EC:2.1.1.69 - FACTA Search

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Query: EC:2.1.1.69 (BMT)
2,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The efficacy of graft-vs.-leukemia induction to treat relapses after allogeneic progenitor cell transplant in a variety of hematologic malignancies suggest that it may be possible to use the graft versus leukemia as primary therapy for these malignancies without the need of myeloablative therapy. This type of strategy should be explored initially in patients considered ineligible for conventional myeloablative therapies either because of age or concurrent medical conditions. GVHD remains a major obstacle that needs to be overcome. Although a potentially lower level of inflammatory cytokines may be present after non-myeloablative therapies, fatal GVHD still occurs. Methods to diminish GVHD after allogeneic transplant include selective T-cell depletion (39-43) and transduction of donor T-cells with Herpes simplex virus thymidine kinase which renders these cells sensitive to ganciclovir treatment (see chapter 16). We and others have demonstrated that nonablative chemotherapy using fludarabine combinations is sufficiently immunosuppressive to allow engraftment of allogeneic blood progenitor cells. Patients could then receive graded doses of donor lymphocytes without rejection, to mediate GVL. Ideally, this therapy could be titrated to levels of residual malignant cells using sensitive detection techniques. This novel approach to therapy would reduce the toxicity of the transplant procedure, allow it to be administered more safely to debilitated patients and possibly extend the use of transplantation to older patients who are not presently eligible for BMT procedures. Other possible indications include treatment of non-malignant disorders and induction of tolerance for solid organ transplantation.
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PMID:Non myeloablative "mini transplants". 1080 Jun 46

Since approximately 30% of leukemia patients relapse after allogeneic BMT using total body irradiation (TBI)-based preparative regimens, treatment intensity may be suboptimal. The killing of leukemia cells is proportional to the radiation absorbed dose. We studied the feasibility and toxicity of escalating the doses of fractionated TBI above our previous prescription of 13.5 Gy. Sixteen evaluable patients with advanced hematologic malignancies were treated with twice daily TBI using a high-energy source (18-24 MV). The first patient cohort (n = 11) received a total dose of 14.4 Gy in nine fractions, and the second cohort (n = 5) received doses escalated to 15.3 Gy. All patients received high-dose etoposide (60 mg/kg) and allogeneic stem cell transplantation following the TBI. All patients had HLA-identical sibling donors. The median times for neutrophil and platelet engraftment were 13.5 and 12 days, respectively, and did not differ between the two cohorts. All but one patient developed treatment-related grade 3 or 4 mucositis. There were three cases of grade 4 pulmonary toxicity and three cases of grade 4 hepatic toxicity among the 14.4 Gy cohort, and one case each of grade 4 pulmonary and hepatic toxicities among the 15.3 Gy cohort. In most cases comorbid conditions contributed to these toxicities. Two patients had significant GVHD of the GI tract. Six relapses occurred, five (45%) in the 14.4 Gy cohort and one (20%) in the 15.3 Gy cohort. The 100-day treatment-related mortality rates were 9% and 20% for the 14.4 Gy and 15.3 Gy cohorts, respectively, and the median survivals were 226 and 201 days, respectively. We conclude that TBI dose escalation above the previously used 13.5 Gy dose is feasible using a high-energy source and high-dose etoposide. Acute and chronic toxicities were primarily related to GVHD, infection and relapse rather than to TBI.
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PMID:A dose escalation study of total body irradiation followed by high-dose etoposide and allogeneic blood stem cell transplantation for the treatment of advanced hematologic malignancies. 1080

