long-term safety and outcomes [supported by Food and Drug Administration (FDA) Grant 5R01FD and a grant from Otsuka; IND #14359 and identifier NCT ]. Gene therapy Although allo-hsct is the only proven curative option for patients with high-risk SCD, this therapeutic approach is limited by lack of HLA well-matched family and unrelated donors and allo-hsct related morbidity [acute and chronic (late)] and mortality. 21 To circumvent this limitation, gene therapy using autologous stem cells offers an alternative therapeutic strategy to overcome lack of HLA-matched allogeneic donors and allo-hsct-related morbidity and mortality. 25 Alternatively, recent investigations of developing induced pluripotent stem cells (ipscs) and new gene-editing approaches to deliver site-specific double-stranded DNA breaks allows for both nonhomologous end joining and homology-directed repair/homologous reconstitution facilitating gene correction strategies in SCD. 26 In the past, gene therapy strategies have included approaches to modify -globin production to develop synthetic -globins with 470 American Society of Hematology
4 Figure 1. Myeloimmunosuppressive conditioning regimen and cellular processing for FHI SCD clinical trial. (A) MAC regimen before haploidentical allo-sct in high-risk SCD. (B) CD34 selection and T-cell add-back procedure. antisickling properties and gamma globin strategies to enhance hemoglobin F (HgF) production and reduce hemoglobin S (HgS) production. 25 The -globin gene cluster is located on human chromosome 11 and consists of 5 functional genes including ε, G, A,, and (Figure 2). In the second and third trimesters of fetal life, the -globin gene on chromosome 11 is predominantly expressed in the form of HgF ( 2 2 ) and the -globin gene is significantly repressed. After birth, the opposite occurs and -globin expression is significantly repressed. 25 The regulation of -globin to -globin switching and -globin expression is highly complex and is regulated by several transcription factors and histone deacetylases (HDAC1, HDAC2) and 5 locus control regions (GATA1, BCL11A, KLF-1, MYB, SOX6) highly sensitive to DNase 1 in erythroid cells kb upstream from the -globin gene, respectively (Figure 2). 25,27,28 Multiple gene therapy approaches have been investigated over the past 15 years as potential options for patients with high-risk SCD. Pawliuk et al 29 first demonstrated the modification of sickle -globin production to B T87Q by a lentiviral vector (LV) in a murine model of SCD and demonstrated this genetic mutation had significant antisickling properties. Similar approaches using a Sleeping Beauty transposon (nonviral) approach via a nucleofection gene transduction approach with B T87Q in CD34 HSCs from a patient with SCD has also been demonstrated to significantly reduce RBC sickling. 30 After this initial observation with modest effects on sickling complications, Levasseur et al 31 demonstrated the production of the antisickling AS3 -globin using a self-inactivating LV in sickle mice with prior expression of human -globin and S -globin. Most recently, Romero et al, 32 using CD34 HSCs from BM of a patient with SCD, successfully induced AS3 -globin production using an LV-based vector that was associated with a reduction in HgBS associated physiological changes. A summary of gene therapy/transduction approaches to induce -globins with antisickling properties is illustrated in Figure 3. Several gene therapy approaches to enhance -globin production and enhance HgF production have also been investigated over the past several years. 25 Pestina et al 33 originally demonstrated the ability to enhance HgF production and amelioration of SCD-related symptoms by an LV-mediated transfer of the 3.1 kb of the locus control region and 130 bp -globin promoter region. Perumbeti et Hematology
5 Figure 2. Human -globin gene locus on chromosome 11 showing the ontology of expression of the embryonic, fetal, and adult globin genes controlled by locus control regions. In adult life, the transcription of -globin is highly repressed. Some of the major transcription factors involved in the repression of -globin are highlighted. Reprinted with permission from Chandrakasan and Malik, al 34 developed a novel -globin gene vector by substituting the exons for -globin in the -globin gene and demonstrated 10% production of HgF and 20% donor chimerism in a humanized sickle cell mouse model. Lastly, the Orkin group demonstrated that BCL11A is a major repressor of human -globin expression and that silencing of BCL11A in humanized sickling mice significantly enhances HgF production and SCD-related hematological and pathological defects (Figure 2). 35,36 Most recently, the technology to develop ipscs from mature somatic cells has allowed advanced gene editing approaches using site directed endonucleases, such as zinc finger nucleases, transcription activator-like effector nucleases, and clustered regulatory interspaced short palindromic repeat endonucleases, to induce double-stranded DNA breaks and after nonhomologous end joining or homology-directed repair/homologous reconstitution gene correction strategies (Figure 4A-D). 21,37,38 Future studies are required to determine the long-term efficacy and safety of these recent ipsc gene-editing strategies. Currently, St Jude s Research Hospital has an open clinical trial entitled Retroviral Vector Mediated Globin Gene Transfer to Correct Sickle Cell Anemia or Thalassemia ( gov identifier NCT ). CD34 cells purified from the BM of research participants with a sickle cell syndrome or a thalassemia syndrome will be transduced with retroviral vectors containing -globin coding sequences under the control of the -globin gene promoter and including various regulatory elements chosen to enhance gene expression and to insulate regulatory elements from cellular genes at or near the integration sites. The efficiency of gene transfer and the function of the globin transgene will be evaluated in erythroid cells derived from transduced progenitors and from the Figure 3. Gene therapy viruses and vectors. The genome of both wild-type murine MLV (A) and the HIV-1 virus and the gene therapy vectors derived from them (B). The initial retroviral vectors had full-length long terminal repeats (LTRs) with intact U3 region (which carries the viral enhancer and promoter). With the current generation of LVs, the U3 region of the 3 LTR is deleted and in the 5 LTR, it is replaced by a CMV promoter in the 5 LTR. The CMV promoter is only used in packaging the vector and is not transmitted to host cells. The HIV envelope is replaced by the VSV-G envelope. (C) Prototypic globin LV vector. Reprinted with permission from Chandrakasan and Malik, American Society of Hematology
