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)

The non-Hodgkin lymphoma chemotherapy protocol used at the Gustave-Roussy Institute was adapted, in terms of drug doses and interval between doses, to normal CBA mice. The numbers of pluripotential stem cells (CFU-S), unipotential stem cells (CFC), differentiated bone marrow cells, and circulating white cells were determined. Eight hours after each drug of the first chemotherapy cycle the number of pluripotent stem cells decreased while the proportion of these cells in DNA synthesis increased. Six hours after the end of each complete cycle, the stem cell compartments were found to be considerably depleted, and they were not completely restored when the next cycle was begun, while the other hematologic compartments were completely restored at this time.
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PMID:Some effects of chemotherapeutic drugs on bone marrow stem cells. II. Effect on non-Hodgkin lymphoma chemotherapy on various hemopoietic compartments of the mouse. 45 76

We have studied the time course changes in committed granulocytic progenitor cells (CFC) in 54 pediatric patients treated by chemotherapy for a malignant non-Hodgkin lymphoma. This study has revealed the following points: 1) In the absence of patent bone marrow invasion, the bone marrow CFC concentration is, before treatment, less than normal; 2) Bone marrow invasion coincides with a large decline in bone marrow CFC concentration; 3) The aplasia induced by the initial chemotherapy is mediated by a quasi-complete destruction of CFC; 4) After regeneration from the initial therapeutic aplastic state the CFC exhibited a quite variable behavior from one patient to another. This phenomenon is probably linked to the variable recuperation time for each patient; 5) Following the conclusion of treatment, the patients, although having a normal peripheral leukocyte count, appeared to maintain a major aftereffect characterized by a clear and prolonged reduction in the concentration and total number of CFC.
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PMID:Sequential study of the bone marrow granulocytic progenitor cells (CFC *) in children treated by chemotherapy for non-hodgkin malignant lymphomas. 54 14

Improved tolerance of splenectomized patients with Hodgkin's disease (HD) to radiotherapy and chemotherapy has been reported. The present study was undertaken to determine the effects of splenectomy and nitrogen mustard (NM) on colony-forming cells (CFC's) of bone marrow cells obtained from CF1 male mice by in bitro agar-gel technique. Splenectomized mice were given NM intraperitoneally on day 11. On day 15, they were sacrificed and the bone marrow was cultured with a source of colony-stimulating factor (CSF). Spleen extract was prepared by grinding spleens from CF1 mice. On the eighth day of incubation, significantly higher numbers of CFC's were found in splenectomized animals at 1% confidence level (F Test) compared with the nonsplenectomized animals. Both splenectomized and non-splenectomized mice had a greater colony response after NM (at 5% confidence level) than saline-treated controls. Maximum numbers of colonies were obtained in the nustard-treated asplenic animals. Splenic extract, as well as extracts from other organs, when added to the culture plates resulted in inhibition of colony formation. The significance of in vitro inhibition after addition of organ extract is uncertain.
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PMID:Effects of nitrogen mustard and splenectomy on mouse bone marrow colony formation in vitro. 95 68

After treatment of patients with intermediate or high grade non-Hodgkin lymphoma with chemotherapy plus G-CSF the numbers of haemopoietic progenitor cells in the circulation increased to a mean of 226-fold for mixed CFC (Mix-CFC), 278-fold for GM-CFC and 29-fold for erythroid burst forming unit (BFU-E). The mean increase was modest (7-12-fold) for patients treated with chemotherapy alone. Peripheral blood mononuclear cells harvested at the time of the peak in the numbers of progenitors, or 2-4 days before the peak, seeded onto irradiated marrow stroma in vitro, repopulated the stroma and generated active haemopoiesis at least as effectively as bone marrow cells on a cell per cell basis. This is in contrast to the poor repopulating capacity of pretreatment blood. The results indicate that not only the progenitor cells, but also the repopulating stem cells migrated into the blood after chemotherapy plus G-CSF in sufficient numbers to allow harvesting and successful grafting without the possible complication of late haemopoietic failure.
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PMID:The capacity of peripheral blood stem cells mobilised with chemotherapy plus G-CSF to repopulate irradiated marrow stroma in vitro is similar to that of bone marrow. 137 85