Although many hematologic malignancies are more common in older patients, autologous blood and marrow transplantation (ABMT) has traditionally been restricted to patients younger than 60 years because of concerns that older patients would be either unable to provide a graft or unable to tolerate the therapy. From June 1995 to May 1998, 30 patients > or = 60 years underwent ABMT at our institution for low-grade lymphoma (4 patients), relapsed intermediate-grade lymphoma (17 patients), or multiple myeloma (9 patients). The median patient age was 62.5 years (range 60-73). Pretransplantation conditioning regimens were CBV (cyclophosphamide, BCNU [carmustine], etoposide) or BEAM (carmustine, etoposide, cytarabine, melphalan) for intermediate-grade lymphoma patients and melphalan 140 mg/m2 + etoposide 60 mg/kg + total body irradiation 500 cGy for the others. The rescue product was bone marrow (BM; 4 patients), peripheral blood stem cells (PBSC; 23 patients), or BM+PBSC (3 patients). The median number of CD34+ cells/kg infused was 3.60 x 10(6) (range 0.53-31.0), by the International Society for Hematotherapy and Graft Engineering method. The treatment-related mortality at day 100 and at 6 months was 10% and 16.7%, respectively. The median days to neutrophil > 0.5 x 10(9)/L was 11 (range 9-25) and platelets > 20 x 10(9)/L was 16 (range 6-70). Three patients died of infection (days 26, 27, and 38), and 1 died of an intracranial hemorrhage related to persistent thrombocytopenia (day 130). Bearman regimen-related toxicity was moderate, with most toxicities < or = grade 2. Seven patients developed significant gut toxicity: 4 patients with Clostridium difficile colitis and 3 patients with neutropenic enterocolitis. Depressive symptoms and signs were noted in 4 patients. Three male patients developed decreased gonadal function after transplantation. These transplantations accounted for 997 patient days, of which 266 days (27%) were in the outpatient BMT program--a smaller percentage than in patients < 60 years (56%, P = .002). Twenty patients are alive 153 to > or = 1224 days after transplantation. ABMT in patients > or = 60 years of age is feasible. Further studies addressing supportive care particular to older patients and comparisons of ABMT with traditional approaches to multiple myeloma and relapsed non-Hodgkin's lymphoma in older patients are needed. Further work to identify elderly patients most likely to benefit from this approach is also required.
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PMID:Autologous blood and marrow transplantation in patients 60 years and older. 1081 29

Increasing age has been reported to be associated with worse outcome and higher occurrence of complication after allogeneic bone marrow transplantation. We analysed a cohort of 39 patients between the ages of 45 and 57 (median 49 years) with different hematologic malignancies who had undergone BMT in our institution over the preceding 4 years. Pretransplant conditioning consisted of Bu/CY2, GVHD prophylaxis of a combination of cyclosporine and "short" methotrexate. At present 54% of patients remain alive (with a median follow-up 44 months), the probability of survival at 5 years is 53% (5-year DFS 78%). The 5-year survival probability in the control group of younger patients is 53% (P = 0.8003). Main causes of death were GVHD (4 patients, 10%), relapse (5 patients, 13%) and infection (6 patients, 15%). The incidence of acute GVHD grade II-IV was 51% (grade III-IV 0% patients), the incidence of chronic GVHD 49% (limited 18% and extensive 31% patients). Our results suggest that allogeneic BMT can be performed in patients above the age of 45 years with acceptable morbidity and mortality, especially if a family HLA matched donor is available.
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PMID:Allogeneic BMT in patients above 45 years of age: a single center experience. 1136 Jan 12

CMV pneumonia is a major cause of morbidity and mortality among allogeneic BMT recipients. To assess the frequency, timing, risk factors and response to therapy of CMV pneumonia among autologous BMT recipients, we reviewed our experience with 795 patients. Sixteen (2%) patients were diagnosed with CMV pneumonia. The frequency was higher among patients who were seropositive than those who were seronegative (3.3% vs 0%, P = 0.008). Among seropositive patients, the frequency was higher among patients with hematological malignancies than patients with solid tumors (5.0 % vs 1.0%, P = 0.019). Eleven cases occurred <30 days, and five cases occurred >100 days post transplant. The overall CMV pneumonia-related mortality rate was 31%. Seven (78%) of nine patients treated with ganciclovir and IVIG prior to respiratory failure survived; neither of two patients treated after respiratory failure survived. Four of five (80%) untreated patients survived. In conclusion, CMV is a not infrequent cause of pneumonia among autologous BMT recipients. Risk factors include CMV seropositivity and an underlying hematological malignancy. A favorable response hinges on the prompt initiation of therapy. The survival of 25% of the patients without antiviral therapy suggests that the isolation of CMV from a BAL specimen occasionally reflects oropharyngeal contamination or that CMV pneumonia may sometimes be self-limited in more immunocompetent autologous BMT recipients.
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PMID:Cytomegalovirus pneumonia in adult autologous blood and marrow transplant recipients. 1147 47