6 progenitors in the BM of immunodeficient mice engrafted with transduced, primitive hematopoietic cells. This study will evaluate whether a vector can be designed to achieve both a potentially therapeutic efficiency of gene transfer into repopulating cells and a potentially therapeutic level of globin gene expression in maturing erythroid cells. A second clinical trial is about to open at the time of this writing entitled A Phase 1 Study Evaluating Gene Therapy by Transplantation of Autologous CD34 Stem Cells Transduced Ex Vivo With the LentiGlobin BB305 Lentiviral Vector in Subjects With Severe Sickle Cell Disease. This is a nonrandomized, open label, multisite, single-dose, phase 1 study in up to 8 adults with severe SCD. The study will evaluate the safety and efficacy of the LentiGlobin BB305 drug product consisting of autologous CD34 HSCs transduced with LentiGlobin BB305 LV vector encoding the human beta A-T87Q-globin gene ( identifier NCT , sponsored by BluBird Bio). Summary MAC with HLA MSD allo-hsct is the only known curative therapy in patients with SCD. More novel approaches are being investigated, including RIC and the use of alternative allogeneic donors (MUDs, UCBT, haploidentical) and autologous gene correction/replacement stem cell therapies. Prospects are bright for new stem cell approaches for patients with SCD and we are able to offer a greater number of patients a potential cure from this chronic and debilitating condition. Acknowledgments This work was supported in part by grants from the FDA (Grant 5R01FD004090) and the Pediatric Cancer Research Foundation. The authors thank Yaya Chu and Sanghoon Lee for their significant contribution to the production of Figure 4A-D and Erin Morris for her editorial assistance in the production of this manuscript. Disclosures Conflict-of-interest disclosures: M.S.C. has received research funding from Otsuka. J.T. declares no competing financial interests. Off-label drug use: None disclosed. Figure 4. Development of SCD patients. (A) Studies deriving gene-corrected HSCs using human cell lines obtained from patients with SCD to generate ips cells, with the ultimate goal of autologous transplantation. Reprinted with permission from Freed et al, (B) Sleeping Beauty (SB) transposon and transposase mediated wild-type (Wt) -globin gene integration. (C) Transcription activator-like effector nucleases (TALENs)-mediated human beta-globin (HBB) gene correction in SCD. (D) The clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated (Cas)-mediated human -globin (HBB) gene correction in SCD. Correspondence Mitchell S. Cairo, MD, Chief, Pediatric Hematology, Oncology and Stem Cell Transplantation, Director, Children and Adolescent Cancer and Blood Diseases Center, Medical and Scientific Director, Cellular and Tissue Engineering Laboratory, Associate Chairman, Department of Pediatrics, Professor of Pediatrics, Medicine, Pathology, Microbiology & Immunology and Cell Biology & Anatomy, Maria Fareri Children s Hospital at Westchester Medical Center, New York Medical College, 40 Sunshine Cottage Rd, Skyline Office, 1N-D12 Valhalla, NY 10595; Phone: ; Fax: ; mitchell_cairo@nymc.edu. References 1. Johnson FL, Look AT, Gockerman J, et al. Bone-marrow transplantation in a patient with sickle-cell anemia. N Engl J Med. 1984;311(12): Walters MC, Patience M, Leisenring W, et al. Bone marrow transplantation for sickle cell disease. N Engl J Med. 1996;335(6): Panepinto JA, Walters MC, Carreras J, et al. Matched-related donor transplantation for sickle cell disease: report from the Center for International Blood and Transplant Research. Br J Haematol. 2007; 137(5): Bernaudin F, Socie G, Kuentz M, et al. Long-term results of related Hematology
7 myeloablative stem-cell transplantation to cure sickle cell disease. Blood. 2007;110(7): Locatelli F, Kabbara N, Ruggeri A, et al. Outcome of patients with hemoglobinopathies given either cord blood or bone marrow transplantation from an HLA-identical sibling. Blood. 2013;122(6): Dedeken L, Le PQ, Azzi N, et al. Haematopoietic stem cell transplantation for severe sickle cell disease in childhood: a single centre experience of 50 patients. Br J Haematol. 2014;165(3): Walters MC, Hardy K, Edwards S, et al. Pulmonary, gonadal, and central nervous system status after bone marrow transplantation for sickle cell disease. Biol Blood Marrow Transplant. 2010;16(2): Walters MC, Storb R, Patience M, et al. Impact of bone marrow transplantation for symptomatic sickle cell disease: an interim report. Multicenter investigation of bone marrow transplantation for sickle cell disease. Blood. 2000;95(6): Socie G, Salooja N, Cohen A, et al. Nonmalignant late effects after allogeneic stem cell transplantation. Blood. 2003;101(9): Krishnamurti L, Kharbanda S, Biernacki MA, et al. Stable long-term donor engraftment following reduced-intensity hematopoietic cell transplantation for sickle cell disease. Biol Blood Marrow Transplant. 2008;14(11): Radhakrishnan K, Bhatia M, Geyer MB, et al. Busulfan, fludarabine, and alemtuzumab conditioning and unrelated cord blood transplantation in children with sickle cell disease. Biol Blood Marrow Transplant. 2013;19(4): Kamani NR, Walters MC, Carter S, et al. Unrelated donor cord blood transplantation for children with severe sickle cell disease: results of one cohort from the phase II study from the Blood and Marrow Transplant Clinical Trials Network (BMT CTN). Biol Blood Marrow Transplant. 2012;18(8): Bhatia M, Jin Z, Baker C, et al. Reduced toxicity, myeloablative conditioning with BU, fludarabine, alemtuzumab and SCT from sibling donors in children with sickle cell disease. Bone Marrow Transplant. 2014;49(7): Hsieh MM, Kang EM, Fitzhugh CD, et al. Allogeneic hematopoietic stem-cell transplantation for sickle cell disease. N Engl J Med. 2009;361(24): Cairo MS, Rocha V, Gluckman E, Hale G, Wagner J. Alternative allogeneic donor sources for transplantation for childhood diseases: unrelated cord blood and haploidentical family donors. Biol Blood Marrow Transplant. 