We have studied the effects of recombinant human granulocyte colony-stimulating factor (rhG-CSF), hG macrophage-CSF (hGM-CSF), and gibbon interleukin-3 (gIL-3) on cell proliferation and differentiation in human long-term bone marrow culture (LTBMC). hG-CSF induced a maximal increase of 2.3-fold in both total nonadherent cells and GM cluster-forming cells, but only an increase of 1.7-fold in GM-colony-forming cell (GM-CFC) numbers, influencing mainly neutrophil differentiation. Cultures treated with hGM-CSF demonstrated a peak of 12.8-, 21- and 3.2-fold elevations in total nonadherent cells, cluster, and GM-CFC, respectively, and influenced differentiation of neutrophils, monocytes, eosinophils, and lymphocytes. Cultures treated with gIL-3 demonstrated the largest expansion in the GM-CFC population, reaching a maximum of 5.3-fold in relation to that of unstimulated controls. IL-3 treatment also increased the numbers of GM clusters and mature cells (including all myeloid cells and lymphocytes) 7.8- and 4.8-fold, respectively. Similar quantitative and qualitative changes were induced by G-CSF, GM-CSF, and IL-3 in LTBMCs of patients in remission after treatment for acute lymphoblastic leukemia or Hodgkin's lymphoma. Overall, the expansion of GM progenitor cells in cultures treated with growth factors was larger in the adherent cell layer than in the nonadherent cell fraction. In addition, hGM-CSF, gIL-3, and hG-CSF to a less extent, increased the cycling rates of GM-CFC progenitors located in the adherent layer. These results indicate that hG-CSF is a much less potent stimulus of hematopoiesis in LTBMC than the other CSFs assayed, and that the increases in cell production after treatment with G-CSF, GM-CSF, or IL-3 may be achieved by primary expansion of different cell populations within the hierarchy of the hematopoietic system. The effects of the growth factors were transient and the longevity of hematopoiesis in the cultures was not altered, suggesting that treatment with IL-3, GM-CSF, or G-CSF had not compromised the ability of primitive cells to give rise to mature cells. This indicates that the stromal microenvironment in LTBMC can override potential differentiation-inducing activities of the CSFs.
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PMID:Effects of recombinant human granulocyte colony-stimulating factor (CSF), human granulocyte macrophage-CSF, and gibbon interleukin-3 on hematopoiesis in human long-term bone marrow culture. 169 95

The formation of granulocyte-monocyte colonies by bone marrow cells cultured in a semiliquid environment is a widely applied technique of granulocytopoiesis examination. Applying this method the number of circulating in blood stem cells of the granulocyte-monocyte line (CFC-GM) has been assessed in 35 patients with Hodgkin's disease. In 12 patients the number of circulating in blood CFC-GM prior to the irradiation has been greater as compared with the norm accepted for our investigation. It has been the greatest in patients with nodular sclerosis type of Hodgkin's disease. In 25 patients smaller than accepted as normal number of circulating in the blood CFC-GM has been present particularly in patients with mixed cellularity type of Hodgkin's disease. Following the application of chemotherapy according to MOPP scheme during the first two weeks no circulating CFC-GM have been present in blood. The lowest number of stem cells in blood has been observed prior to IV and VI course of chemotherapy. The interruption of treatment for 8 weeks resulted in major increase of the number of circulating CFC-GM in the blood.
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PMID:[Examination of circulating stem cells from the granulocyte-monocyte line in patients with Hodgkin's disease]. 235 44

Using in vitro techniques, bone marrow (BM) function has been studied in 25 patients in complete remission and at least one year after the completion of MVPP chemotherapy for Hodgkin's disease. The numbers of granulocyte/macrophage (GM-CFC) and fibroblastoid (CFU-F) progenitors were significantly lower than controls and there was no evidence of any improvement with time (median months off treatment was 30 for GM-CFC and 34 for CFU-F). In long-term BM culture production of haemopoietic cells were strikingly lower in the post-MVPP group and the development of adherent stromal cell populations was also significantly less. In addition, the yield of GM-CFC in adherent layers after four weeks of culture was significantly lower than in controls. We conclude that following MVPP chemotherapy and in apparently disease free and haematologically normal individuals there is evidence of impaired BM function up to nine years after the completion of treatment. These abnormalities may be relevant to the known increased risk of acute non-lymphocytic leukaemias in this group of patients and are likely to render the BM less able to withstand subsequent insults such as further chemotherapy or infection. The eventual development of BM failure is also a possibility and long-term follow-up of these patients is essential.
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PMID:The long-term effects of MVPP chemotherapy for Hodgkin's disease on bone marrow function. 239 Apr 72

Peripheral blood T-colony-forming cells (T-CFC) from most patients with T-cell acute lymphoblastic leukaemias (T-ALL) and T-cell non-Hodgkin's lymphomas (T-NHL), can proliferate in vitro in methylcellulose in the absence of added growth factors or mitogens. We now report that spontaneous T-cell colonies could also be obtained during complete remission of 13 out of 21 patients with T-ALL and T-NHL, but none of eight patients with common (pre-B) ALL (cALL). Colony cells were mainly E+T3+, with a variable expression of other T cell markers. Spontaneous T-CFC did not possess self-renewal capacity in the absence of added growth factors. Moreover, incubation of spontaneous colonies with colchicine yielded mitoses in only two out of seven patients, with one normal and one abnormal karyotype. In five patients tested, recombinant interleukin 2 (IL2) could also induce the proliferation of some T-CFC. Both spontaneous and IL2-induced colonies were inhibited by an anti-IL2 receptor monoclonal antibody, suggesting that interaction of IL2 with its receptor may be involved in the proliferation of some T-CFC from these patients. A study of 14 T-ALL patients tested during their first remission indicated that patients who developed no or few spontaneous colonies during their first remission (less than 20 colonies/10(5) mononuclear cells) seemed to relapse later and to have a significantly longer survival than patients with a high number of spontaneous colonies. These data suggest that the spontaneous proliferation capacity of T-CFC might be of prognostic value in the clinical evaluation of T-ALL.
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PMID:Abnormal proliferation of T-colony-forming cells from peripheral blood of patients with T-cell acute lymphoblastic leukaemias and lymphomas in complete remission: potential prognostic value. 349 88

