Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

One hundred consecutive autologous stem cell transplants are reported: Non-Hodgkin's lymphoma 51 cases, Hodgkin's disease 27 cases, acute leukaemia 14 cases, multiple myeloma seven cases and chronic myeloid leukaemia one case. Most patients were in their second or later remission. The overall three-year survival for all patients was 60% and the three-year disease-free survival was 50% for lymphoma patients and 30% for acute leukaemia patients. The dominant source of stem cells was bone marrow during 1993, but from 1994 it has been peripheral blood, now totalling 33 cases. There were 12 toxic deaths, all among patients who were heavily treated before bone marrow harvest and transplantation. The patients transplanted with blood stem cells had significantly shorter duration of pancytopenia, and hospital stay, but their disease-free survival was not longer than that of a comparable group of bone marrow transplanted patients. Six patients were transplanted with purified CD34+ cells (selected by avidity column (Ceprate (R)), and had duration of thrombocytopenia and hospital stay similar to the patients transplanted with unmanipulated blood stem cells, but slightly longer duration of neutropenia. We conclude that high-dose therapy with autologous stem cell transplantation in not too heavily pretreated patients is a safe procedure irrespective of the source of stem cells.
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PMID:[Autologous stem cell transplantation. From bone marrow to selected blood stem cells: 100 consecutive procedures at a single center]. 868 9

The effect of granulocyte colony-stimulating factor (G-CSF) on neutropenia and infection was studied in a randomized trial in patients receiving intensive chemotherapy for acute leukemia. Fifty seven patients with acute leukemia (35 cases of refractory acute myeloid leukemia, 19 cases of acute lymphoblastic leukemia and 3 cases of blast crisis of chronic myeloid leukemia) were given G-CSF under either of the following two conditions; 1) Group A: starting G-CSF (200 micrograms/m2iv) administration 24 hrs after chemotherapy. 2) Group B: the same dose of G-CSF administration after a febrile episode of 38 degrees C with neutropenia (less than 1,000/microliters). Five patients were excluded from the study. Group A (27 patients) showed a shorter febrile period (2.15 +/- 2.98 days) than the 25 patients of Group B (3.40 +/- 4.78 days), but the difference was not statistically significant. Compared to Group B, Group A showed significantly early recovery of neutrophil counts as well as early recovery from documented infections. There was no evidence that early administration of G-CSF accelerates the growth of leukemic cells nor causes early relapse of acute leukemia.
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PMID:[Efficacy of early administration of G-CSF after intensive chemotherapy in acute leukemia: a randomized controlled trial. Tokai Infection Study Group on Hematological Disorders]. 869 65

Recently various cytokines have been introduced into the clinic and have played important therapeutic roles in the treatment of hematological malignancies. Among these cytokines, I have focused on interferon (IFN) and granulocyte (G) or granulocyte-macrophage (GM) colony stimulating factor (CSF), which are currently the most useful cytokines, in this review. IFN-alpha has been approved for chronic myelogenous leukemia (CML), multiple myeloma and hairy cell leukemia. In addition, IFN-alpha has therapeutic potentials for low grade non-Hodgkin's lymphoma, cutaneous T cell lymphoma and adult T cell leukemia/lymphoma. Thus, IFN-alpha is one of the most useful and wide-ranging antitumor agents in hematological malignancies. Most striking effects have been studied in chronic phase CML. Cytogenetic responses are seen in 30-40% of the treated patients and a complete cytogenetic response can be seen in about 10%. Long-term survival can be expected in these patients. Considering the risk of graft-versus-host disease-associated mortality in allogeneic bone marrow transplantation, the category of treatment is difficult to choose in IFN-responsive patients. Elucidation of the antitumor mechanism of IFN, as a prototype for other biological response modifiers, may revolutionize cancer treatment. G- and GM-CSF (CSFs) have reduced the duration of neutropenia, incidence of infectious episodes and days of hospitalization following cancer chemotherapy or stem cell transplantation. CSFs have also been used to mobilize peripheral blood stem cells and to increase dose intensity of chemotherapeutic agents. Leukemic cells from many patients with acute myelogenous leukemia (AML) have surface receptors for CSFs and may proliferate in response to CSFs. However, several randomized studies showed that CSFs can be used safely and effectively in augmenting neutrophil recovery in patients with AML when given after induction chemotherapy. Various trials have been made to prime leukemic cells by CSFs to make them more susceptible to chemotherapy, but no convincing evidence has been obtained.
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PMID:Cytokine therapy for hematological malignancies. 899 Jun 22