2008;14(1 suppl 1): Kurtzberg J, Laughlin M, Graham ML, et al. Placental blood as a source of hematopoietic stem cells for transplantation into unrelated recipients. N Engl J Med. 1996;335(3): Liao Y, Geyer MB, Yang AJ, Cairo MS. Cord blood transplantation and stem cell regenerative potential. Exp Hematol. 2011;39(4): Adamkiewicz TV, Szabolcs P, Haight A, et al. Unrelated cord blood transplantation in children with sickle cell disease: review of four-center experience. Pediatr Transplant. 2007;11(6): Ruggeri A, Eapen M, Scaravadou A, et al. Umbilical cord blood transplantation for children with thalassemia and sickle cell disease. Biol Blood Marrow Transplant. 2011;17(9): Bolanos-Meade J, Fuchs EJ, Luznik L, et al. HLA-haploidentical bone marrow transplantation with posttransplant cyclophosphamide expands the donor pool for patients with sickle cell disease. Blood. 2012;120(22): Freed J, Talano J, Small T, Ricci A, Cairo MS. Allogeneic cellular and autologous stem cell therapy for sickle cell disease: whom, when and how. Bone Marrow Transplant. 2012;47(12): Lucarelli G, Clift RA, Galimberti M, et al. Marrow transplantation for patients with thalassemia: results in class 3 patients. Blood. 1996;87(5): Sodani P, Isgro A, Gaziev J, et al. Purified T-depleted, CD34 peripheral blood and bone marrow cell transplantation from haploidentical mother to child with thalassemia. Blood. 2010;115(6): Talano J-A, Keever-Taylor C, Walters M, et al. Familial haploidentical (FHI) T-cell depleted (TCD) with T-cell addback stem cell transplantation for patients with high-risk sickle cell disease (SCD) (IND 14359). Biol Blood Marrow Transplant. 2014;20(2):S135-S Chandrakasan S, Malik P. Gene therapy for hemoglobinopathies: the state of the field and the future. Hematol Oncol Clin North Am. 2014;28(2): Takahashi K, Tanabe K, Ohnuki M, et al. Induction of pluripotent stem cells from adult human fibroblasts by defined factors. Cell. 2007;131(5): Grosveld F, van Assendelft GB, Greaves DR, Kollias G. Positionindependent, high-level expression of the human beta-globin gene in transgenic mice. Cell. 1987;51(6): Sankaran VG, Orkin SH. The switch from fetal to adult hemoglobin. Cold Spring Harb Perspect Med. 2013;3(1):a Pawliuk R, Westerman KA, Fabry ME, et al. Correction of sickle cell disease in transgenic mouse models by gene therapy. Science. 2001; 294(5550): Sjeklocha LM, Wong PY, Belcher JD, Vercellotti GM, Steer CJ. beta-globin sleeping beauty transposon reduces red blood cell sickling in a patient-derived CD34( )-based in vitro model. PLoS One. 2013; 8(11):e Levasseur DN, Ryan TM, Pawlik KM, Townes TM. Correction of a mouse model of sickle cell disease: lentiviral/antisickling beta-globin gene transduction of unmobilized, purified hematopoietic stem cells. Blood. 2003;102(13): Romero Z, Urbinati F, Geiger S, et al. beta-globin gene transfer to human bone marrow for sickle cell disease. J Clin Invest. 2013;123(8): Pestina TI, Hargrove PW, Jay D, Gray JT, Boyd KM, Persons DA. Correction of murine sickle cell disease using gamma-globin lentiviral vectors to mediate high-level expression of fetal hemoglobin. Mol Ther. 2009;17(2): Perumbeti A, Higashimoto T, Urbinati F, et al. A novel human gamma-globin gene vector for genetic correction of sickle cell anemia in a humanized sickle mouse model: critical determinants for successful correction. Blood. 2009;114(6): Sankaran VG, Xu J, Ragoczy T, et al. Developmental and speciesdivergent globin switching are driven by BCL11A. Nature. 2009; 460(7259): Xu J, Peng C, Sankaran VG, et al. Correction of sickle cell disease in adult mice by interference with fetal hemoglobin silencing. Science. 2011;334(6058): Sebastiano V, Maeder ML, Angstman JF, et al. In situ genetic correction of the sickle cell anemia mutation in human induced pluripotent stem cells using engineered zinc finger nucleases. Stem Cells. 2011;29(11): Sun N, Zhao H. Seamless correction of the sickle cell disease mutation of the HBB gene in human induced pluripotent stem cells using TALENs. Biotechnol Bioeng. 2014;111(5): Shenoy S, Grossman WJ, DiPersio J, et al. A novel reduced-intensity stem cell transplant regimen for nonmalignant disorders. Bone Marrow Transplant. 2005;35(4): American Society of Hematology
UNRELATED DONOR TRANSPLANTATION FOR SICKLE CELL DISEASE AN UPDATE
UNRELATED DONOR TRANSPLANTATION FOR SICKLE CELL DISEASE AN UPDATE Naynesh Kamani, M.D. Children s National Medical Center GW University School of Medicine Washington, DC SCD scope of problem in USA Commonest
More informationReduced-intensity Conditioning Transplantation
Reduced-intensity Conditioning Transplantation Current Role and Future Prospect He Huang M.D., Ph.D. Bone Marrow Transplantation Center The First Affiliated Hospital Zhejiang University School of Medicine,
More informationPost Transplant Management for Sickle Cell. Title
Post Transplant Management for Sickle Cell Title Kimberly Kasow, DO October 14, 2016 Thank you for this opportunity to present this information I have no financial interests to disclose. Goal of Transplant
More informationHematopoietic Stem Cell Transplant in Sickle Cell Disease- An update
Hematopoietic Stem Cell Transplant in Sickle Cell Disease- An update Dr Chirag A Shah Diplomate American Board of Hematology and Medical Oncology Director, Dept of Hemato-Oncology and Stem Cell Transplant
More information1 Kattamis et al. Growth of Children with Thalassemia: Effect of Different Transfusion Regimens. Archives of
Objectives Sickle Cell Anemia and Thalassemia: Transplantation Provide overview of hemoglobinopathies: Sickle cell disease and Thalassemia Discuss approaches to therapy Review recent registry collaboration
More informationHaploidentical Transplantation: The Answer to our Donor Problems? Mary M. Horowitz, MD, MS CIBMTR, Medical College of Wisconsin January 2017
Haploidentical Transplantation: The Answer to our Donor Problems? Mary M. Horowitz, MD, MS CIBMTR, Medical College of Wisconsin January 2017 Allogeneic Transplant Recipients in the US, by Donor Type 9000
More informationFederica Galaverna, 1 Daria Pagliara, 1 Deepa Manwani, 2 Rajni Agarwal-Hashmi, 3 Melissa Aldinger, 4 Franco Locatelli 1
Administration of Rivogenlecleucel (Rivo-cel, BPX-501) Following αβ T- and B-Cell Depleted Haplo-HSCT in Children With Transfusion-Dependent Thalassemia Federica Galaverna, 1 Daria Pagliara, 1 Deepa Manwani,
More informationSickle Cell Diseasechronic. curable disease? Objectives. Why would a family ask about cure for SCD?
