UMLS:C0854467 - FACTA Search

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Query: UMLS:C0854467 (myelosuppression)
5,932 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine the maximum tolerated dose (MTD), and therapeutic efficacy of carboplatin (CBDCA) in combination with etoposide and bleomycin (CEB) as initial chemotherapy for poor prognosis germ cell tumors, a CBDCA dose escalation supported with GM-CSF had been performed. Twenty four untreated patients were treated with CBDCA 400 mg/m2 on day 1, etoposide 100 mg/m2 on days 1 to 5 and bleomycin 30 mg on days 1, 3, 5. Four cycles were scheduled at 21-day interval. The first cohort of 6 patients received only initial chemotherapy regimen. In the subsequent cohorts of six patients, the CBDCA dose was increased by 100 mg/m2. A fixed dose and schedule of GM-CSF at 5 micrograms/kg subcutaneously was given on days 6 through 15. Myelosuppression, with neutropenic fever and hemorrhages, was the dose-limiting toxicity at the 600 mg/m2 dose level. The recommended dose of CBDCA is 500 mg/m2. Overall complete response (CR) rate was 71% and with median follow up of 25 (16-34) months, 58% of patients are alive and have no evidence of disease (NED). A higher number of CR was achieved with CBDCA dose higher than 400 mg/m2 compared with CBDCA dose of 400 mg/m2 (92 vs. 50%, p = 0.03), as well as a higher proportion of patients who are alive and with NED (75 vs. 42%, p = 0.1). Despite GM-CSF support, the MTD of CBDCA could not be increased beyond 500 mg/m2 (50% of the dose escalation), due to severe myelosuppression. The treatment outcomes obtained with CEB in our study are no better than the standard cisplatin-based chemotherapy. Further studies of this regimen, where CBDCA dose should be calculated according to the patients glomerular filtration rate are warranted.
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PMID:Phase I/II trial of carboplatin dose escalation in combination chemotherapy with etoposide, bleomycin and GM-CSF support for poor prognosis nonseminomatous germ cell tumors patients. 899 56

The hemoregulatory peptide, pGlu-Glu-Asp-Cys-Lys (pEEDCK or HP5b), has been shown to reversibly inhibit the proliferation of bone-marrow progenitor cells, and has been reported to protect mice from the myelotoxicity associated with ara-C, a chemotherapeutic agent. We undertook to use this reagent to reduce radioimmunotherapy(RAIT)-associated bone-marrow toxicity by suppressing hematopoiesis during the critical period when bone marrow is exposed to radiation. The reported studies optimize the use of HP5b to reduce the duration of neutropenia and thrombocytopenia. We found that 3.6 micrograms/day of HP5b administered through a continuous 7d mini-osmotic pump, together with a bolus dose of 3.6 micrograms 3 hours before the radioantibody dose, gave the best effect, as measured by neutrophil counts on day 28 post RAIT. With sub-lethal doses of RAIT, the period of neutropenia was reduced by 2 weeks, and there appeared to be more rapid recovery of morphologically mature myeloid cells. The peptide, however, does not appear to alleviate the lymphotoxicity associated with RAIT. No adverse effects have been noted from continuous infusions of the peptide. In the past, we reported that cytokines (IL-I/GM-CSF) are not marrow-restorative when given after RAIT. However, an additive effect is observed when HP5b infusions are combined with post-RAIT cytokine administration, suggesting that a significant pool of bone-marrow progenitor cells remains when HP5b is co-administered with RAIT. Thus, HP5b is an alternate approach to reducing myelotoxicity, and may be used in combination with cytokines to further reduce the duration of myelosuppression.
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PMID:Reduction in the duration of myelotoxicity associated with radioimmunotherapy with infusions of the hemoregulatory peptide, HP5b in mice. 903 35