Interleukin-11 (IL-11) decreases cytokine release and increases survival in murine BMT models. In these systems, it reduces gut permeability, partially polarizes T cells to a Th2 phenotype, down-regulates IL-12, prevents mucositis, and accelerates recovery of oral and bowel mucosa. We conducted a randomized double-blind pilot study of rhIL-11 administered with cyclosporine/MTX prophylaxis after cytoxan/TBI conditioning and allogeneic stem cell transplantation for hematologic malignancies. Patients received rhIL-11, 50 microg/kg subcutaneously daily or placebo in a 3:1 ratio. Treatment was administered prior to the start of conditioning and continued up to 21 days. The study was designed to assess safety with stopping rules for cardiac arrhythmias and mortality. Although projected to accrue 20 patients, only 13 patients (10 IL-11, three placebo) were enrolled because the early stopping rule for mortality was triggered. Of 10 evaluable patients who received IL-11, four died by day 40 and one died on day 85. Deaths were attributable to transplant-related toxicity. One of three placebo recipients died of suicide, the other two are alive. Patients receiving IL-11 had severe fluid retention and early mortality, making it impossible to determine whether IL-11 given in this schedule can reduce the rate of GVHD. Grade B-D acute GVHD occurred in two of eight evaluable patients on IL-11 and one of three patients on placebo. The primary adverse events of the study were severe fluid retention resistant to diuresis (average weight gain 9 +/- 4%) and multiorgan failure in five of 10 evaluable patients. The use of IL-11 as GVHD prophylaxis in allogeneic transplantation cannot be recommended as administered in this trial.
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PMID:A phase I/II double-blind, placebo-controlled study of recombinant human interleukin-11 for mucositis and acute GVHD prevention in allogeneic stem cell transplantation. 1191 25

Prior studies of non-T-cell-depleted (TCD) transplantation have demonstrated a reduction in relapse in patients receiving escalated doses of TBI; however, overall survival in these studies was not significantly improved due to increased treatment-related toxicity seen at the higher doses of irradiation. Toxicity was in part related to an increased incidence of GVHD. Because T-cell depletion of donor bone marrow reduces the incidence of GVHD and other treatment-related complications after allogeneic bone marrow transplantation, it was postulated that TBI dose may be safely escalated in this setting and may decrease the risk of relapse following TCD BMT. Herein, we report the results of a trial assessing the safety and impact of escalated doses of TBI after TCD BMT. Two hundred adults with hematologic malignancies were treated in consecutive cohorts defined by increasing doses of TBI (1400, 1480, and 1560 cGy) in combination with cyclophosphamide. In vitro T-cell depletion using anti-CD6 monoclonal antibody was used for GVHD prophylaxis. The incidence of grade II or greater acute GVHD in patients receiving 1560 cGy (36%) was significantly higher than in patients receiving 1400 cGy (18%) (P = .04) or 1480 cGy (13%) (P = .01). Two-year treatment-related mortality was significantly higher in patients who received 1560 cGy of TBI (33%) than in those who received 1400 cGy (20%) (P = .04) or 1480 cGy (19%) (P = .05). The increased dose of TBI did not reduce the rates of relapse, with the estimated 2-year risk of relapse being 24% (1400 cGy), 24% (1480 cGy), and 31% (1560 cGy) for the 3 cohorts of patients. Overall survival at 2 years was inferior for patients receiving 1560 cGy of TBI (36%) compared with those who received 1400 cGy (55%) or 1480 cGy (58%) (P = .01). We conclude that dose escalation of TBI is associated with increased GVHD and inferior survival following TCD BMT. Future efforts to reduce the risk of relapse after TCD BMT should focus on immunologic methods to induce the graft-versus-leukemia effect after BMT rather than intensification of the ablative regimen by escalation of irradiation dose.
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PMID:Effect of total body irradiation dose escalation on outcome following T-cell-depleted allogeneic bone marrow transplantation. 1193 3