Sickle Cell Diseasechronic illness or curable disease? Gregory M.T. Guilcher MD, FRCPC, FAAP Objectives To review the general principles of hematopoietic stem cell transplantation (HSCT), including risks
More informationRob Wynn RMCH & University of Manchester, UK. HCT in Children
Rob Wynn RMCH & University of Manchester, UK HCT in Children Summary Indications for HCT in children Donor selection for Paediatric HCT Using cords Achieving engraftment in HCT Conditioning Immune action
More informationHaploidentical Transplantation today: and the alternatives
Haploidentical Transplantation today: and the alternatives Daniel Weisdorf MD University of Minnesota February, 2013 No matched sib: where to look? URD donor requires close HLA matching and 3-12 weeks
More informationThe National Marrow Donor Program. Graft Sources for Hematopoietic Cell Transplantation. Simon Bostic, URD Transplant Recipient
1988 199 1992 1994 1996 1998 2 22 24 26 28 21 212 214 216 218 Adult Donors Cord Blood Units The National Donor Program Graft Sources for Hematopoietic Cell Transplantation Dennis L. Confer, MD Chief Medical
More informationMUD SCT. Pimjai Niparuck Division of Hematology, Department of Medicine Ramathibodi Hospital, Mahidol University
MUD SCT Pimjai Niparuck Division of Hematology, Department of Medicine Ramathibodi Hospital, Mahidol University Outlines Optimal match criteria for unrelated adult donors Role of ATG in MUD-SCT Post-transplant
More informationHigh dose cyclophosphamide in HLAhaploidentical
High dose cyclophosphamide in HLAhaploidentical stem cell transplantation Ephraim J. Fuchs, M.D., M.B.A. Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins fuchsep@jhmi.edu Alternative Donor Transplantation:
More informationHematopoietic Stem Cell Transplant for Sickle Cell Anemia: The changing landscape
Hematopoietic Stem Cell Transplant for Sickle Cell Anemia: The changing landscape Adetola A. Kassim, MD, MS Associate Professor of Medicine Hematology/Stem cell Transplant Vanderbilt University Medical
More informationUmbilical Cord Blood Transplantation
Umbilical Cord Blood Transplantation Current Results John E. Wagner, M.D. Blood and Marrow Transplant Program and Stem Cell Institute University of Minnesota Donor Choices Unrelated Marrow/PBSC Results
More informationHOT TOPIC: Matched Related Donor Hematopoietic Stem Cell Transplant for Children with Sickle Cell Disease
November 20, 208 HOT TOPIC: Matched Related Donor Hematopoietic Stem Cell Transplant for Children with Sickle Cell Disease Patricia Kavanagh, MD Associate Professor of Pediatrics Boston University/Boston
More informationOne Day BMT Course by Thai Society of Hematology. Management of Graft Failure and Relapsed Diseases
One Day BMT Course by Thai Society of Hematology Management of Graft Failure and Relapsed Diseases Piya Rujkijyanont, MD Division of Hematology-Oncology Department of Pediatrics Phramongkutklao Hospital
More informationCOHEM Barcellona 2012 Hemoglobinopathies debate
COHEM Barcellona 2012 Hemoglobinopathies debate September 8, 2012: h. 10:30-12:00 Hall: A Is it justified to perform BMT in hemoglobinopathies using unrelated and/or partially mismatched donors? HSCT indication
More informationUmbilical Cord Blood Transplantation for Children with Thalassemia and Sickle Cell Disease
Umbilical Cord Blood Transplantation for Children with Thalassemia and Sickle Cell Disease Annalisa Ruggeri, 1 Mary Eapen, 2 Andromachi Scaravadou, 3 Mitchell S. Cairo, 4 Monica Bhatia, 4 Joanne Kurtzberg,
More information5/9/2018. Bone marrow failure diseases (aplastic anemia) can be cured by providing a source of new marrow
5/9/2018 or Stem Cell Harvest Where we are now, and What s Coming AA MDS International Foundation Indianapolis IN Luke Akard MD May 19, 2018 Infusion Transplant Conditioning Treatment 2-7 days STEM CELL
More informationShall young patients with severe aplastic anemia without donors receive BMT from alternative source of HCT? Elias Hallack Atta, MD, PhD
Shall young patients with severe aplastic anemia without donors receive BMT from alternative source of HCT? Elias Hallack Atta, MD, PhD Declaração de Conflito de Interesse Declaro que possuo conflito de
More informationWhat s new in Blood and Marrow Transplant? Saar Gill, MD PhD Jan 22, 2016
What s new in Blood and Marrow Transplant? Saar Gill, MD PhD Jan 22, 2016 Division of Hematology-Oncology University of Pennsylvania Perelman School of Medicine 1 Who should be transplanted and how? Updates
More informationStem cell transplantation for haemoglobinopathies. Dr P J Darbyshire Birmingham Childrens Hospital
Stem cell transplantation for haemoglobinopathies Dr P J Darbyshire Birmingham Childrens Hospital Survival by Cohort of Birth (N=977) 1.00 85-97 80-84 75-79 70-74 0.75 Survival Probability 0.50 0.25 P
More informationHaplo vs Cord vs URD Debate
3rd Annual ASBMT Regional Conference for NPs, PAs and Fellows Haplo vs Cord vs URD Debate Claudio G. Brunstein Associate Professor University of Minnesota Medical School Take home message Finding a donor
More informationMUD HSCT as first line Treatment in Idiopathic SAA. Dr Sujith Samarasinghe Great Ormond Street Hospital for Children, London, UK
MUD HSCT as first line Treatment in Idiopathic SAA Dr Sujith Samarasinghe Great Ormond Street Hospital for Children, London, UK No Financial Disclosures Guidelines for management of aplastic anaemia British
More informationCan All Thalassemia Patients be Cured? Suradej Hongeng, MD Dept of Pediatrics, Faculty of Medicine Ramathibodi Hospital, Mahidol University
Can All Thalassemia Patients be Cured? Suradej Hongeng, MD Dept of Pediatrics, Faculty of Medicine Ramathibodi Hospital, Mahidol University Thalassemia α thalassemia disease Hb bart ( / ) Hb H disease
More informationAllogeneic Hematopoietic Stem Cell Transplantation: State of the Art in 2018 RICHARD W. CHILDS M.D. BETHESDA MD
Allogeneic Hematopoietic Stem Cell Transplantation: State of the Art in 2018 RICHARD W. CHILDS M.D. BETHESDA MD Overview: Update on allogeneic transplantation for malignant and nonmalignant diseases: state
More informationStem Cell Transplantation
Stem Cell Transplantation Evelyne Willems Centre Hospitalier Universitaire, ULg, Liège Post-ASH meeting, January 11, 2012, Brussels Plan 1. Select the patient: validation of HCT-CI 2. Select the donor
More informationTrends in Hematopoietic Cell Transplantation. AAMAC Patient Education Day Oct 2014
Trends in Hematopoietic Cell Transplantation AAMAC Patient Education Day Oct 2014 Objectives Review the principles behind allogeneic stem cell transplantation Outline the process of transplant, some of