A five-year-old girl, initially diagnosed as having acute lymphoblastic leukemia (ALL; FAB-L1) relapsed with ALL 4 months after completion of chemotherapy (BFM 83). The initial ALL presentation and subsequent ALL relapse were analyzed using conventional morphology, cytochemistry, cytogenetics and immunophenotyping. The results were consistent with a diagnosis of B-lymphocyte precursor ALL. Bone marrow leukemic cells revealed a 46, XX karyotype at diagnosis and a 46, XX, del(7) (q22; qter) when the girl first relapsed. The case was managed with a BFM REZ-ALL 90 protocol. Upon completion of the first cycle of the protocol, severe myelosuppression developed. This was treated with GM-CSF. Three days later, however, GM-CSF was stopped because the WBC reached 1.1 x 10(9) per liter with 60% of blasts in peripheral blood. Laboratory characteristics were typical of AML. Cytogenetic analysis revealed 46, XX, del(7) (q22; qter) karyotype as before. The bcr-abl fusion gene was not detected. Myeloid blasts were placed in a culture and maintained at 37 degrees C and 7.5% CO2 for two weeks. During this period, formation of hemopoietic colonies was observed and subsequently analyzed using histology and electron microscopy. This showed that the colonies consisted of differentiating erythroid, megakaryocytic and myeloid cells. Further, the chemosensitivity of leukemic cells was examined in both "lymphoid" and "myeloid" relapse instances. While the "lymphoid" phenotype was characterized by good sensitivity to corticosteroids, a typical feature of the "myeloid" phenotype was a high resistance to corticosteroids with marginally increased sensitivity to ARA-C.
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PMID:Differential chemosensitivity of leukemic cells in the myeloid and lymphoid phases of stem cell leukemia (a case report). 920 Dec 94

The goal of our studies was to determine whether administration of IL-1/GM-CSF to mice could reduce radio-antibody-induced myelosuppression and allow either dose escalation of radio-antibody using 131I, 90Y or 188Re conjugated to either intact antibody or bivalent fragments or more frequent dosing with 131I-IgG. Survival, peripheral blood counts, hematopoietic tissue weight and number of marrow CFCs were used to determine the ability to dose-intensify with a single dose or to reduce the spacing between doses. In this report, we show that in the absence of cytokines, 2 cycles of 131I-IgG spaced at 28, 35, 42 and 49 days resulted in 100%, 100%, 40% and 0% lethality, respectively. In contrast, cytokine intervention reduced lethality to 45%, 20%, 0% and 0% at the same time intervals between doses. Thus, the use of cytokines permits at least a 1 week earlier redosing of 131I-IgG. Cytokine intervention also has reduced the magnitude of myelosuppression, as measured by neutropenia and thrombocytopenia, thus permitting intensification of single doses of radio-iodinated intact antibodies, bivalent fragments and 90Y-IgG by at least 30%, 50% and 25%, respectively. However, cytokines were not effective at permitting dose escalation of either 90Y-F(ab')2 or 188Re-IgG. Further optimization of the dose schedule of cytokine administration needs to be explored for these 2 nuclide-antibody forms.
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PMID:Application of cytokine intervention for improved radio-antibody dose delivery. 921 39

Patients with advanced, refractory chronic lymphocytic leukemia (CLL) have an high morbidity and mortality from infections following chemotherapy-induced myelosuppression. A crossover study on the prophylactic effect of GM-CSF therapy on neutropenia was carried out in 12 patients with advanced CLL. The patients received GM-CSF in association with every second cycle of COP (cyclophosphamide, vincristine, prednisone) chemotherapy. A total of 40 COP cycles were analyzed. Blood neutrophil levels were significantly higher two to three weeks after the first COP cycle followed by GM-CSF (medians 2.24 and 5.47 x 10(9)/l) when compared to the first cycle without GM-CSF support (0.59 and 0.75 x 10(9)/l; p < 0.0195 and <0.002, respectively). In the next two cycles the same tendency persisted, although the difference was not statistically significant. There were no significant differences in the number of febrile days, days on intravenous antibiotics, hospitalization days, or the number of red blood cell transfusions. Mortality during COP treatment was 8%. In conclusion, GM-CSF efficiently ameliorates chemotherapy-induced neutropenia in CLL patients with a poor bone marrow reserve due to advanced disease.
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PMID:Effect of recombinant human granulocyte-macrophage colony-stimulating factor (GM-CSF) on chemotherapy-induced myelosuppression in patients with chronic lymphocytic leukemia: a crossover study. 925 Aug 21