Cyclophosphamide (Cy) is a potent immunosuppressive agent that is selectively toxic to lymphocytes proliferating in response to recent antigen stimulation. In animal models, both graft rejection and GVHD after histoincompatible BMT can be inhibited by the posttransplantation administration of high-dose Cy. Therefore, a phase I clinical trial was undertaken to determine the minimal conditioning, including posttransplantation Cy, that permits the stable engraftment of partially HLA-mismatched marrow (up to 3 HLA antigens) from first-degree relatives. Thirteen patients (median age, 53 years) with high-risk hematologic malignancies received conditioning with fludarabine, 30 mg/m2 per day from days -6 to -2, and TBI, 2 Gy on day -1. All patients received Cy, 50 mg/kg on day 3, mycophenolate mofetil from day 4 to day 35, and tacrolimus from day 4 to day > or = 50. Three patients in cohort 1 received no additional conditioning, and 2 experienced graft rejection. Ten patients in cohort 2 received identical conditioning with the addition of Cy 14.5 mg/kg on days -6 and -5. Sustained donor cell engraftment occurred in 8 of these patients, with a median time to absolute neutrophil count > 500/microL of 15 days (range, 13-16 days) and to unsupported platelet count > 20,000/microL of 14 days (range, 0-26 days). All patients with engraftment achieved > or = 95% donor chimerism within 60 days of transplantation. Two patients with myelodysplastic syndrome rejected their grafts but experienced autologous neutrophil recovery at 24 and 44 days. Histologic acute GVHD developed in 6 patients (grade II in 3 patients, grade III in 3 patients) at a median of 99 days (range, 38-143 days) after transplantation and was fatal in 1 patient. At a median follow-up of 191 days (range, 124-423 days), 6 of 10 patients in cohort 2 were alive, and 5 were in complete remission of their disease, including both patients with graft rejection. These data demonstrate that partially HLA-mismatched bone marrow can engraft rapidly and stably after nonmyeloablative conditioning that includes posttransplantation Cy. Clinically significant antitumor responses occur, even among patients who reject their donor grafts.
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PMID:Nonmyeloablative bone marrow transplantation from partially HLA-mismatched related donors using posttransplantation cyclophosphamide. 1217 84

The three most common clinical situations which have given rise to diagnostic and therapeutic issues involve the child treated for: (1) a brain tumour or extracranial tumour with radiotherapy (XRT) which includes an XRT dose of > or =30 Gy to the hypothalamic-pituitary axis; (2) acute lymphoblastic leukaemia with a cranial XRT dose of 18-24 Gy, and (3) haematological malignancy or solid tumour requiring total body irradiation (dose 10-14 Gy) and BMT. The decision about the intent to treat and the timing of GH replacement needs to be taken in collaboration with the paediatric oncologist who will provide guidance about overall prognosis and the risk of relapse. After a dose of > or =30 Gy to the hypothalamic pituitary axis the risk of GH deficiency (GHD) 2 years later is very high (>50%) and therefore there is 'solid' epidemiological evidence, which predicts outcome. Therapeutically the choice is whether or not to offer GH replacement at 2 years in the presence of biochemical evidence of GHD but independent of auxology, or wait until the growth rate declines. Diagnostically the IGF-1 SDS is more useful than previously thought, particularly if XRT-induced GHD is severe; there may, however, be systematic discordancy between the GH responses to different pharmacological stimuli (ITT vs. arginine). For irradiated children in categories 2 and 3, greater emphasis is placed on auxology in determining the need for assessment of GH status. Early rather than very precocious puberty is a real issue and needs to be actively treated with a GnRH analogue if final height appears to be significantly compromised.
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PMID:Growth and growth hormone status after a bone marrow transplant. 1237 20

Nursing Science and research within BMT started in the early 80s and has been shown to be a useful contribution to obtain and maintain high standards of care. Trial and error are no longer accepted. The first studies were conducted together with the clinical developments and focused specifically on symptom control and management of the treatment. The term "evidence-based nursing" (EBN) is nowadays often used to describe the influence of research on practice. And yet we find that in general, care given by nurses is not yet based according to the guidelines established by research. There are several reasons why care is not (yet) based on results from research, like language barrier, diversity in health care and nursing educational systems, financial restrains and different roles and perceptions of nurses around the globe. Many nursing or multidisciplinary research studies have been conducted worldwide on areas such as the prevention or care for patients with mucositis, fatigue or pain, care for the central venous access devices, outpatient management of care, care for the donor and aspects of quality of life. Results have implications on practice and start to show their impact on quality of care. Many questions remain unanswered. Results from basic science (e.g. the discussion around fetal liver and embryonic derived stemcells and their use in treatment other than hematologic malignancies) and developments in medical treatments (e.g. introduction of tyrosin-kinase inhibitor, biotherapy and genetherapy) have an impact on nursing and should therefore be investigated closely to develop clinical pathways. It is obvious that much more time, finances, collaboration and support is needed to conduct powerful studies that can influence care for the BMT patient. This presentation will focus on developments through nursing research within the field of BMT and discuss gaps that will need to be filled in the near future.
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PMID:Research within the field of blood and marrow transplantation nursing: how can it contribute to higher quality of care? 1243 Sep 39

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