Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.1.1.69 (BMT)
 2,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Polymerase Chain Reaction (PCR) was used to evaluate minimal residual disease in 21 Ph+ CML patients at various intervals after allogeneic bone-marrow transplantation (ABMT) by amplification of bcr-abl cDNA. All patients were cytogenetically Ph- at the moment of molecular analysis. Of these 76% were PCR negative, 24% positive for bcr-abl transcripts. 100% of the Cyclosporine A/Methotrexate treated patients (7/7) were negative. Severe chronic GvHD was twice as frequent in PCR positive patients (60%) than in negative ones (31%). The only patient who relapsed during follow up was PCR positive. The two longest survivors were PCR negative. These data are still insufficient for assessing the predictive value of PCR analysis in CML. Patients. 25 patients with Ph+ CML at diagnosis were enrolled in this study. Two died soon after BMT because of infection for failure of engraftment/early relapse, two were Ph chromosome positive and PCR+, and were therefore dismissed from this study. All remaining 21 patients were cytogenetically Ph- at the time of molecular analysis and underwent ABMT from matched donors. All patients were conditioned with cyclophosphamide and TBI: 330 cGy the three days prior to transplantation (990 cGy total, treatment B), or 200 cGy two times daily for three days (1200 cGy total, treatment A). In 3 cases the marrow was treated for GvHD prophilaxis with Campath alone or Campath plus BT 5/9 monoclonal antibodies (1). All patients were treated with Cyclosporin A (CS) 5 mg/kg i.v. from the day prior to transplantation until 25-30 days after; 9 of these were treated with CS plus Methotrexate (MTX).
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PMID:An assessment of chimeric transcript detection in CML patients after bone marrow transplantation. 187 98

Depletion of T-lymphocytes from allogeneic marrow prior to transplantation decreases the risk of serious graft versus host disease (GvHD), but also increases the risk of relapse. We have used a partial T-cell depletion technique, in the hope of controlling GvHD without compromising relapse risk. Allogeneic marrow was fully T-cell depleted ex vivo with Campath 1M, and infused together with an 'addback' of 2 x 10(5) donor peripheral blood T-cells/kg in 16 consecutive patients undergoing BMT from HLA-identical family members. Post-transplant immunosuppression was with cyclosporin A in conventional dosage. Eight cases developed grade I or II GvHD, limited to the skin in all cases. Only the two grade II cases required steroid therapy; the remainder were easily controlled with simple emollients. No cases of more advanced GvHD were seen. All patients engrafted promptly. With a median follow-up for the survivors of 976 days, seven cases have relapsed, with an overall projected actuarial disease-free survival of 37.5 per cent at 36 months. The overall outcome (good control of GvHD but high relapse rate) is therefore similar to that expected in patients receiving fully T-depleted marrow without post-transplant immunosuppression.
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PMID:Transplantation of T-lymphocyte depleted marrow with an addback of T cells. 755 98

Between May 1989 and February 1994, we performed 48 volunteer unrelated donor BMTs for first chronic phase chronic myeloid leukemia using in vivo T cell depletion for acute graft-versus-host disease (aGvHD) prophylaxis. In 40 cases, adequate material was available to measure the frequency of antirecipient MHC cytotoxic T lymphocyte precursor (CTLp) cells in the blood of potential donors. This supplemented standard serological typing, one-dimensional isoelectric focusing for class I proteins, and allogenotyping for DR and DQ alleles using DNA RFLP analysis in the donor selection process. All recipients were conditioned with cyclophosphamide 120 mg/kg, TBI 1320 cGy, and intravenous Campath 1G. GvHD prophylaxis consisted of CsA, short-course methotrexate, and intravenous Campath 1G. Minimum follow-up in all surviving recipients was 100 days. The development of aGvHD and the probability of leukemia-free survival were compared between the high frequency group (CTLp > 1 in 100,000) (n = 15) and the low frequency group (CTLp < 1 in 100,000) (n = 25). There was a trend for increasing grade of aGvHD, which was statistically significant in the high frequency group when compared with the low frequency group (P = 0.003). Both a high frequency of CTLp (relative risk [RR] = 9.0, P = 0.016) and HLA mismatch (RR = 6.7, P = 0.023) were predictors of severe aGvHD (grade III or IV). Multivariate analysis showed that CTLp group (RR = 3.4, P = 0.015) and CMV status (RR = 3.9, P = 0.008) were predictors of leukemia-free survival. Further investigation showed an interaction between the two, such that CMV seropositive recipients in the high frequency group had a relative risk of 9.4 (P = 0.0001) of treatment failure (death or relapse) when compared with other combinations. We conclude that with our present GvHD prophylaxis regimen, CTLp frequency analysis predicts post-BMT outcome and is a valuable aid in donor selection.
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PMID:Cytotoxic T lymphocyte precursor frequency analyses in bone marrow transplantation with volunteer unrelated donors. Value in donor selection. 776 66