The hemopoietic growth factor filgrastim (r-metHu G-CSF) stimulates granulopoiesis after autologous BMT and can also be used as a peripheral blood progenitor cell (PBPC)-mobilizing agent. Rapid platelet recovery follows the addition of filgrastim-mobilized PBPC to autologous BMT. We have now studied 29 adults with malignant lymphoma, Hodgkin's disease or ALL to assess the ability of filgrastim-mobilized PBPC to rapidly and durably restore hemopoiesis without bone marrow (BM) infusion. Patients with a high yield of PBPC from three leukaphereses, defined as > 30 x 10(4)/kg GM-CFC, were eligible for PBPC transplant without BM. Patients with a low yield of GM-CFC received both PBPC and BM infusion. After filgrastim therapy 12 or 24 micrograms/kg/day by continuous sc infusion for 6 or 7 days, a high yield was obtained in 11 of 29 patients. Kinetics of recovery of both the platelet and neutrophil counts were more rapid in the high yield group than in the low yield group. The platelet count recovered to > 20 x 10(9)/l at a median of 9 days, to > 50 x 10(9)/l at 11 days and the neutrophil count to > 0.5 x 10(9)/l at 9 days in the high yield group compared with 12 days, 37 days and 10 days, respectively, in the low yield group (p = 0.028, p < 0.001 and p = 0.027). Fewer platelet transfusions were required in the high yield group (median 11 vs 29.5 units, p = 0.021).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phase II study of autologous filgrastim (G-CSF)-mobilized peripheral blood progenitor cells to restore hemopoiesis after high-dose chemotherapy for lymphoid malignancies. 752 4

Peripheral blood progenitor cells (PBPC) can be mobilized using cytotoxic chemotherapy and cytokines. There is a substantial variability in the yield of hematopoietic progenitor cells between patients. We were looking for predictive parameters indicating a patient's response to a given mobilization regimen. Multiparameter flow-cytometry analysis and clonogenic assays were used to examine the hematopoietic progenitor cells in bone marrow (BM) and peripheral blood (PB) before filgrastim (R-metHuG-CSF; Amgen, Thousand Oaks, CA)-supported chemotherapy and in PB and leukapheresis products (LPs) in the recovery phase. Fifteen patients (four with high-grade non-Hodgkin's lymphoma [NHL], two with low-grade NHL, two with Hodgkin's disease, two with multiple myeloma, three with breast cancer, one with ovarian cancer, and one with germ cell tumor) were included in this study. The comparison of immunofluorescence plots showed a homogenous population of strongly CD34+ cells in steady-state and mobilized PB whereas in steady-state BM, the CD34+ cells ranged from strongly positive with continuous transition to the CD34- population. Consistent with the similarity in CD34 antigen expression, a correlation analysis showed steady-state PB CD34+ cells (r = .81, P < .001) and colony-forming cells (CFCs; r = .69, P < .01) to be a measure of a patient's mobilizable CD34+ cell pool. Individual estimates of progenitor cell yields could be calculated. With a probability of 95%, eg, 0.4 steady-state PB CD34+ cells x 10(6)/L allowed to collect in six LPs 2.5 x 10(6) CD34+ cells/kg, the reported threshold-dose of progenitor cells required for rapid and sustained engraftment after high-dose therapy. For the total steady-state BM CD34+ cell population, a weak correlation (r = .57, P < .05) with the mobilized CD34+ cells only became apparent when an outlier was removed from the analysis. Neither the CD34+ immunologic subgroups defined by the coexpression of the myeloid lineage-associated antigens CD33 or CD45-RA or the phenotypically primitive CD34+/HLA-DR- subset nor the BM CFC count had a predictive value for the mobilization outcome. This may be caused by the additional presence of maturing progenitor cells in BM, which express lower levels of the CD34 antigen and do not circulate. Our results permit us to recognize patients who are at risk to collect low numbers of progenitor cells and those who are likely to achieve sufficient or high progenitor cell yields even before mobilization chemotherapy is administered.
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PMID:Peripheral blood progenitor cell (PBPC) counts during steady-state hematopoiesis allow to estimate the yield of mobilized PBPC after filgrastim (R-metHuG-CSF)-supported cytotoxic chemotherapy. 860 80


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