UMLS:C0019829 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019829 (Hodgkin's disease)
30,247 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fourteen patients with relapsed Hodgkin's disease responded to a salvage therapy with Dexa-BEAM (dexamethasone, BCNU, etoposide, Ara-C and melphalan). In seven patients a continuous i.v. infusion with recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) was started subsequent to Dexa-BEAM (+rhGM-CSF) while the other seven patients received no hemopoietic growth factor (-rhGM-CSF). It was our objective to study the impact of rhGM-CSF on the collection of blood-derived hemopoietic stem cells in patients with extensive prior chemo- and radiotherapy not eligible for marrow harvest. Compared to baseline, we observed a significant increase of colony-forming units granulocyte-macrophage (CFU-GM) in the peripheral blood of patients receiving rhGM-CSF (p less than 0.05). On average, the yield of total nucleated cells and CFU-GM collected per single leukapheresis was 2.2 and 2.4-fold higher in the rhGM-CSF-treated patients respectively (p less than 0.05). With rhGM-CSF the interval from the start of chemotherapy to the end of blood stem cell collection could be reduced by 6 days (p less than 0.05). Following the CBV pretransplant regimen (cyclophosphamide, BCNU, etoposide), the reinfusion of rhGM-CSF-exposed stem cells resulted in a shorter time of leukocyte recovery (p less than 0.05). The number of CFU-GM/kg body weight transplanted was found to be predictive for the time of neutrophil recovery (p less than 0.05). In patients with bone marrow hypoplasia or fibrosis, rhGM-CSF as part of an effective salvage therapy improves the collection of blood stem cells that are capable of restoring hemopoiesis after high-dose pretransplant therapy.
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PMID:Recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) subsequent to chemotherapy improves collection of blood stem cells for autografting in patients not eligible for bone marrow harvest. 135 17

A combination of two non-cross-resistant regimens, CEOP and IMVP-Dexa given every 4 weeks, three to six times according to response was tested in patients with untreated histological proven high and intermediate grade non-Hodgkin's lymphoma. To date eight Austrian centres entered 37 patients in this multicentre trial. Data are available from 33 patients, three were excluded, two because of pretreatment, one because of wrong histology. Twenty-five patients are evaluable for response, 21 had a complete and three a partial remission, two of them entered a complete remission after radiotherapy to residual disease, resulting in a complete remission rate of 92 per cent. Only one patient progressed during therapy. Until now three patients relapsed after achieving a remission. Observation time is 0.4-23.8 months, median 8.8 months. Toxicity was primarily hematologic with 53.3 per cent of patients having granulocyte nadirs below 0.5 x 10(9)/L and 3.3 per cent below 0.1 x 10(9)/L. Although 60 per cent of patients had infections, there was only one life-threatening infection in an AIDS patient. CEOP-IMVP-Dexa can be safely given even in smaller hematologic centres and is able to achieve a high rate of complete responses in patients with high and intermediate grade malignant non-Hodgkin's lymphomas.
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PMID:Toxicity and preliminary results with a new eight-drug regimen (CEOP-IMVP-DEXA) in the treatment of aggressive lymphomas. 174 23

