UMLS:C0019829 - FACTA Search

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Query: UMLS:C0019829 (Hodgkin's disease)
30,247 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mini-BEAM regimen (BCNU, etoposide, cytarabine, melphalan) and its modification 'Dexa-BEAM' are effective salvage protocols for relapsed Hodgkin's disease and non-Hodgkin's lymphoma. Since many patients with relapsed lymphoma are eligible for high-dose chemotherapy with autologous stem cell rescue, we were interested in the suitability of these second line regimens for mobilising peripheral blood progenitor cells (PBPC). The kinetics of PBPC were studied in 15 patients treated with Dexa-BEAM and granulocyte colony-stimulating factor (G-CSF). Leukocytes started to rise from < 0.5 nL-1 on day 18 (16-22) after Dexa-BEAM, and exceeded 10 nL-1 on day 20 (18-28). Peripheral blood CFU-GM peaked on day 21 (19-28) and declined slowly thereafter; the median leukocyte count was 18.7 nL-1 (12.2-60) on the day of CFU-GM-peak. The maximum number of CFU-GM circulating in peripheral blood was inversely correlated to the duration of leukopenia after Dexa-BEAM. Measurement of CD34+ cells with the monoclonal antibody 8G12-PE (HPCA-2) predicted the number of CFU-GM precisely in both peripheral blood and leukapheresis products (r = 0.90-0.95). Two to six leukapheresis procedures yielded 6.39 x 10(8) mononuclear cells kg-1 (1.82-13.49) containing 44.4 x 10(4) CFU-GM kg-1 (2.2-213.8). Immunophenotypical analysis revealed that the percentage of CD19+ B cells was very low in all collection products (less than 1%). Nine patients were autografted with PBPC (15.4-213.8 x 10(4) CFU-GM kg-1) after myeloablative chemotherapy and experienced rapid and sustained engraftment (Platelets > 50 nL-1 on day +13 [9-22]). We conclude that PBPC can be mobilised effectively by Dexa-BEAM plus G-CSF. An adequate timing of PBPC collection (when the leukocyte count has exceeded 10 nL-1) and evaluation of the progenitor content of the leukapheresis products with 8G12-PE will allow to minimise the number of leukaphereses.
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PMID:Effective mobilisation of peripheral blood progenitor cells with 'Dexa-BEAM' and G-CSF: timing of harvesting and composition of the leukapheresis product. 769 21

Forty six patients with lymphoid malignancies receiving autologous transplants using three different sources of hematopoietic stem cells were compared for engraftment parameters. Thirteen patients (five with multiple myeloma, seven with non-Hodgkin's lymphoma and one with Hodgkin's lymphoma) received autologous marrow with post-transplant growth factors (group 1). During the same time interval, 14 patients (five with multiple myeloma, six with non-Hodgkin's lymphoma and three with Hodgkin's lymphoma) were transplanted with autologous marrow plus recombinant granulocyte colony-stimulating factor (rhG-CSF)-mobilized peripheral blood stem cells (PBSC) and post-transplant growth factors (group 2). Nineteen patients (seven with multiple myeloma and 12 with non-Hodgkin's lymphoma) received rhG-CSF mobilized PBSC and post-transplant growth factors (group 3). All PBSC were collected after G-CSF mobilization (16 micrograms/kg/day s.c. for 6 days) without prior chemotherapy. After high-dose myeloablative chemotherapy or chemoradiotherapy, the median days to recovery of neutrophils to levels of 0.5 and 1.0 x 10(9)/l were 12 vs. 9 vs. 9 days (P = 0.0003 (group 1 vs. group 2) and P = 0.53 (group 2 vs. group 3)) and 13 vs. 10 vs. 10 days (P = 0.0003 (group 1 vs. group 2) and 0.92 (group 2 vs. group 3)) for groups 1, 2 and 3, respectively. The median day to platelet transfusion independence was 22 vs. 11 vs. 11 days (P = 0.001 (group 1 vs. group 2) and P = 0.50 (group 2 vs. group 3)) for groups 1, 2 and 3, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Engraftment of patients with lymphoid malignancies transplanted with autologous bone marrow, peripheral blood stem cells or both. 777 13