Allogeneic BMT for severe aplastic anemia is associated with a significant rate of graft rejection, especially in patients who have been previously transfused. We report a child with aplastic anemia who rejected donor marrow twice despite adequate immunosuppression as part of the conditioning therapy but engrafted successfully following combined administration of three modalities of immunosuppression: antithymocyte globulin, total lymphoid irradiation and the monoclonal antibody Campath-1G. Restriction fragment length polymorphism studies > 1 year after BMT show full donor hematopoiesis with no evidence of autologous recovery.
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PMID:Total lymphoid irradiation, anti-lymphocyte globulin and Campath 1-G for immunosuppression prior to bone marrow transplantation for aplastic anemia after repeated graft rejection. 801 59

We investigated a case of graft rejection after in vivo/ex vivo T-depleted BMT in a patient who had received a HVG-matched, GVH one locus-mismatched, MLC-negative graft from his cousin. In vivo/ex vivo T cell depletion was performed with Campath 1G (CP1G) and Campath 1M (CP1M), respectively. We identified a failure of CP1G to eradicate a CDw52- (Campath-negative) host T cell population as the main cause of treatment failure. The analysis also suggests that significant host-versus-donor reactivity prior to transplant, as detected by limiting dilution analysis, also contributed to graft rejection. The rejecting T cells were bifunctional in that they showed cytotoxic activity and were capable of inhibiting haemopoietic progenitor growth by producing inhibitory lymphokines.
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PMID:Graft rejection by a population of primed CDw52- host T cells after in vivo/ex vivo T-depleted bone marrow transplantation. 824 78

Between January 1985 and March 1992, 48 patients with chronic phase CML underwent BMT from volunteer unrelated donors (MUD) serologically identical at HLA-A, B and DR loci. 19 patients received donor marrow ex vivo T-cell depleted (EX-TCD) with Campath monoclonal antibodies. 29 patients received unmanipulated donor marrow with CsA/MTX GVHD prophylaxis; 28 received additional intravenous antilymphocyte therapy from day +1 to +5 (IN-TCD). Overall 26 patients survive at median follow up of 362 days; actuarial survival at 3 years is 50%. 3 patients have sustained haematological relapse; actuarial leukaemia-free survival is 38%. There is no difference in overall survival between the EX-TCD and IN-TCD groups, but primary graft failure (n = 4) occurred only in the EX-TCD group, while GVHD (grade II or greater) occurred more frequently in the IN-TCD group (61% vs. 29%, p = 0.084). The optimum method for GVHD prophylaxis in MUD BMT remains uncertain.
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PMID:Matched unrelated donor bone marrow transplantation for chronic myeloid leukaemia in chronic phase: comparison of ex vivo and in vivo T-cell depletion. 844 31

We report on 24 patients with leukemia (19 pts), congenital disorders (4 pts) or severe aplastic anemia (1 pt) who received bone marrow transplantation from unrelated volunteer donors in 8 Italian Institutions. All the donor/recipient pairs were serologically HLA-A,B,DR matched; MLR was non reactive in 21 out of 24 cases. Preparative regimens were in accord with standards for diagnosis and disease status and included TBI in 15 patients, busulfan in 8, cyclophosphamide alone in one patient with SAA. GvHD prophylaxis consisted of cyclosporine/methotrexate in the majority of cases; 6 patients received additional immunotherapy with anti-lymphocyte globulin and 1 patient in vivo Campath-1G. The bone marrow was T-cell depleted in 2 cases. Acute GvHD grade II-IV occurred in 87% of patients (gr.III-IV: 57%) and was the main cause of death in 8 cases. Six patients (25%) survive with a median follow-up of 9 months, (16% actuarial survival at 3 years). A trend in favour of a better outcome has been found for age < 20 yrs at BMT (33% vs 22%), intensified GvHD prophylaxis (33% vs 22%) and transplants performed in more recent years (31% vs 18%).
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PMID:Bone marrow transplantation from unrelated donors: the Italian experience. GITMO, AIEOP and IBMDR. 844 60