Bone marrow transplantation (BMT) is a potentially curative therapy in selected patients with hematologic disorders (acute leukemia, chronic myelogenous leukemia, lymphoma) or solid tumors (testicular or breast cancer). Pulmonary complications occur in 40 to 60% of patients receiving BMT, and are related to various mechanisms: chemotherapy-induced neutropenia, pulmonary toxicity of radiotherapy or chemotherapy, graft-versus-host disease. Bacterial or fungal pneumonia occurring during the initial period of neutropenia, and interstitial pneumonia (related to cytomegalovirus or of unknown origin) are the major respiratory complications of the first 100 days. Bacterial sinusitis and pulmonary infections, and obstructive airways disease related to bronchiolitis are the main late-onset respiratory disorders. No single risk factor can predict the development of these complications, which result from a sequence of events including infections, pulmonary injuries related to chemotherapy or radiotherapy, and inappropriate immunological reaction after transplantation. Antimicrobial prevention has been shown to reduce the mortality of these complications, but they still result in both important morbidity and mortality. They are the most frequent non relapse cause of death among long term surviving patients. Better understanding of their pathogenesis, and early recognition and treatment of respiratory complications of BMT should improve the efficacy of this therapy.
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PMID:[Lung complications of hematopoietic stem cell transplantation]. 901 14

Conventional antileukemic chemotherapy in relapsed or refractory acute leukemia or myeloid blast crisis of chronic granulocytic leukemia (CGL) is not curative and remissions, if attained, are usually of short duration. The primary goal of antileukemic therapy in these patients should be the identification of agents that are more selective and better targeted in their action. Tiazofurin is known to inhibit inosine 5'-phosphate dehydrogenase (IMPDH), the rate limiting enzyme of de novo guanine ribonucleotide synthesis. The activity of this enzyme is markedly increased in leukemic cells. To prevent de novo GTP synthesis, it is also necessary to block the guanine-salvaging activity of hypoxanthine-guanine phosphoribosyltransferase (HGPRT). This was achieved by increasing the plasma levels of hypoxanthine through the administration of allopurinol. Twenty-seven patients with end stage leukemia or myeloid blast crisis of CGL were treated with tiazofurin. Assays of IMPDH activity and GTP concentrations in leukemic cells, as well as hypoxanthine levels in the serum, provided a method to monitor the impact of tiazofurin/allopurinol therapy and to adjust drug doses. In these poor prognosis patients seven attained a complete response (CR), 3 had a hematologic improvement and an antileukemic effect was seen in 4. An excellent correlation was observed between biochemical and clinical activity of tiazofurin/allopurinol, with biochemical responses preceding clinical results. However, clinical responses were usually short-lived with IMPDH activity starting to increase soon after discontinuation of therapy, but patients responding again after reinstitution. Tiazofurin therapy was generally well tolerated in patients with less than 15 days of treatment and no other major medical complications. Although an antiproliferative effect was observed in some patients, bone marrows remained cellular in most cases with a marked shift from blasts to granulocytes. Severe neutropenia was absent in the majority of cases and patients could be discharged in good clinical condition immediately after completion of therapy. Tiazofurin/allopurinol therapy provided a rational, biochemically targeted and biochemically monitored approach to the treatment of poor prognosis leukemia and should serve as a paradigm in enzyme pattern-targeted chemotherapy.
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PMID:Biochemically targeted therapy of refractory leukemia and myeloid blast crisis of chronic granulocytic leukemia with Tiazofurin, a selective blocker of inosine 5'-phosphate dehydrogenase activity. 904 9

