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Query: UMLS:C0026764 (multiple myeloma)
36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The current use of allogeneic bone marrow transplantation in various hematologic diseases is reviewed. Bone marrow transplantation (BMT) involves infusion of bone marrow from a suitable donor into a properly conditioned recipient. Most BMT is allogeneic, in which the donor is genetically dissimilar but shares some common tissue antigens with the recipient. Almost all patients undergoing allogeneic BMT must be "prepared" with high-dose cyclophosphamide to prevent graft rejection. Most patients with hematologic malignancy also receive total body irradiation to eradicate malignant cells located in areas inaccessible to the systemic circulation. Bone marrow transplantation is the treatment of choice for severe aplastic anemia. In acute myelogenous leukemia, the best results are observed in young patients undergoing BMT in first remission. In acute lymphoblastic leukemia, BMT is usually reserved for patients in second or subsequent remission. Early results are promising in patients with chronic myelogenous leukemia who receive BMT before the accelerated phase or blast crisis of this disease. Allogeneic BMT offers an opportunity for cure in some patients with relapses of Hodgkin's disease or those with certain subtypes of non-Hodgkin's lymphoma. Other diseases for which BMT has been used include severe combined immune deficiency disease, Fanconi's anemia, and multiple myeloma. Complications of BMT include graft failure or rejection, acute and chronic graft-versus-host disease, and infectious complications; late complications, such as restrictive and obstructive pulmonary disease, cataracts, sterility, and secondary malignancies, may also occur. Bone marrow transplantation has become an important treatment for many hematologic diseases, but it will probably remain a treatment reserved for only a few highly specialized centers. If morbidity and mortality caused by transplant-related complications can be reduced, BMT may be offered to older patients and those without HLA-identical sibling donors.
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PMID:Allogeneic bone marrow transplantation in the treatment of hematologic diseases. 388 73

Marrow transplantation is effective treatment for a number of haematological diseases in patients under the age of 50 who have an HLA-identical sibling donor. It is generally successful when used early in the treatment of aplastic anaemia. It is the only treatment that offers long-term disease-free survival for patients with acute leukaemia who have relapsed at least once, with 10-30 per cent apparent cures. Although still somewhat controversial, it appears also to be the treatment of choice for patients with acute non-lymphoblastic leukaemia in first chemotherapy induced remission and for those with chronic myelogenous leukaemia in the chronic phase since approximately 50-60 per cent of these patients are surviving after marrow transplantation in complete remission, apparently cured. Marrow grafting is the only effective treatment for many patients with inherited immunological-deficiency diseases and certain genetic storage diseases. It is being explored for the therapy of patients with lymphoma, Hodgkin's disease, multiple myeloma, small-cell lung cancer, testicular cancer, ovarian cancer and genetic disorders of haematopoiesis. Cures of congenital Fanconi anaemia, Blackfan-Diamond anaemia, osteopetrosis, and paroxysmal nocturnal haemoglobinuria have been achieved by marrow grafting. Genetic disorders associated with haemolytic anaemia and cyclic neutropenia have been cured by marrow grafting in animals. Target disorders for marrow transplantation in humans are thalassaemia major and sickle cell disease, and, indeed, a first successful transplant for treatment of thalassaemia major has recently been described (Thomas et al, 1982). Marrow transplantation has been limited by the fact that many patients do not have HLA-identical siblings and very few have monozygotic twins. The Seattle team has now explored the use of less well-matched family member donors in more than 80 patients with leukaemia. These donors share one HLA haplotype genetically with the patient and are phenotypically identical at two of the three major HLA loci on the other HLA haplotype (Clift et al, 1979). Overall, the post-transplant survival appears more a reflection of the type and stage of the leukaemia than of the marrow donor. Patients with leukaemia grafted in relapse have a projected survival of 20-30 per cent and those transplanted in remission of 50 per cent. The incidence and severity of GVHD may not be significantly different from that of patients given HLA-identical sibling marrow grafts.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Application of bone marrow transplantation in leukaemia and aplastic anaemia. 635 79