More informationPediatric Grand Rounds UT Health SA 3/30/2018
Hematopoietic Cell Transplantation for Sickle Cell Disease Disclosures No financial disclosures Discussion of off label use of the CliniMACS device (IND 14045) Michael J. Eckrich, MD MPH Medical Director
More informationCurrent Status of Haploidentical Hematopoietic Stem Cell Transplantation
Current Status of Haploidentical Hematopoietic Stem Cell Transplantation Annalisa Ruggeri, MD, PhD Hematology and BMT Unit Hôpital Saint Antoine, Paris, France #EBMTITC16 www.ebmt.org Hematopoietic SCT
More informationMyeloablative and Reduced Intensity Conditioning for HSCT Annalisa Ruggeri, MD, Hôpital Saint Antoine Eurocord- Hôpital Saint Louis, Paris
Myeloablative and Reduced Intensity Conditioning for HSCT Annalisa Ruggeri, MD, Hôpital Saint Antoine Eurocord- Hôpital Saint Louis, Paris 18th ESH - EBMT Training Course on HSCT 8-10 May 2014, Vienna,
More informationHaploidentical Stem Cell Transplantation with post transplantation Cyclophosphamide for the treatment of Fanconi Anemia
Haploidentical Stem Cell Transplantation with post transplantation Cyclophosphamide for the treatment of Fanconi Anemia Carmem Bonfim Director Pediatric Blood and Marrow Transplantation Program HC Federal
More informationSECOND ANNUAL INTERNATIONAL UMBILICAL CORD BLOOD SYMPOSIUM
Biology of Blood and Marrow Transplantation 10:728-739 (2004) 2004 American Society for Blood and Marrow Transplantation 1083-8791/04/1010-0009$30.00/0 doi:10.1016/j.bbmt.2004.06.010 SECOND ANNUAL INTERNATIONAL
More informationDisclosures of: Emanuele Angelucci
Company name Novartis Disclosures of: Emanuele Angelucci Research support Employee Consultant Stockholder Speakers bureau Advisory board Chair of TELESTO pro Other EBMT 2012 Educational Session Haemoglobinopathy
More informationPediatric Hematopoietic Stem Cell Transplant - Experience of an Indian Tertiary Care Center
Pediatric Hematopoietic Stem Cell Transplant - Experience of an Indian Tertiary Care Center Dr Chirag A Shah Diplomate American Board of Hematology and Medical Oncology Director, Dept of Hemato-Oncology
More informationAre We There Yet? Gene Therapy and BMT as Curative Therapies in Sickle Cell. Ann Haight, MD 9 Sept 2017
Are We There Yet? Gene Therapy and BMT as Curative Therapies in Sickle Cell Ann Haight, MD 9 Sept 2017 Spoiler alert Yes (we have a cure) And No Work to do! 2 Sickle Cell Treatment Options Supportive Care
More informationIntroduction to Clinical Hematopoietic Cell Transplantation (HCT) George Chen, MD Thursday, May 03, 2018
Introduction to Clinical Hematopoietic Cell Transplantation (HCT) George Chen, MD Thursday, May 03, 2018 The transfer of hematopoietic progenitor and stem cells for therapeutic purposes Hematopoietic Cell
More informationWhat s a Transplant? What s not?
What s a Transplant? What s not? How to report the difference? Daniel Weisdorf MD University of Minnesota Anti-cancer effects of BMT or PBSCT [HSCT] Kill the cancer Save the patient Restore immunocompetence
More informationTHE ROLE OF TBI IN STEM CELL TRANSPLANTATION. Dr. Biju George Professor Department of Haematology CMC Vellore
THE ROLE OF TBI IN STEM CELL TRANSPLANTATION Dr. Biju George Professor Department of Haematology CMC Vellore Introduction Radiotherapy is the medical use of ionising radiation. TBI or Total Body Irradiation
More informationCRISPR-mediated Editing of Hematopoietic Stem Cells for the Treatment of β-hemoglobinopathies
CRISPR-mediated Editing of Hematopoietic Stem Cells for the Treatment of β-hemoglobinopathies Jennifer Gori American Society of Gene & Cell Therapy May 11, 2017 editasmedicine.com 1 Highlights Developed
More informationOutcomes of Transplantation with Related- and Unrelated-Donor Stem Cells in Children with Severe Thalassemia
Biology of Blood and Marrow Transplantation 12:683-687 (2006) 2006 American Society for Blood and Marrow Transplantation 1083-8791/06/1206-0011$32.00/0 doi:10.1016/j.bbmt.2006.02.008 Outcomes of Transplantation
More informationUMBILICAL CORD BLOOD STEM CELLS EXPANDED IN THE PRESENCE OF NICOTINAMIDE (NICORD) PROVIDE LONG TERM MULITI-LINEAGE ENGRAFTMENT
UMBILICAL CORD BLOOD STEM CELLS EXPANDED IN THE PRESENCE OF NICOTINAMIDE (NICORD) PROVIDE LONG TERM MULITI-LINEAGE ENGRAFTMENT Mitchell E. Horwitz, MD Duke University Medical Center Duke Cancer Institute
More informationHaploidentical Donor Transplants: Outcomes and Comparison to Other. Paul V. O Donnell BSBMT Education Day London 12 October 2011
Haploidentical Donor Transplants: Outcomes and Comparison to Other Donor Types Paul V. O Donnell BSBMT Education Day London 12 October 2011 Clinical Problem: Identification of a Donor for Allogeneic Transplantation
More informationCell-based immunotherapy products for the treatment of blood cancers and inherited blood disorders. Company Presentation June 2016
Cell-based immunotherapy products for the treatment of blood cancers and inherited blood disorders Company Presentation June 2016 Disclaimer These slides and the accompanying oral presentation contain
More informationArticle Stem cell transplantation for thalassaemia
RBMOnline - Vol 10. No 1. 2005 111-115 Reproductive BioMedicine Online; www.rbmonline.com/article/1525 on web 10 November 2004 Article Stem cell transplantation for thalassaemia Dr Javid Gaziev Javid Gaziev
More informationHematopoietic Stem Cells, Stem Cell Processing, and Transplantation
Hematopoietic Stem Cells, Stem Cell Processing, and Joseph (Yossi) Schwartz, M irector, Hemotherapy and Stem Cell Processing Facility Bone Marrow Can Cure: Leukemia Lymphoma Multiple Myeloma Genetic iseases:
More informationBone Marrow Transplantation and the Potential Role of Iomab-B
Bone Marrow Transplantation and the Potential Role of Iomab-B Hillard M. Lazarus, MD, FACP Professor of Medicine, Director of Novel Cell Therapy Case Western Reserve University 1 Hematopoietic Cell Transplantation
More informationSleeping Beauty: Current applications and future strategies. CAR-TCR Summit 2017 Partow Kebriaei, MD
Sleeping Beauty: Current applications and future strategies CAR-TCR Summit 2017 Partow Kebriaei, MD Outline Chimeric antigen receptor (CAR) technology Viral versus nonviral vectors Results of current clinical
More informationHematopoietic stem cell transplantation in sickle cell disease
Hematopoietic stem cell transplantation in sickle cell disease Eliane Gluckman, MD, FRCP, Pr Emérite Eurocord/Monacord São Paulo May 2018 Sickle Cell Disease >300,000 children are born each year with Sickle
More informationDonatore HLA identico di anni o MUD giovane?