In the present single institution study of 66 leukaemia patients (28 AML, 23 ALL, 15 CML), the factors influencing haematological recovery after allogeneic bone marrow transplantation (alloBMT) were analysed retrospectively in order to identify the optimal conditions required for a rapid haematological recovery after alloBMT. All patients received GVHD prophylaxis with cyclosporine A plus methotrexate. The mean number of days required to achieve > or = 0.5 x 109/l neutrophil count after alloBMT was 17 (median 17, range 9 to 27 days) and 19 patients (28.8%) had rapid neutrophil recovery within 15 days after alloBMT. The haematological recovery was more rapid in the 38 patients without GVHD or with only grade I GVHD. Furthermore, 50% and 40% of patients receiving 10 (n = 18) or 5 (n = 20) micrograms/kg/day G-CSF had rapid neutrophil recovery within 15 days after alloBMT, versus only 7.1% of patients not receiving G-CSF post-transplant (n = 28), p < 0.001. The neutrophil recovery was similar in patients receiving either fresh or cryopreserved allografts and either TBI-containing or busulfan-containing conditioning regimen. A significant correlation was found between neutrophil recovery and either the MNC or CFU-GM content of the allografts, r = 0.33, p < 0.01. The mean number of days required for neutrophil recovery was only 16 days (median 16, range 9 to 24 days) in patients receiving allografts containing > 1 x 10(5) CFU-GM/kg (n = 28) versus 19 days (median 19, range 13 to 27 days) in patients receiving allografts containing < 1 x 10(5) CFU-GM/kg (n = 35). Three patients receiving allografts containing less than 0.5 x 10(5) CFU-GM/kg had primary neutrophil engraftment failure. The mean number of days required to achieve 20 x 109/l platelet count was 21 (median 20, range 11 to 50 days) and 30 patients (46.9%) had platelet recovery within 20 days after alloBMT. The platelet recovery after alloBMT was not significantly affected by the type of leukaemia, conditioning regimen, or G-CSF administration. The mean number of days required for platelet recovery after alloBMT was only 20 days (median 18 days) in patients receiving allografts containing > 1.0 x 10(5) BFU-E/kg (n = 35) versus 23 days (median 20 days) in patients receiving allografts containing < 1.0 x 10(5) BFU-E/kg (n = 24). Seven patients receiving allografts containing less than 0.5 x 10(5) BFU-E/kg had primary platelet engraftment failure. The present study has identified the high number of progenitor cells in the allografts infused and the daily administration of G-CSF post-transplant as the optimal combination for a rapid neutrophil recovery after alloBMT. More significantly, the number of BFU-E in allografts was the most significant factor to determine platelet recovery after alloBMT. The development of GVHD of grade II or more during the first weeks after alloBMT was associated with slower haematological recovery and longer period of fever during neutropenia and hospitalisation.
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PMID:Factors influencing the haematological recovery after allogeneic bone marrow transplantation in leukaemia patients treated with methotrexate-containing GVHD prophylaxis: a single-centre experience. 906 85

Granulocyte colony-stimulating factor (G-CSF) is considered to play a pivotal role in hemopoietic regulation. Its pharmacological application is reported to shorten chemotherapy-induced neutropenia as well as time to engraftment in patients after bone marrow transplantation (BMT). In order possibly to establish further rationale for G-CSF treatment strategies in patients undergoing BMT, we evaluated G-CSF plasma levels of 89 patients after allogeneic BMT for chronic myeloid leukemia (CML). EDTA anti-coagulated plasma samples were collected starting on day -1 (before grafting) and thereafter twice weekly for four consecutive weeks. G-CSF levels were estimated by enzyme immunoassay. Patients with late (> 30 days) bone marrow engraftment had consistently higher G-CSF levels at day +1 (after grafting) compared to patients with early (< or = 30 days) engraftment, while all patients had low plasma levels on day -1/0. Mean G-CSF plasma levels and time to engraftment were correlated (r = 0.79). In univariate analyses, high G-CSF levels at days +1, +4, +7, +10 and several clinical variables (such as TBI, unrelated donor transplant, state of disease) were predictive of late engraftment. Further analysis by multivariate Cox regression resulted in the following predictive model: high G-CSF plasma levels at day +7 and +10 (after grafting), in combination with a blastic phase of the disease were highly predictive of late engraftment. The significantly higher G-CSF levels in patients with impaired engraftment may reflect early compensating mechanisms of the hemopoietic system, which should be investigated further.
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PMID:Plasma levels of granulocyte colony-stimulating factor in patients after allogeneic bone marrow transplantation for chronic myeloid leukemia correlate with engraftment of transplanted marrow. 953 50

An increasing number of volunteer unrelated donor bone marrow transplantations (VUD-BMT) are performed every year for hematological malignancies due to the availability of a large donor pool. Here we show the results of 36 VUD transplants from our institution using a chemotherapy-only conditioning regimen comprising busulfan 4 x 4 mg/kg and cyclophosphamide 2 x 60 mg/kg. All patients received heparin 200 IU/kg bw continuous i.v. infusion starting the day before conditioning until day +30. Thirty-four of 36 patients (94%) engrafted and no secondary graft failure was observed. The two non-engraftments occurred in patients with CML in blast crisis with extensive myelofibrosis. All 34 engrafted patients (100%) were in complete remission on day +30 as shown by bone marrow biopsy and cytogenetic examinations. No life-threatening treatment-related morbidity or mortality (TRM) were observed, in particular, no severe veno-occlusive disease (VOD) of the liver and no fatal pulmonary complication. Use of G-CSF significantly shortened the time of neutropenia by 5 days. GVHD prophylaxis consisted of CsA/methylprednisolone with or without MTX. Acute GVHD grade II-IV was observed in 18/34 patients (53%) and cGVHD in 12/27 patients (45%), who survived to day +100. In seven patients (four with HLA class I or II mismatch) anti-T-lymphocyte globulin (ATG) was added for acute GVHD prophylaxis. One of seven had aGVHD grade II and none developed grade III to IV GVHD or graft failure. We conclude that Bu/CY is a feasible, save and sufficiently immunosuppressive regimen for VUD transplantation. Severe acute GVHD might be avoided by additional use of ATG in GVHD prophylaxis.
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PMID:Busulfan/cyclophosphamide in volunteer unrelated donor (VUD) BMT: excellent feasibility and low incidence of treatment-related toxicity. 920 9