Over a 5-year period we evaluated 65 myeloma patients aged < or = 55 years as potential candidates for intensive therapy and allogeneic BMT. Twenty six (40%) patients were transplanted; the median duration of disease was 4 months (range 2-58 months) and median number of prior regimens was 1 (range 1-5); all but five patients had chemosensitive disease. Conditioning regimens included combinations of BU+CY+MEL in 14 patients, BUCY2 in eight and CY+TBI in four. Donors were HLA-matched siblings in 19 cases, one antigen mismatched siblings in three and unrelated donors in four. All patients received CsA, plus either methylprednisolone (n = 5) or MTX with or without other agents (n = 19). Grade III or IV regimen-related toxicity (RRT) was relatively infrequent (3 patients) and was not seen in nine patients conditioned with BU (total dose 12 mg/kg) + MEL (100 mg/m2) + CY (90 mg/m2). Grade II-IV acute GVHD occurred in 20 patients, and was the cause of death in three. Chronic GVHD also caused three deaths. Thirteen of 21 evaluable patients (62%) achieved a CR and six achieved a PR. Actuarial progression-free survival (PFS) was 40% (95% confidence interval (CI) 19-61%) at a median follow-up of 14 months (range 3-56 months); the PFS was 52% (95% CI 24-74%) in chemoresponsive patients, compared with 0% in chemoresistant patients (P = 0.0066).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Treatment of myeloma using intensive therapy and allogeneic bone marrow transplantation. 774 43

The crucial first step in management of multiple myeloma is to be certain regarding the diagnosis. Multiple myeloma must be distinguished from monoclonal gammopathy of undetermined significance (MGUS) and smoldering multiple myeloma. Therapy should be administered to patients with advanced and active myeloma involving anemia, osteolysis or renal failure. Chemotherapy with a single agent (melphalan) is the preferred initial treatment for overt, symptomatic multiple myeloma. Cytostatic drug combinations produce a higher response rate, but survival and remission during are the same compared with melphalan/prednisone therapy. However, in patients with renal failure and/or poor prognostic factors (advanced stage, elevated beta 2-microglobulin, high bone marrow plasma cell labeling index, high levels of C-reactive protein and lactate dehydrogenase and/or nodular pattern of bone marrow infiltration), combined treatment with adriamycin, vincristine and prednisone should be administered to prevent nephrotoxicity and attain a rapid paraprotein decrease. Alpha interferon treatment as maintenance seems to prolong the duration of the plateau state after response to chemotherapy, but apparently does not prolong survival. Allogeneic bone marrow transplantation involves significant early mortality (50%); the risk of graft versus host disease, infections and renal failure is a problem, and relapse is common. High dose chemotherapy followed by autologous bone marrow transplantation or peripheral blood stem cell reinfusion may prolong survival and free time to progression, but, to date, there are no indications of cure. This therapeutic procedure, therefore, should be considered for randomized trials for young patients with poor prognostic factors.
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PMID:[Diagnosis and therapy of multiple myeloma: current aspects]. 789 48

Seventy-three BMT procedures (42 allogeneic-BMT, 30 autologous-BMT, 1 syngeneic transplant) were undertaken at the Shariati Hospital in Tehran between March 1991 and November 1993. Allogeneic-BMT was performed for thalassaemia major (n = 23), AML in complete remission (n = 3), severe aplastic anaemia (n = 7), CML (n = 7), dyskeratosis congenita (n = 2) and Fanconi anaemia (n = 1). Conditioning regimens comprised busulphan (BU) plus cyclophosphamide (CY) or CY only. Thirty-two (78%) of the 43 patients remain alive 1-34 months after BMT. Twelve patients died: the causes of death were haemorrhagic cystitis (n = 1), CMV pneumonitis (n = 1), GVHD (n = 3), infection (n = 3), rejection (n = 1), VOD (n = 2) and hepatitis (n = 1). Autologous-BMT was performed for patients with AML in CR (n = 16), ALL in CR (n = 9), lymphoma in relapse (n = 3), Ewing sarcoma (n = 1) and multiple myeloma (n = 1). The median age was 18 years. Conditioning regimens were Ara C plus CY, etoposide plus CY and high-dose melphalan. Sixteen (54%) of the 30 patients survive, 14 in continuous complete remission. The causes of death were relapse (AML (n = 7), ALL (n = 4), lymphoma (n = 1)), VOD (n = 1) and infection (n = 1).
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PMID:Bone marrow transplantation in Iran. 792 Mar 8