Donatore HLA identico di 60-70 anni o MUD giovane? Stella Santarone Dipartimento di Ematologia, Medicina Trasfusionale e Biotecnologie Pescara AGENDA 1. Stem Cell Donation: fatalities and severe events
More informationDr. Joseph McGuirk Professor of Medicine, BMT Medical Director, Interim Director, Division of Hematology/Oncology
Advances in Autologous and Allogeneic Stem Cell Transplantation Dr. Joseph McGuirk Professor of Medicine, BMT Medical Director, Interim Director, Division of Hematology/Oncology April 12, 2014 Disclosures
More informationClinical Use of Umbilical Cord Blood Hematopoietic Stem Cells
Biology of Blood and Marrow Transplantation 12:34-41 (2006) 2006 American Society for Blood and Marrow Transplantation 1083-8791/06/1201-0107$32.00/0 doi:10.1016/j.bbmt.2005.09.006 Clinical Use of Umbilical
More informationGene Therapy for Sickle Cell Disease: A Safety/Efficacy Trial
Gene Therapy for Sickle Cell Disease: A Safety/Efficacy Trial Elizabeth Hexner A. Introduction Sickle cell disease (SCD) is an autosomal recessive disease of red blood cells (RBCs). A single amino acid
More informationtransplantation in children with symptomatic sickle cell anemia
POINT-COUNTERPOINT POINT The case for HLA-identical sibling hematopoietic stem cell transplantation in children with symptomatic sickle cell anemia Courtney D. Fitzhugh 1 and Mark C. Walters 2 1 Sickle
More informationTherapeutic Advances in Treatment of Aplastic Anemia. Seiji Kojima MD. PhD.
Therapeutic Advances in Treatment of Aplastic Anemia Seiji Kojima MD. PhD. Department of Pediatrics Nagoya University Graduate School of Medicine Chairman of the Severe Aplastic Anemia Working Party Asia-Pacific
More informationObjectives. What is Aplastic Anemia. SAA 101: An Introductory Course to Severe Aplastic Anemia
SAA 101: An Introductory Course to Severe Aplastic Anemia David A. Margolis, MD Professor of Pediatrics/Medical College of Wisconsin Program Director/ Children s Hospital of Wisconsin BMT Program Objectives
More informationMaking Hope A Reality December 10, Nasdaq : BLUE
Making Hope A Reality December 10, 2014 Nasdaq : BLUE Forward Looking Statement These slides and the accompanying oral presentation contain forward-looking statements and information. The use of words
More informationDisclosure. Objectives 1/22/2015
Evaluation of the Impact of Anti Thymocyte Globulin (ATG) on Post Hematopoietic Stem Cell Transplant (HCT) Outcomes in Patients Undergoing Allogeneic HCT Katie S. Kaminski, PharmD, CPP University of North
More informationHematopoietic Stem Cell Transplant in Adults with Sickle Cell Disease: the changing landscape
Hematopoietic Stem Cell Transplant in Adults with Sickle Cell Disease: the changing landscape Adetola Kassim, M.D. Associate Professor of Medicine Vanderbilt-Meharry-Matthew Walker Center of Excellence
More informationHematopoietic Cell Transplantation in Bone Marrow Failure Syndromes
Hematopoietic Cell Transplantation in Bone Marrow Failure Syndromes The The 44 th th WBMT WBMT SYMPOSIUM 2017 2017 Riyadh, Saudi Saudi Arabia Arabia Mouhab Mouhab Ayas, Ayas, MD MD Department of Pediatric
More informationIndications and Results of HLA-Identical Sibling Hematopoietic Cell Transplantation for Sickle Cell Disease
Indications and Results of HLA-Identical Sibling Hematopoietic Cell Transplantation for Sickle Cell Disease Mark C. Walters, University of California San Francisco Laura M. De Castro, University of Pittsburgh
More informationYes Antonio M. Risitano, M.D., Ph.D. Head of Bone Marrow Transplantation Unit Federico II University of Naples
4ème Journée Nationale Maladies Rares Immuno-Hématologiques Paris, June 7th 2018 Matched unrelated upfront transplantation in idiopathic aplastic anemia? Yes Antonio M. Risitano, M.D., Ph.D. Head of Bone
More informationExperience of patients transplanted with naïve T cell depleted stem cell graft in CMUH
Experience of patients transplanted with naïve T cell depleted stem cell graft in CMUH Tzu-Ting Chen, Wen-Jyi Lo, Chiao-Lin Lin, Ching-Chan Lin, Li-Yuan Bai, Supeng Yeh, Chang-Fang Chiu Hematology and
More informationALLOGENEIC STEM CELL TRANSPLANTATION FOR ACUTE MYELOBLASTIC LEUKEMIAS
ALLOGENEIC STEM CELL TRANSPLANTATION FOR ACUTE MYELOBLASTIC LEUKEMIAS Didier Blaise, MD Transplant and Cellular Therapy Unit (U2T) Department of Hematology Centre de Recherche en Cancérologie, Inserm U891
More informationHematopoietic Stem Cell Transplantation for Fanconi Anemia
Hematopoietic Stem Cell Transplantation for Fanconi Anemia John E. Wagner, M.D. Blood and Marrow Transplant Program University of Minnesota Cell Therapy for Pediatric Diseases NHLBI PACT Workshop 14 15
More informationNiCord Single Unit Expanded Umbilical Cord Blood Transplantation: Results of Phase I/II Trials
NiCord Single Unit Expanded Umbilical Cord Blood Transplantation: Results of Phase I/II Trials Mitchell E. Horwitz, MD Duke University Medical Center Duke Cancer Institute Adult Umbilical Cord Blood Transplantation
More informationLate complications after hematopoietic stem cell transplant in adult patients
Late complications after hematopoietic stem cell transplant in adult patients Gérard Socié, MD, PhD Hematology/Transplantation, Hospital Saint Louis, Paris, France Synopsis H S C T Allogeneic HSCT activity
More informationAcknowledgements. Department of Hematological Malignancy and Cellular Therapy, University of Kansas Medical Center