A 49-year-old man with a 3-year history of chronic lymphocytic leukemia (CLL, stage B at diagnosis) responded well to four course of fludarabine, but developed marrow failure and prolonged pancytopenia lasting 9 months following the fifth course. Fludarabine therapy could not be continued due to pancytopenia, eventually resulting in disease progression. Bone marrow transplantation from an unrelated donor mismatched at one DRB1 locus and both DQB1 loci was performed as salvage therapy. The marrow was depleted of T cells with Campath-1G. Pre-transplant immunosuppression was enhanced with 600 cGy total lymphoid irradiation and Campath-1G infusions in addition to 120 mg/kg cyclophosphamide and 1200 cGy fractionated total body irradiation. Cyclosporine alone was used as post-transplant immunosuppression. Neutrophils reached 0.5x10(9)/1 on day 14 and platelets 50 x 10(9)/1 on day 40. No acute graft-versus-host disease was seen. Bulk disease detected on CT scanning prior to BMT was found to have disappeared 10 weeks after BMT. The marrow showed residual disease (5% CD5+/CD19+ cells) 9 weeks after transplantation, which had decreased markedly at 13 (0.5%) and 26 (0.4%) weeks. The patient is currently alive and well 10 months after BMT with no clinically detectable disease. We conclude that BMT from an unrelated donor is a feasible treatment option in advanced CLL.
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PMID:T cell-depleted allogeneic bone marrow transplantation from a partially HLA-mismatched unrelated donor for progressive chronic lymphocytic leukemia and fludarabine-induced bone marrow failure. 873 15

B cell lymphoproliferative disorders (BLPD) are relatively frequent after genotypically non-HLA-identical BMT. We performed univariate analysis to study which BMT-related variables were associated with an increased risk of developing BLPD. Sixty-five recipients of other than genotypically HLA-identical BM grafts were included in the study. Seventy-seven recipients of genotypically HLA-identical BM grafts served as a comparison group. BLPD occurred in nine of 65 children after non-HLA-identical BMT (14%) and in none of the 77 children after HLA-identical BMT (0%). In all cases, BLPD was proven to be EBV-related. Our data suggest that the combined use of Campath 1G and anti-LFA1 was associated with an increased risk of developing BLPD, particularly children who had received a T cell-depleted BM graft, using albumen density gradient sedimentation followed by E-rosetting, and who were conditioned with Ara-C, CY and TBL. In addition, T cell numbers below 50/microliters at 1 month and below 100/microliters at 2 months after BMT, respectively, were associated with an increased risk of developing BLPD. Longitudinal determination of T cell numbers after non-HLA-identical BMT is a simple method for identifying patients at risk of developing BLPD. In addition to monitoring levels of circulating EBV-infected lymphocytes, monitoring T cell numbers may allow early intervention to prevent progression of BLPD.
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PMID:Risk factors for developing EBV-related B cell lymphoproliferative disorders (BLPD) after non-HLA-identical BMT in children. 886 49

Donor leukocyte infusions (DLI) have been used effectively to induce remission in patients who relapse after BMT. Using CD34+ cell immunoaffinity enrichment, donor T cells may be captured in the unadsorbed (residual) fraction and we assessed this as a potential source of functional T cells for post-BMT immunotherapy. We extended our study to compare CD34+ cell selection and antibody-mediated cell lysis using Campath-1M and measured T cell-depletion, CD34+ cell recovery and relative progenitor proliferative potential. The recovery of CD3+ cells (responsive to IL-2 or PHA) in the unadsorbed fraction was 84+/-12% (mean+/-s.d.) using a laboratory scale CD34+ cell selection process (CEPRATE LC). The immunoselected (CD34+ cell enriched) product contained 55+/-12% of the starting CD34+ cells (purity, 75+/-6%) with recoveries of 44+/-12% and 42+/-13% for CFU-GM and BFU-E respectively. T cell depletion was 99.8+/-0.2% (FACS) and the frequency of clonable T cells estimated at 1:640 (limiting dilution assay). In comparison, Campath-1M-treated marrow samples gave recoveries of CD34+ cells, CFU-GM and BFU-E of 50+/-7%, 78+/-20% and 79+/-18%, respectively. The frequency of clonable T cells was 1:2700 despite an estimated T cell depletion of 98.4+/-1.9%. Data obtained from four BM harvests processed on the clinical grade CEPRATE SC system was comparable in every respect to the laboratory scale system. The yield of 1259 +/- 222 x 10(6) CD3+ cells in the unadsorbed fraction would allow for multiple graded incremental T cell aliquots for DLI for patients with acute leukaemia.
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PMID:A laboratory comparison of T cell depletion by CD34+ cell immunoaffinity selection and in vitro Campath-1M treatment: clinical implications for bone marrow transplantation and donor leukocyte therapy. 938 40


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