Campath-1G is an immunosuppressive monoclonal antibody directed against human lymphocytes. Its effectiveness in preventing graft-versus-host disease (GVHD) by simple opsonisation of bone marrow T-cells has been studied in 36 consecutive allografts: in 17 for leukaemia, one for essential thrombocytosis and four for myeloma this was the sole means of GVHD prophylaxis. A further eight patients with aplastic anaemia received 3 months post-transplantation cyclosporin A (CsA) for this purpose whereas in the ninth and tenth the preparative regimen has been modified with this immunosuppressive agent now discontinued. Nucleated cells were harvested and after quantitative recovery of the mononuclear population on the Cobe 2997 separator they were exposed to 20 mg Campath-1G for 30 min at room temperature and then infused. Following standard conditioning, which included total lymphoid irradiation, the median days to reach 0.5 and 1.0 x 10(9)/l neutrophils were respectively 18 (range 9-34) and 28 (range 10-59); to 25 and 100 x 10(9)/l platelets the corresponding times were 17 days (range 5-32 days) and 27 days (range 13-127 days). In all, the day 14 trephine biopsy showed engraftment. At median follow-up of 20 months (range 5-44 months) only one patient has developed possible grade I cutaneous GVHD that responded promptly to corticosteroids: no chronic GVHD or CMV pneumonitis has been encountered. Of those with haematological malignancy transplanted in remission only two with acute leukaemia have relapsed. In aplastic anaemia graft loss initially occurred but this has been overcome by adding Campath-1G in vivo and omitting CsA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:T cell depletion by exposure to Campath-1G in vitro prevents graft-versus-host disease. 1045 57

To explore the augmentation of cyclosporin-induced graft-versus-host disease (GVHD) in autologous bone marrow transplantation (BMT), we conducted a phase I dose escalation trial of interferon (IFN)-alpha 2a. A dose of either 1 or 3 x 10(6) units of IFN-alpha 2a was given by daily sc injection starting on day 0 of BMT and continuing for 28 days. Cyclosporine (CYA) was also started on day 0 of BMT at a dose of 1 mg/kg/day for 28 days. We enrolled 22 patients (median age 43 years, range 19-55 years, male/female ratio = 9/13) which included 11 patients with lymphoma, 5 patients with Hodgkin's disease, 4 patients with AML and 1 patient each with acute lymphoblastic leukemia (ALL) and myeloma. Patients were divided into four groups: two control groups received either CYA or IFN-alpha 2a alone and the other two groups received IFN-alpha 2a at a dose of either 1 x 10(6) or 3 x 10(6) units/day sc concomitantly with CYA for 28 days. IFN-alpha 2a treatment was terminated early in 5 patients: 2 patients receiving IFN-alpha 2a at a dose of 3 x 10(6) units/day developed intractable fatigue, nausea and vomiting and 3 other patients had life-threatening transplant-related complications not related to IFN-alpha 2a (1 patient receiving 3 x 10(6) units/day, and 2 receiving 1 x 10(6) units/day). These patients were considered not evaluable. Of the 17 evaluable patients, all 13 who received IFN-alpha 2a developed GVHD regardless of whether they received CYA whereas only 2 of the 4 patients who received CYA alone developed detectable GVHD.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phase I study of alpha-interferon augmentation of cyclosporine-induced graft versus host disease in recipients of autologous bone marrow transplantation. 805 15