Agents with stem cell-toxic potential are frequently used for salvage therapy of Hodgkin's disease (HD) and high-grade non-Hodgkin's lymphoma (NHL). Because many patients with relapsed or refractory lymphoma are candidates for autologous progenitor cell transplantation, possible toxic effects of salvage chemotherapy on progenitor cells must be taken into account. In a retrospective study, we have analyzed the influence of a salvage regimen containing the stem cell-toxic drugs BCNU and melphalan (Dexa-BEAM) on subsequently harvested bone marrow (BM)- and peripheral blood-derived progenitor cell grafts (PBPC) and compared it with other factors. Progenitor cells were collected from 96 patients with HD or high-grade NHL. Seventy-nine grafts were reinfused (35 PBPC and 44 BM) after high-dose chemotherapy. Compared with patients autografted with BM, hematopoietic recovery was significantly accelerated in recipients of PBPC. For PBPC, the number of Dexa-BEAM cycles ( > or = v > 1) was the predominate prognostic factor affecting colony-forming unit-granulocyte-macrophage (CFU-GM) yield (66 v 6.8 x 10(4)/kg, P = .0001), CD34+ cell yield (6.6 v 1.6 x 10(6)/kg, P = .0001), neutrophil recovery to > 0.5 x 10(9)/L (9 v. 11 days, P = .0086), platelet recovery to > 20 x 10(9)/L (10 v 15.5 days, P = .0002), and platelet count on day +100 after transplantation (190 v 107 x 10(9)/L, P = .031) using univariate analysis. Previous radiotherapy was associated with significantly lower CFU-GM and CD34+ cell yields but had no influence on engraftment. Patient age, patient sex, disease activity, or chemotherapy other than Dexa-BEAM did not have any prognostic impact. Multivariate analysis confirmed that Dexa-BEAM chemotherapy was the overriding factor adversely influencing CFU-GM yield (P < .0001), CD34+ cell yield (P < .0001), and platelet engraftment (P < .0001). BM grafts were not significantly affected by previous Dexa-BEAM chemotherapy or any other variable tested. However, prognostic factors favoring the use of BM instead of PBPC were not identified using joint regression models involving interaction terms between the graft type (PBPC or BM) and the explanatory variables investigated. We conclude that, in contrast to previous radiotherapy or other chemotherapy, exposure to salvage regimens containing stem cell-toxic drugs, such as BCNU and melphalan, is a critical factor adversely affecting yields and performance of PBPC grafts. Marrow progenitor cells appear to be less sensitive to stem cell-toxic chemotherapy. PBPC should be harvested before repeated courses of salvage chemotherapy involving stem cell-toxic drugs to preserve the favorable repopulation kinetics of PBPC in comparison with BM.
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PMID:Autologous progenitor cell transplantation: prior exposure to stem cell-toxic drugs determines yield and engraftment of peripheral blood progenitor cell but not of bone marrow grafts. 757 68

A 30-year-old man complained of high fever, resistant to antibiotics, and progressive loss of strength for five weeks. The peripheral blood showed pancytopenia (leucocytes 2200/microliters, platelets 45,000/microliters, haemoglobin 10.7 g/dl). There was also hepatosplenomegaly, abdominal lymph node enlargement, pleural and pericardial effusions and slight excess of lymphocytes in the cerebrospinal fluid. Histological examination of the bone marrow suggested a small-cell pleomorphic T-cell lymphoma, but Hodgkin's disease was also considered. Splenectomy was performed to confirm the diagnosis and treat the pancytopenia. The blood count rapidly returned to normal and the suggestion of Hodgkin's disease was excluded. Intensive chemotherapy (BMFT-ALL protocol) was followed by regression of nearly all the abnormalities, but marrow infiltration persisted. This treatment was discontinued after phase II of induction. After an intercurrent cytomegalovirus infection maintenance treatment with alpha-interferon (up to 5 million units daily) was started. The partial remission remained stable for 22 months. The lymphoma then relapsed but was held in check by further chemotherapy (Dexa-PAMB protocol). For the past 11 months the patient has remained in stable partial remission on treatment with alpha-interferon (3 million units every other day). Frequent infections (sinusitis, diarrhoea, abscess) require close supervision.
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PMID:[Pleomorphic T-cell lymphoma. The diagnostic problems, therapeutic possibilities and infection-induced complications]. 768 64

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

We report on a 28 year old Turkish woman, who was admitted to our hospital with the symptoms of malabsorption and protein-loosing enteropathy. Histologically, on duodenal biopsy, a lymphoplasmacellular infiltration of the submucosa with partial to subtotal atrophy of the villi was found. An immunoproliferative small intestinal disease (IPSID) was diagnosed. A short remission whilst on a glutenfree diet and tetracycline therapy, was followed by a laparatomy because of ileus in the small intestine. A high-grade-malignant Non-Hodgkin's Lymphome of B-cell type with intracellular production of alpha-Heavy-Chains (AHCD) was diagnosed histologically. Following chemotherapy with CEOP-IMVP-Dexa (Cyclophosphamide, Epidoxorubicin, Vincristine, Prednisolone, Ifosfamide, VP-16, Dexamethason, Methotrexat) the patient is still in complete remission three years after starting the therapy. We discuss here a case of AHCD in IPSID, the differential diagnosis of protein losing enteropathy and malabsorption, and we also present conservative (diet, medical treatment) and operative therapies.
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PMID:Malabsorption associated with a high-grade-malignant non-Hodgkin's lymphoma, alpha-heavy-chain disease and immunoproliferative small intestinal disease. 779 20