Chemotherapy dose intensity is probably important to the success of treatment for some human malignancies. Recombinant human haemopoietic growth factors have recently become available to clinicians to ameliorate the myelosuppression that follows cytotoxic chemotherapy. Their use to increase the dose intensity of treatment, either by simply allowing the administration of the planned dose on schedule or by increasing the dose or dose rate above the conventional ones, is being actively investigated by several European and American groups. In several reported studies, neutropenia is no longer dose limiting when granulocyte colony-stimulating factor is used to help to intensify cytotoxic chemotherapy, but thrombocytopenia or mucositis are. The use of circulating haemopoietic progenitor cells, released into the blood stream by growth factors and infused with or without autologous bone marrow, has been reported to consistently reduce the overall period and severity of thrombocytopenia following intensive chemotherapy in patients without pre-existing severe bone marrow damage. However, no clear improvements in survival have yet been documented with the use of these techniques. Difficulties in study design include a number of variables potentially involved (tumour model, patient population, adjuvant or advanced disease, dose of cytotoxics, intervals, end-points, etc.), and there is clearly a need for more studies and longer follow-up. Lymphomas, both non-Hodgkin and Hodgkin's disease, are the prototypes of chemosensitive malignancies curable by chemotherapy alone even in disseminated disease. Therefore, they would seem to be adequate models to test the dose intensity hypothesis in the clinic. However, there are important differences between these two types of disorder. The success of conventional therapies in these conditions suggests that further improvements in outcome and long-term survival by further increases in dose intensity with current drugs will require careful study designs, due attention to prognostic factors, and reasonable expectations.
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PMID:The importance of dose: lymphomas as a model of chemosensitive malignancies. 826 Feb 61

Cytokines play important roles in the pathogenesis of lymphomas. Cytokines either can be produced or exert effects on neoplastic or reactive cells. The secretion of cytokines can provide growth advantages for tumor cells in either an autocrine or a paracrine fashion. An elevated serum or tissue level of cytokines can contribute to the clinical and histopathologic alterations associated with malignant lymphomas. The effects of cytokines on the histopathologic changes are most noticeable in Hodgkin's disease (HD). The malignant (Hodgkin's-Reed-Sternberg) cells in HD have been shown to secrete interleukin-1 (IL-1), IL-5, IL-6, IL-9, tumor necrosis factor-alpha, macrophage colony-stimulating factor, transforming growth factor-beta, and, less frequently, IL-4 and granulocyte colony-stimulating factor. These cytokines may be responsible for the increased cellular reaction and fibrosis observed in tissues involved by HD and for the immunosuppression in patients with HD. In contrast to Hodgkin's-Reed-Sternberg cells, most non-HD lymphoma cells do not produce cytokines in excess amounts. Exceptions include T-cell-rich B-cell lymphoma (IL-4), angioimmunoblastic lymphadenopathy-like T-cell lymphoma with plasmacytosis and hypergammaglobulinemia (IL-6), anaplastic large-cell lymphoma (IL-9), polymorphic immunocytoma (IL-6), and immunoblastic lymphoma (IBL) (IL-6). Some cytokines are involved in the unique cellular reactions in each of these types of lymphoma. For example, IL-4 is responsible for the T-cell reaction in T-cell-rich B-cell lymphoma, while IL-6 is accountable for the plasma cell reaction in angioimmunoblastic lymphadenopathy-type T-cell lymphoma. Others may be directly involved in the tumor cell growth or differentiation. For instance, IL-9 may be important for the autocrine proliferation of anaplastic large cell lymphoma, whereas IL-6 is essential for plasmacytoid differentiation in polymorphic immunocytoma. Further studies of the roles of cytokines in lymphomas may lead to major advances in the understanding of the molecular processes involved in the histopathogenesis of malignant lymphomas. Elucidation of the autocrine or paracrine function of cytokines also may lead to new approaches to a rational intervention in these disease processes.
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PMID:Cytokines in malignant lymphomas: review and prospective evaluation. 840 14