Since the first successful attempt in 1985, peripheral blood stem cell transplants are increasingly performed worldwide and should now be considered as an essential therapeutic weapon against onco-hematological diseases. Their development has benefited greatly from a rapid concomitant advance of experimental knowledge regarding the nature of hematopoietic progenitor cells. For this reason and also for technical ones, until now these transplants generally have been autotransplants. Although one of the main reasons to use blood rather than bone marrow-derived stem cells was that they might carry less risk of relapse than autologous bone marrow cells, the lack of clinical randomized trials and/or the short follow-up make conclusions difficult so far in terms of disease-free and overall survival. Probably the risk of relapse also depends on the type of disease, on prior chemotherapies, on the type of peripheral stem cell mobilization regimen and on the number of blood-derived cells transplanted. Nevertheless, there are several major clinical indications for autologous blood stem cell transplant: acute nonlymphoblastic leukemias (ANLL), low-grade non-Hodgkin's lymphomas, multiple myeloma, some solid tumors, and even chronic myeloid leukemia. Now well-demonstrated advantages add a socioeconomic interest to this technique. The speed of post-transplant hematopoietic recovery induces a briefer hospitalization and a lower cost of the procedure, which represents "per se" important progress. Furthermore, the increasing use of hematopoietic growth factor(s) at time of blood-derived cell mobilization should increase the safety of the procedure. Also new trends are currently being developed: autotransplants with purified peripheral CD34+ cells; addition of adjuvant immunotherapy to induce graft-versus-tumor effect, which is lacking in autotransplant; and transplants using allogenic umbilical cord blood progenitors. Allogenic blood cell transplants might also be developed, provided that blood cells would be less likely to cause graft-versus-host disease (GVHD) than bone marrow, which is still not verified. Finally, the use of blood-derived cells as a vehicle for gene therapy should develop greatly in the near future.
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PMID:Peripheral blood stem cell transplantations: past, present and future. 810 Apr 62

Allogeneic bone marrow transplantation remains the only therapeutic approach with documented curative potential for patients with multiple myeloma. A survey of recently published trials reveals a 40% long-term survival rate with no evidence of residual disease in a majority of patients. While morbidity and mortality from myelosuppression and graft-versus-host disease are relatively high, allogeneic bone marrow transplantation should be considered early in the course of treatment for patients with high-risk myeloma.
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PMID:Allogeneic bone marrow transplantation for multiple myeloma. 821 Dec 18

Patients with multiple myeloma must be distinguished from those with monoclonal gammopathy of undetermined significance and smoldering multiple myeloma. Therapy should be reserved for patients with active or symptomatic multiple myeloma. The pertinent literature on the diagnosis of multiple myeloma, prognostic factors, chemotherapy, and allogeneic bone marrow transplantation, as well as autologous peripheral blood or bone marrow stem cells for rescue, was reviewed. The two most powerful prognostic factors for multiple myeloma are the bone marrow plasma cell labeling index and the beta 2-microglobulin level. Chemotherapy is the preferred initial treatment for overt, symptomatic multiple myeloma. Combinations of alkylating agents produce a higher response rate, but the survival is the same as treatment with melphalan and prednisone. The combination of alpha 2-interferon with multiple alkylating agents produces a good response. alpha 2-Interferon prolongs the duration of the plateau state after a response to chemotherapy, but it apparently does not prolong survival. Allogeneic bone marrow transplantation is possible for only 5-10% of patients with multiple myeloma. Its advantage is that the graft contains no tumor cells that can subsequently produce a relapse. However, there is a significant early mortality, the risk of graft versus host disease is troublesome, and relapse of multiple myeloma is common. Autologous bone marrow transplantation is applicable for more patients because the age limit is higher and a matched donor is unnecessary. However, two major problems exist: (1) eradication of multiple myeloma from the patient may not occur even with large doses of chemotherapy and irradiation, and (2) infused autologous bone marrow or peripheral blood stem cells contaminated by myeloma cells or their precursors may be responsible for relapse.
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PMID:Newer approaches to the management of multiple myeloma. 824 81


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