The Addition of Extracorporeal Photopheresis (ECP) to Tacrolimus and Methotrexate to Prevent Acute and Chronic Graft- Versus Host Disease in Myeloablative Hematopoietic Cell Transplant (HCT) Anthony Accurso,
More informationQuarterly Update & ASH 2017 Abstract Conference Call
Quarterly Update & ASH 2017 Abstract Conference Call November 1, 2017 Nasdaq : BLUE 1 Forward Looking Statements These slides and the accompanying oral presentation contain forward-looking statements and
More informationT-CELL DEPLETION: ALEMTUZUMAB IN THE BAG
UCT T-CELL DEPLETION: ALEMTUZUMAB IN THE BAG Nicolas Novitzky PhD, FCP(SA) Engraftment variables in Allo SCT Host HLA identity Integrity of marrow stroma Disease type and status Previous chemotherapy Graft
More informationAML:Transplant or ChemoTherapy?
AML:Transplant or ChemoTherapy? 1960 s: Importance of HLA type in Animal Models Survival of Dogs Given 1000 RAD TBI and a Marrow Infusion from a Littermate Matched or Mismatched for Dog Leucocyte Antigens
More informationClinical Policy: Allogenic Hematopoietic Cell Transplants for Sickle Cell Anemia and β-thalassemia
Clinical Policy: Allogenic Hematopoietic Cell Transplants for Sickle Cell Anemia and β-thalassemia Reference Number: CP.MP.108 Effective Date: 03/16 Last Review Date: 03/17 See Important Reminder at the
More informationStem Cell Transplantation for Severe Aplastic Anemia
Number of Transplants 10/24/2011 Stem Cell Transplantation for Severe Aplastic Anemia Claudio Anasetti, MD Professor of Oncology and Medicine Chair, Blood and Marrow Transplant Dpt Moffitt Cancer Center
More informationCord Blood Transplant. E. Gluckman Eurocord ESH-EBMT training course Vienna 2014
Cord Blood Transplant E. Gluckman Eurocord ESH-EBMT training course Vienna 2014 Background Since 1988, umbilical cord blood (CB) has been successfully used to treat children and adults needing stem cell
More informationAn Introduction to Bone Marrow Transplant
Introduction to Blood Cancers An Introduction to Bone Marrow Transplant Rushang Patel, MD, PhD, FACP Florida Hospital Medical Group S My RBC Plt Gran Polycythemia Vera Essential Thrombocythemia AML, CML,
More informationWe are IntechOpen, the world s leading publisher of Open Access books Built by scientists, for scientists. International authors and editors
We are IntechOpen, the world s leading publisher of Open Access books Built by scientists, for scientists 3,800 116,000 120M Open access books available International authors and editors Downloads Our
More informationBlood and Marrow Transplantation for Haemoglobinopathies. Dr Josu de la Fuente St. Mary s Hospital London
Blood and Marrow Transplantation for Haemoglobinopathies Dr Josu de la Fuente St. Mary s Hospital London Aim: Stem Cell Transplanta.on 1. Eradicate of disease = achieve myeloabla8on 2. Avoid rejec8on
More informationNeutrophil Recovery: The. Posttransplant Recovery. Bus11_1.ppt
Neutrophil Recovery: The First Step in Posttransplant Recovery No conflicts of interest to disclose Bus11_1.ppt Blood is Made in the Bone Marrow Blood Stem Cell Pre-B White cells B Lymphocyte T Lymphocyte
More informationSymposium Summary Fourth Annual International Umbilical Cord Blood Transplantation Symposium, Los Angeles, California, May 19-20, 2006
Biology of Blood and Marrow Transplantation 12:1206-1217 (2006) 2006 American Society for Blood and Marrow Transplantation 1083-8791/06/1211-0001$32.00/0 doi:10.1016/j.bbmt.2006.08.030 Symposium Summary
More informationHLA-DR-matched Parental Donors for Allogeneic Hematopoietic Stem Cell Transplantation in Patients with High-risk Acute Leukemia
BRIEF COMMUNICATION HLA-DR-matched Parental Donors for Allogeneic Hematopoietic Stem Cell Transplantation in Patients with High-risk Acute Leukemia Shang-Ju Wu, Ming Yao,* Jih-Luh Tang, Bo-Sheng Ko, Hwei-Fang
More informationSICKLE CELL DISEASE TO TREAT OR
SICKLE CELL DISEASE TO TREAT OR NOT TO TREAT COHEM Barcelona September 8, 2012 Sujit Sheth, M.D. Pediatric Hematology Oncology Disclosures None Outline Morbidity and mortality Definitive therapies Risk
More informationTransplantation - Challenges for the future. Dr Gordon Cook S t James s Institute of Oncology, Leeds Teaching Hospitals Trust
Transplantation - Challenges for the future Dr Gordon Cook S t James s Institute of Oncology, Leeds Teaching Hospitals Trust Bone Marrow Transplantation Timeline, 1957-2006 Appelbaum F. N Engl J Med 2007;357:1472-1475
More informationFludarabine-Based Conditioning Secures Engraftment of Second Hematopoietic Stem Cell Allografts (HSCT) in the Treatment of Initial Graft Failure
Biology of Blood and Marrow Transplantation 13:1313-1323 (2007) 2007 American Society for Blood and Marrow Transplantation 1083-8791/07/1311-0001$32.00/0 doi:10.1016/j.bbmt.2007.07.006 Fludarabine-Based
More informationRAPID PUBLICATION. KEY WORDS: Bone marrow transplantation, Stem cell transplantation, Matched unrelated donor, Antithymocyte globulin
RAPID PUBLICATION Fludarabine-Based Conditioning for Marrow Transplantation from Unrelated Donors in Severe Aplastic Anemia: Early Results of a Cyclophosphamide Dose Deescalation Study Show Life-Threatening
More informationAIH, Marseille 30/09/06
ALLOGENEIC STEM CELL TRANSPLANTATION FOR MYELOID MALIGNANCIES Transplant and Cellular Therapy Unit Institut Paoli Calmettes Inserm U599 Université de la Méditerranée ée Marseille, France AIH, Marseille
More informationDisclosures. Franco Locatelli Advisory Board, Bellicum Pharmaceuticals, Inc. Lakshmanan Krishnamurti No disclosures. David Jacobsohn.