Modern combination chemotherapy cures about one third of patients with non-Hodgkin's lymphomas (NHL) [3]. Attempts to increase this proportion by more intensive chemotherapeutic regimens have failed so far in randomized trials [4, 5]. Dose intensity has been reported to be important for cure [8]--a factor which can be enhanced by hematopoietic growth factors--but addition of recombinant human granulocyte colony-stimulating factor (rhG-CSF) to intensive chemotherapy did not improve response on survival in a controlled study published recently [10]. Therefore, we tried to design a regimen which might be more appropriate for combination with growth factors, using pulse chemotherapy rather than continuous treatment and employing drugs of low stem-cell toxicity. Ifosfamide (Ifo) appeared to be ideal because it is effective even in some resistant cases [1] and might act synergistically with anthracyclines by reducing intracellular glutathione levels [9]. Epirubicin (Epi) was favored because of its low hemato- and cardiotoxicity [2]. These drugs, together with etoposide (VP-16) had been found to be very effective in relapsed cases [7]. Methotrexate (Mtx) was added because it penetrates the spinal fluid. Moreover, we chose granulocyte/macrophage colony-stimulating factor (rhGM-CSF) as an adjunct cytokine because this not only enhances neutrophil regeneration [6] but might also have antitumor effects, as suggested by an uncontrolled study in sarcomas [11]. This report summarizes our experiences regarding feasibility, toxicity, and responses with this new regimen obtained in a pilot study.
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PMID:IEVM chemotherapy with rhGM-CSF support for aggressive non-Hodgkin's lymphomas: a pilot study. 847 59

We have recently reported that the hematologic recovery of patients with non-Hodgkin's lymphoma (NHL) and Hodgkin's disease (HD) undergoing autologous bone marrow transplantation (BMT) is significantly faster when recombinant human interleukin-3 (rhIL-3) is combined with recombinant human granulocyte colony-stimulating factor (rhG-CSF) in comparison with patients receiving G-CSF alone. In this paper, we studied the kinetic response and concentration of BM progenitor cells of 17 patients with lymphoid malignancies submitted to autologous BMT and treated with the G-CSF/IL-3 combination. The results were compared with those of five lymphoma patients receiving the same pretransplant conditioning regimen followed by G-CSF alone. rhG-CSF was administered as a single subcutaneous (sc) injection at the dose of 5 micrograms/kg/d from day 1 after reinfusion of autologous stem cells; rhIL-3 was added from day 6 at the dose of 10 micrograms/kg/d sc (overlapping schedule). In both groups (G-CSF- and G-CSF/IL-3-treated patients), cytokine administration was discontinued when the absolute neutrophil count (ANC) was >0.5 x 10(9)/L of peripheral blood (PB) for 3 consecutive days. After treatment with the CSF combination, the percentage of marrow colony-forming units-granulocyte/macrophage (CFU-GM) and erythroid progenitors (BFU-E) in S phase of the cell cycle increased from 9.3 +/- 2% to 33.3 +/- 12% and from 14.6 +/- 3% to 35 +/- 6%, respectively (p < 0.05). Similarly, we observed an increased number of actively cycling megakaryocyte progenitors (CFU-MK and BFU-MK). Conversely, G-CSF augmented the proliferative rate of CFU-GM (22.6 +/- 0.6% compared to a baseline value of 11.5 +/- 3%; p < 0.05) but not of BFU-E, CFU-MK, or BFU-MK, and the increase of S-phase CFU-GM was significantly lower than that observed in the posttreatment samples of patients receiving IL-3 in addition to G-CSF. The frequency of hematopoietic precursors in the BM, expressed as the number of colonies formed per number of cells plated, was unchanged or slightly decreased in both groups of patients. Because of the increase in marrow cellularity, however, a significant augmentation of the absolute number of both CFU-GM (3605 +/- 712/mL BM vs. 2213 +/- 580/mL; p < 0.05) and BFU-E (4373 +/- 608/mL vs. 3027 +/- 516/mL; p < 0.05) was reported after treatment with G-CSF/IL-3 but not G-CSF alone. Similarly, administration of the cytokine combination resulted in a higher number of CD34+ cells/mL BM, and their concentration was significantly greater than that observed in the posttreatment samples of G-CSF patients. Finally, we investigated the responsiveness to CSFs, in vitro, of highly enriched CD34+ cells, collected after priming with G-CSF in vivo (i.e., after 5 days of G-CSF administration). Our results demonstrated that pretreatment with G-CSF modified the response of BM cells to subsequent stimulation with additional CSFs. The results presented in this paper indicate that in vivo administration of two cytokines increases the proliferative rate and concentration of BM progenitor cells to a greater degree than G-CSF alone. These results support the role of growth factor combinations for accelerating hematopoietic recovery after high-dose chemotherapy.
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PMID:Proliferative response of human marrow myeloid progenitor cells to in vivo treatment with granulocyte colony-stimulating factor alone and in combination with interleukin-3 after autologous bone marrow transplantation. 854 41