Many centers use CY and G-CSF to mobilize PBPC. In this study we explored whether a standard chemotherapy regimen consisting of mitoguazon, ifosfamide, MTX and etoposide (MIME) combined with G-CSF was capable of mobilizing PBPC in lymphoma patients. Twelve patients with Hodgkin's disease (HD) and 38 patients with non-Hodgkin's lymphoma (NHL) were mobilized with MIME/G-CSF. Most patients were heavily treated with different chemotherapy regimens receiving a median of 11 cycles (range 3 to 20) of chemotherapy prior to mobilization. It was found that the optimal time of PBPC harvest was at days 12 and 13 after initiating the mobilization regimen. The median number of collected CD34+ cells per kg body weight was 7.1 x 10(6) (range 0.5-26.2). More than 2.0 x 10(6) CD34+ cells/kg were achieved in 69% of the patients after one apheresis. When additional cycles of apheresis were done, only 6% failed to harvest this number of CD34+ cells. There was a statistically significant inverse correlation between the number of prior chemotherapy cycles and CD34+ cell yield (P = 0.003). No such association was found between CD34+ cell yield and prior radiotherapy. When MIME/G-CSF was compared with Dexa-BEAM/G-CSF, it was found that MIME/G-CSF tended to be more efficient in mobilizing PBPC in spite of being less myelotoxic. All patients transplanted with MIME/G-CSF mobilized PBPC had fast and sustained engraftment. These results demonstrate that an ordinary salvage chemotherapy regimen, such as MIME combined with G-CSF can be successfully used to mobilize PBPC.
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PMID:Combination chemotherapy with mitoguazon, ifosfamide, MTX, etoposide (MIME) and G-CSF can efficiently mobilize PBPC in patients with Hodgkin's and non-Hodgkin's lymphoma. 961 78

The availability of hematopoietic growth factors has greatly facilitated the mobilization and collection of peripheral blood stem cells (PBSC). It was the aim of this double-blind study to compare the PBSC-mobilizing efficacy of recombinant human G-CSF and GM-CSF when administered post-chemotherapy. Twenty-six patients with relapsed Hodgkin's disease were included in the study. Their median age was 31 years (range, 22-59) and 14 patients were males and 12 were females. Patients were pretreated with a median of eight cycles of cytotoxic chemotherapy, while 18 patients had undergone extended field irradiation. The patients received dexamethasone 24 mg days 1-7, melphalan 30 mg/m2 day 3, BCNU 60 mg/m2 day 3, etoposide 75 mg/m2 days 4-7, Ara-C 100 mg/m2 twice daily days 4-7 (Dexa-BEAM). Twelve patients were randomized to receive 5/microg/kg/day G-CSF and 14 patients to receive 5 microg/kg/day GM-CSF, both administered subcutaneously starting on day 1 after the end of Dexa-BEAM. Primary endpoints of the study were the number of CD34+ cells harvested per kg body weight on the occasion of six consecutive leukaphereses and the time needed for hematological reconstitution following autografting. Twenty-one patients completed PBSC collection, and six patients of the G-CSF group and nine of the GM-CSF group were autografted. No difference was observed with respect to the median yield of CFU-GM and CD34+ cells: 32.5 x 10(4)/kg vs 31.3 x 10(4)/kg CFU-GM, and 7.6 x 10(6)/kg vs 5.6 x 10(6)/kg CD34+ cells, for G-CSF and GM-CSF, respectively (U test, P= 0.837 and 0.696). High-dose chemotherapy consisted of cyclophosphamide 1.7 g/m2 days 1-4, BCNU 150 mg/m2 days 1-4, etoposide 400 mg/m2 days 1-4. All patients transplanted with more than 5 x 10(6) CD34+ cells/kg had a rapid platelet recovery (20 x 10(9)/l) between 6 and 11 days and neutrophil recovery (0.5 x 10(9)/1) between 9 and 16 days, while patients transplanted with less than 5 x 10(6)/kg had a delayed reconstitution, regardless of the kind of growth factor used for PBSC mobilization. In conclusion, our data indicate that in patients with Hodgkin's disease G-CSF and GM-CSF given after salvage chemotherapy appear to be not different in their ability to mobilize PBSC resulting in a similar time needed for hematological reconstitution when autografted following high-dose therapy.
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PMID:Recombinant human granulocyte and granulocyte-macrophage colony-stimulating factor (G-CSF and GM-CSF) administered following cytotoxic chemotherapy have a similar ability to mobilize peripheral blood stem cells. 981 88