Administration of Rivogenlecleucel (rivo-cel; BPX-51) Cells Following αβ-t and B-cell-Depleted HLA Haploidentical HSCT (haplo-hsct) in Children With Acute Leukemias Franco Locatelli, 1 Annalisa Ruggeri,
More informationStem cells. -Dr Dinesh Bhurani, MD, DM, FRCPA. Rajiv Gandhi Cancer Institute, Delhi, -Director, Department of Haematology and BMT
Stem cells -Dr Dinesh Bhurani, MD, DM, FRCPA -Director, Department of Haematology and BMT Rajiv Gandhi Cancer Institute, Delhi, Flow of presentation Update on stem cell uses Haematopoietic stem cell transplantation
More informationPlacental and Umbilical Cord Blood as a Source of Stem Cells
Placental and Umbilical Cord Blood as a Source of Stem Cells Policy Number: 7.01.50 Last Review: 12/2018 Origination: 12/2001 Next Review: 12/2019 Policy Blue Cross and Blue Shield of Kansas City (Blue
More informationThe question is not whether or not to deplete T-cells, but how to deplete which T-cells
The question is not whether or not to deplete T-cells, but how to deplete which T-cells CD34+ positive selection Negative Depletion of: CD3/CD19 TcRαβ/CD19 T-cell depletion: positive selection versus negative
More informationKEY WORDS Fludarabine Sickle cell disease Allogeneic Pharmacokinetic Transplantation Renal failure
Biology of Blood and Marrow Transplantation 13:1422-1426 (2007) 2007 American Society for Blood and Marrow Transplantation 1083-8791/07/1312-0001$32.00/0 doi:10.1016/j.bbmt.2007.08.050 Fludarabine-Based
More informationAlloreattività e Tolleranza nei Trapianti di Cellule Staminali Emopoietiche Allogeniche
Alloreattività e Tolleranza nei Trapianti di Cellule Staminali Emopoietiche Allogeniche Massimo Fabrizio Martelli Ematologia ed Immunologia Clinica Università degli Studi di Perugia 41 Congresso Nazionale
More informationA G E N D A CIBMTR WORKING COMMITTEE FOR NON-MALIGNANT MARROW DISORDERS Salt Lake City, UT Saturday, February 16, 2013, 12:15 pm - 2:15 pm
Not for publication or presentation A G E N D A CIBMTR WORKING COMMITTEE FOR NON-MALIGNANT MARROW DISORDERS Salt Lake City, UT Saturday, February 16, 2013, 12:15 pm - 2:15 pm Co-Chair: Co-Chair: Co-Chair:
More informationThe future of HSCT. John Barrett, MD, NHBLI, NIH Bethesda MD
The future of HSCT John Barrett, MD, NHBLI, NIH Bethesda MD Transplants today Current approaches to improve SCT outcome Optimize stem cell dose and source BMT? PBSCT? Adjusting post transplant I/S to minimize
More informationHOW CAN WE GET THE BEST OUTCOMES FROM CORD BLOOD STEM CELL TRANSPLANTATION IN SEVERE THALASSEMIC PATIENTS: WHEN DOES THE CELL NUMBER REALLY MATTER?
HOW CAN WE GET THE BEST OUTCOMES FROM CORD BLOOD STEM CELL TRANSPLANTATION IN SEVERE THALASSEMIC PATIENTS: WHEN DOES THE CELL NUMBER REALLY MATTER? Kleebsabai Sanpakit, 1 Bunchoo Pongtanakul, 1 Nattee
More informationDonor derived CD19 specific CAR + T cell therapy after haploidentical hematopoietic stem cell transplantation Laurence J.N. Cooper Hyatt Orlando
Donor derived CD19 specific CAR + T cell therapy after haploidentical hematopoietic stem cell transplantation Laurence J.N. Cooper Hyatt Orlando International Airport Hotel December 3, 2015 (afternoon)
More informationBack to the Future: The Resurgence of Bone Marrow??
Back to the Future: The Resurgence of Bone Marrow?? Thomas Spitzer, MD Director. Bone Marrow Transplant Program Massachusetts General Hospital Professor of Medicine, Harvard Medical School Bone Marrow
More informationDisclosers Updates: Management of Aplastic Anemia and Congenital Marrow Failure 5/9/2017
2017 Updates: Management of Aplastic Anemia and Congenital Marrow Failure Sachit Patel, MD Department of Pediatrics Division of Hematology-Oncology Blood and Marrow Transplantation Disclosers None 1 Objectives:
More informationManagement of Sickle Cell Disease
Management of Sickle Cell Disease A.Ferster HUDERF-ULB 29 th BHS meeting Friday 31 January 2014 Introduction > 200.000 affected births each year 2000 births in US 15 births/y in Belgium 80.000 Pts in US
More informationKEY WORDS: Allogeneic, Hematopoietic cell transplantation, Graft-versus-host disease, Immunosuppressants, Cyclosporine, Tacrolimus
A Retrospective Comparison of Tacrolimus versus Cyclosporine with Methotrexate for Immunosuppression after Allogeneic Hematopoietic Cell Transplantation with Mobilized Blood Cells Yoshihiro Inamoto, 1
More information