The aim of this study was to evaluate the efficacy, safety and toxicity of short-term priming with recombinant human granulocyte colony-stimulating factor (rhG-CSF) immediately after diagnosis but before combination chemotherapy (CHOP) for non-Hodgkin's lymphomas. Of fourteen patients entering the study, seven received five days subcutaneous injection of rhG-CSF (5 micrograms/kg/day) before CHOP (CSF-group), and seven were treated with CHOP alone (control group). Blood samples were studied before and on days 1-5 during rhG-CSF priming as well as twice weekly after treatment. The number of blood and bone marrow progenitors was identified by clonogenic growth day 7, 14 and 21 of GM-CFU in semisolid medium. Blood absolute neutrophil counts increased in all rhG-CSF primed patients. The expansion of marrow myelopoiesis resulted in increased myeloid:erythroid ratios, increased bone marrow cellularity and increased numbers of myeloid progenitors both in the blood as well as the marrow. Chemotherapy induced neutropenia developed on day 9-12 in all patients independent of myeloid growth factor priming. However, neutropenia appeared earlier in the cytokine primed group (P = .0038). Five patients in the CSF-group and three patients in the control group were hospitalized with neutropenic fever, and septicemia was documented in three patients in the CSF-group. RhG-CSF induced expansion of myelopoiesis immediately before combination chemotherapy mobilized sufficient number of blood progenitors for apheresis but did not result in reduction of duration and degree of neutropenia in patients with newly diagnosed non-Hodgkin's lymphoma. Although the small number of patients prevents drawing definite conclusions, this time schedule for priming should be used with caution in the future due to an increased risk of hematologic toxicity.
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PMID:Short-term rhG-CSF priming before chemotherapy does mobilize blood progenitors but does not prevent chemotherapy induced myelotoxicity: a randomized study of patients with non-Hodgkin's lymphomas. 859 Aug 46

Recombinant human interleukin-3 (rhIL-3), granulocyte-macrophage colony-stimulating factor (rhGM-CSF), and granulocyte colony-stimulating factor (rhG-CSF) enhance neutrophil recovery following autologous bone marrow transplantation (ABMT) for malignant lymphoma. Based on findings in preclinical studies, a phase I-II trial was conducted to assess the safety and efficacy of the sequential administration of rhIL-3 and rhGM-CSF after bone marrow ablative cytotoxic therapy and ABMT for patients with malignant lymphoma. Thirty-seven patients (20 with non-Hodgkin's lymphoma and 17 with Hodgkin's disease) were treated with intensive cytotoxic therapy before ABMT. Patients were treated in one of four cohorts to receive rhIL-3 (2.5 or 5.0 microg/kg/d) administered by subcutaneous injection for either 5 or 10 days following ABMT. Twenty-four hours after the last dose of rhIL-3, rhGM-CSF (250 microg/m2/d as a 2-hour intravenous infusion) administration was initiated. Sequential cytokine therapy post-ABMT resulted in fewer days of platelet and red blood cell transfusions than seen in historic controls with rhIL-3, rhGM-CSF, or rhG-CSF monotherapy. These data suggest that the sequential administration of rhIL-3 and rhGM-CSF after ABMT results in rapid recovery of multilineage hematopoiesis.
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PMID:Recombinant human interleukin-3 and granulocyte-macrophage colony-stimulating factor after autologous bone marrow transplantation for malignant lymphoma. 860 May 45