Intensification using peripheral blood stem cells collected after chemotherapy followed by growth factors is being increasingly investigated as an alternative to conventional chemotherapy for mantle cell non-Hodgkin lymphoma. We investigated 14 grades III-IV, t(11;14)-positive cases for contamination of PBSC collected after a polychemotherapy regimen followed by G-CSF. Patients were first treated with a polychemotherapy regimen. There were four CR, seven PR, two refractory and one early death. Seven patients have been transplanted, in whom PBSC were mobilized, using either cyclophosphamide/VP16 or Dexa-BEAM followed by G-CSF. For all patients, whether actually autografted or not, PB cells were tested at the time of regeneration on G-CSF after the first polychemotherapy or after the mobilizing regimen. PCR evaluation of contamination was performed first by a semi-quantitative approach, using serial dilutions of initial DNA, then confirmed using a limiting-dilution analysis. Two patients were not informative (one early death and one without an available molecular marker). PB cells collected at regeneration contained at least one log more lymphoma cells than steady-state blood or marrow, apart from in two cases. Moreover, where a mobilizing treatment diminished tumor burden in the patient, at the same time it increased PB contamination in most cases. We conclude that advanced mantle cell NHL appears to be largely resistant to significant in vivo purging by conventional chemotherapy. Where treatment brings benefits by reducing tumor load, it may at the same time negate it by mobilizing malignant cells into the collections used to intensify. Although the clonogenic potential of this massive infiltration is unknown (only gene marking studies could provide a definitive answer regarding the source of relapses), strategies aimed at reducing the level of contamination in the graft should be considered when designing future protocols.
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PMID:Peripheral blood stem cell contamination in mantle cell non-Hodgkin lymphoma: the case for purging? 1021 44

Hematopoietic stem cells (HSC) transplantations are usually performed 24-48 hours after the end od high-dose chemotherapy (HDC). It is possible, however, that at that time the transplanted HSC can be affected by the administered drugs. We report the results obtained in 30 patients (pts) with hematological malignancies (multiple myeloma - 14, Hodgkin's disease -6, non-Hodgkin's lymphomas -4, chronic myeloid leukemia -6) treated with HDC with peripheral blood stem cell transplantation (PBSCT). The following HDC regimens were applied: melphalan - 14, Dexa-BEAM (dexamethasone, BCNU, etoposide, cytarabine, melphalan) - 10 and BuCy2 (busulfan, cyclophosphamide) - 6. To evaluate the impact of HDC on the growth ability of less /14/ and more /7/ mature CFU-GM, sera were taken directly before cytoreductive chemotherapy, on the last day of HDC (0 day) and on days 1, 2, 3, 4 and 5 after the end of HDC. After melphalan, for CFU-GM/14/ the following results were received: days 0 - 54 +/- 9, 1 - 55 +/- 9, 2 - 68 +/- 12, 3 - 82 +/- 10, 4 - 95 +/- 8,5 - 100 +/- 8% and for CFU-GM/7/: days 0 - 60 +/- 11, 1 - 59 +/- 8, 2 - 72 +/- 11, 3 - 80 +/- 7, 4 - 90 +/- 9, 5 - 105 +/- 7%, determined as a percentage of those obtained before HDC (100%). After Dexa-BEAM, for CFU-GM/14/: days 0 - 45 +/- 13, 1 - 49 +/- 8, 2 - 59 +/- 12, 3 - 85 +/- 15, 4 - 96 +/- 9, 5 - 106 +/- 11%, and for CFU-GM/7/: 0 - 43 +/- 15, 1 - 50 +/- 9, 2 - 63 +/- 11, 3 - 89 +/- 11, 4 - 98 +/- 11, 5 - 110 +/- 8%. In case of BuCy2, for CFU-GM/14/: days 0 - 55 +/- 13, 1 - 67 +/- 7, 2 - 69 +/- 15, 3 - 85 +/- 10, 4 - 103 +/- 12, 5 - 108 +/- 7% and for CFU-GM/7/: days 0 - 50 +/- 12, 1 - 71 +/- 6, 2 - 76 +/- 16, 3 - 98 +/- 9, 4 - 105 +/- 11, 5 - 101 +/- 8%. In all pts PBSCT were infused 72 hours after HDC. The median time to reach granulocytes > 0.5 G/l and >1.0 G/l was 12 (8-17) and 13 (9-18) days, respectively. The recovery of platelets >20.0 G/l and >50. 0 G/l occured after 17 (9-48) and 25 (11-54) days, respectively. We conclude that the suppressive effect of the sera taken on days 0-2 on the CFU-GM growth depends on the HDC-regimen. We have also shown that third day after completion of HDC is the optimal time for the infusion of HSC. The time of hematological reconstituton is related in all investigated pts and independently on the HDC-program (p>0.05).
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PMID:[Suppressive effect of high-dose chemotherapy (HDC) on the clonal growth of grafted peripheral blood granulocyte progenitors is reduced 72 hours after completion of HDC]. 1647 25

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