Humoral regulation of granulocytopoiesis was proven 30 years ago by discovery of factors which stimulate production of granulocyte colonies (CSF-colony stimulating factors), while clinical utilization of recombinant human colony stimulating factors (rhGM-CSF and rh-CSF) is present for the last 10 years. On the basis of this, today we have a lot of experience in regard to indications, modes and results of their clinical utilization. Clinical utilization of CSF is divided into three fields: treatment of the neutropenic syndrome, utilization in oncologic patients and in bone marrow transplantation. The best results have been achieved in neutropenic syndrome therapy, both chronic (congenital, cyclic and idiopathic neutropenia, aplastic anemia and myelodysplastic syndrome) and acute (granulocytopenia drug induced, postirradiation neutropenia). In oncologic patients it is used to eliminate neutropenia which occurs after cytostatic therapy with standard doses or high dose cytostatic therapy with better effects on the tumor, but with myeloablation. Granulocyte colony-stimulating factor is also used for stimulating fast granulocytopoiesis in autologous or allogeneic bone marrow transplantation, in unsatisfactory transplants especially. In recent years it has been used for mobilization of progenitor CD34+ cells in the donor in order to perform their transplantation, especially in treatment of chronic myeloid leukemia. At our institution G-CSF has been successfully used in 17 patients.
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PMID:[Clinical use of granulocyte colony stimulating-factors (GM-CSF and G-CSF]. 922 90

In the present single institution study of 66 leukaemia patients (28 AML, 23 ALL, 15 CML), the factors influencing haematological recovery after allogeneic bone marrow transplantation (alloBMT) were analysed retrospectively to identify the optimal conditions required for rapid haematological recovery after alloBMT. All patients received GVHD prophylaxis with cyclosporine A plus methotrexate. The mean number of days required to achieve a neutrophil count > or = 0.5 x 10(9)/l after alloBMT was 17 (range 9-27), 19 patients (28.8%) had rapid neutrophil recovery within 15 days after alloBMT. Haematological recovery was more rapid in the 38 patients without GVHD or with only grade I GVHD. Also, 50% and 40% of patients receiving 10 (n = 18) or 5 (n = 20) micrograms/kg G-CSF per day, respectively, had rapid neutrophil recovery within 15 days after alloBMT, as against only 7.1% of patients not receiving G-CSF after the transplant (n = 28); P < 0.001. The neutrophil recovery was similar in patients receiving either fresh or cryopreserved allografts and either a TBI-containing or a busulfan-containing conditioning regimen. A significant correlation was found between the neutrophil recovery and either the MNCs or CFU-GM contents of the allografts. The mean number of days required for neutrophil recovery was only 16 (range 9-24) in patients receiving allografts containing > 1 x 10(5) CFU-GM/kg (n = 28), as against 19 (range 13-27) in patients receiving allografts containing < or = 1 x 10(5) CFU-GM/kg (n = 35). Three patients receiving allografts containing < 0.5 x 10(5) CFU-GM/kg had primary neutrophil engraftment failure. The mean number of days required to achieve a platelet count > or = 20 x 10(9)/l was 21 (range 11-50), and 30 patients (46.9%) had platelet recovery within 20 days after alloBMT. The platelet recovery after alloBMT was not affected by the type of leukaemia, conditioning regimen, or G-CSF administration. The mean number of days required for platelet recovery after alloBMT was 20 in patients receiving allografts containing > 1.0 x 10(5) BFU-E/kg (n = 35), as against 23 days in patients receiving allografts containing < or = 1.0 x 10(5) BFU-E/kg (n = 24). Seven patients receiving allografts containing < 0.5 x 10(5) BFU-E/kg had primary platelet engraftment failure. The present study has identified the high number of progenitor cells in the allografts infused and the daily administration of G-CSF posttransplant as the optimal combination for rapid neutrophil recovery after alloBMT. More significantly, the number of BFU-E in allografts was the most significant determining factor in platelet recovery after alloBMT. The development of GVHD of grade II or more during the first weeks after alloBMT was associated with slower haematological recovery, a longer period of fever during neutropenia and longer hospitalization.
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PMID:Factors influencing haematological recovery after allogeneic bone marrow transplantation in leukaemia patients treated with methotrexate-containing GVHD prophylaxis. A single-centre experience. 925 26


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