Granulocyte colony-stimulating factor (G-CSF) as a single agent is increasingly used for the mobilization of peripheral blood progenitor cells (PBPCs) for stem cell transplantation. In patients with perturbed hematopoiesis the mobilizing capacity of G-CSF alone may be inadequate. We have shown in rhesus monkeys that interleukin-3 (IL-3) pretreatment markedly potentiated the increase in PBPC numbers by subsequent administration of granulocyte/macrophage-CSF (GM-CSF). Here we studied the effect of IL-3 pretreatment on G-CSF-induced mobilization of PBPCs in 6 patients with Hodgkin's disease (n = 5) or non-Hodgkin's lymphoma (n = 1) who had low progenitor cell numbers because of previous chemotherapy. Patients were treated in cycle 1 with G-CSF at a dose of 5 microgram/kg/d for 5 days and, after a treatment-free interval, received cycle 2 consisting of 5 microgram/kg/d of IL-3 for 7 days followed by G-CSF again at a dose of 5 microgram/kg/d for 5 days. G-CSF alone increased the mean number of circulating colony-forming units-GM (CFU-GM) by 21-fold, the number of burst-forming units-erythroid (BFU-E) by 9-fold, and the number of CFU-mix by 24-fold over pretreatment values. Treatment with 5 microgram/kg/d of IL-3 for 7 days did not mobilize by itself but significantly potentiated G-CSF-induced mobilization of all progenitor cell types leading to a 56-, 15-, and 46-fold increase over baseline of CFU-GM, BFU-E, and CFU-mix numbers, respectively. In 2 patients in whom leukapheresis was performed after G-CSF alone the target number of 2 x 10(6)/kg CD34+ cells was not reached. However, leukapheresis after the IL-3/G-CSF combination obtained > or =2 x 10(6)/kg CD34+ cells in 3 of 6 patients, including both patients who had inadequate collection after G-CSF alone. In one patient adequate function of mobilized progenitors could be shown by the demonstration of rapid trilineage engraftment after infusion of progenitors after myeloablative chemotherapy. Seven-day pretreatment with IL-3 may be a useful mean to augment mobilization of circulating progenitors by G-CSF. The combination of IL-3 and G-CSF seems to allow the procurement of sufficient numbers of PBPCs in some patients who cannot be mobilized adequately by G-CSF alone.
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PMID:Potentiation of granulocyte colony-stimulating factor-induced mobilization of circulating progenitor cells by seven-day pretreatment with interleukin-3. 863 89

G-CSF (filgrastim) can effectively mobilize peripheral blood progenitor cells (PBPC) when administered during steady-state hematopoiesis. In this single center study, we compared the effectiveness of two different doses of G-CSF on the mobilization of peripheral blood stem cells in patients with Hodgkin's disease, non-Hodgkin's lymphoma, and cancer of the testis. A first group including 33 patients received 10 micrograms G-CSF/kg BW per day (group A), whereas a second group comprising 34 patients was treated with 24 (2 x 12) micrograms G-CSF/kg body weight (BW) per day (group B) prior to the leukapheresis. A significant difference (P = 0.015) in the total number of CD34+ cells between group A: 11.32 x 10(7) (range 0.34-110.2) and group B: 48.25 x 10(7) (range 1.33-447.4) has been observed in the first leukapheresis product. Moreover, the total number of CFU-GM increased significantly from 34.79 x 10(4) (range 1.07-300.9) to 147.69 x 10(4) (range 1.03- 1204.0) (P < 0.005), and the number of MNC increased from 1.35 x 10(10) (range 0.41-3.09) group A) to 2.93 x 10(10) (range 0.66-9.7) (group B) (P < 0.001). Comparable results were obtained in the second leukapheresis. Our data indicate, that the application of higher doses of G-CSF can significantly improve the effectiveness of mobilizing PBPC during steady-state conditions, and thereby considerably contribute to a safe and fast engraftment as well as a reduced number of leukapheresis procedures to achieve sufficient number of PBPC.
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PMID:Increase of mobilized CD34-positive peripheral blood progenitor cells in patients with Hodgkin's disease, non-Hodgkin's lymphoma, and cancer of the testis. 873 86

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