Apoptosis, often synonymously used with the term 'programmed cell death', is an active, genetically controlled process that removes unwanted or damaged cells. Suppression, overexpression or mutation of a number of genes which orchestrate the apoptotic process are associated with disease. The diseases in which apoptosis has been implicated can be grouped into 2 broad groups: those in which there is increased cell survival (i.e. associated with inhibition of apoptosis) and those in which there is excess cell death (where apoptosis is overactive). Diseases in which there is an excessive accumulation of cells include cancer, autoimmune disorders and viral infections. Deprivation of trophic factors is known to induce apoptosis in cells dependent on them for survival. This fact has been exploited in the use of antiandrogens or antiestrogens in the management of prostate or breast cancer. Haemopoietic growth factors like granulocyte-macrophage colony stimulating factor (GM-CSF) or interleukin-3 prevent apoptosis in target cells and modulation of levels of these factors has been tried in the prevention of chemotherapy-induced myelosuppression. Until recently, it was thought that cytotoxic drugs killed target cells directly by interfering with some life-maintaining function. However, of late, it has been shown that exposure to several cytotoxic drugs with disparate mechanisms of action induces apoptosis in both malignant and normal cells. Physiological regulation of cell death is essential for the removal of potentially autoreactive lymphocytes during development and the removal of excess cells after the completion of an immune response. Recent work has clearly demonstrated that dysregulation of apoptosis may underlie the pathogenesis of autoimmune diseases by allowing abnormal autoreactive lymphocytes to survive. AIDS and neurodegenerative disorders like Alzheimer's or Parkinson's disease represent the most widely studied group of disorders where an excess of apoptosis has been implicated. Amyotrophic lateral sclerosis, retinitis pigmentosa, epilepsy and alcoholic brain damage are other neurological disorders in which apoptosis has been implicated. Apoptosis has been reported to occur in conditions characterised by ischaemia, e.g. myocardial infarction and stroke. The liver is a site where apoptosis occurs normally. This process has also been implicated in a number of liver disorders including obstructive jaundice. Hepatic damage due to toxins and drugs is also associated with apoptosis in hepatocytes. Apoptosis has also been identified as a key phenomenon in some diseases of the kidney, i.e. polycystic kidney, as well as in disorders of the pancreas like alcohol-induced pancreatitis and diabetes.
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PMID:Apoptosis: clinical relevance and pharmacological manipulation. 933 59

PIXY321, a granulocyte-macrophage colony-stimulating factor/interleukin 3 (GM-CSF/IL-3) genetically engineered hybrid, has shown greater biological activity in stimulating committed myeloid progenitors than either GM-CSF or IL-3 in vitro, in vivo, and in patients treated with high-dose chemotherapy. However, one concern is that PIXY321 may stimulate the proliferation of malignant cells which have functional GM-CSF or IL-3 receptors. Therefore, using a human tumor cloning assay, we have tested the effects of several concentrations of PIXY321 ranging from 0.1 to 100 ng/ml on tumor cells taken directly from 98 patients with solid tumors and Hodgkin's or non-Hodgkin's lymphomas. Of the 34 evaluable specimens, including 15 breast cancers, 5 ovarian cancers, 5 lung cancers, and 9 lymphomas, none showed stimulation of tumor growth. Interestingly, a significant inhibition of the tumor proliferation was seen in one breast cancer and in one large cell immunoblastic non-Hodgkin's lymphoma after continuous exposure of PIXY321. In conclusion, the use of PIXY321 to reduce myelosuppression after high-dose chemotherapy appears unlikely to result in stimulation of the growth of malignant cells in patients with lymphoma or cancers of the breast, lung, and ovary.
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PMID:Effects of PIXY321, a granulocyte-macrophage colony-stimulating factor/interleukin 3 fusion protein, on human tumor colony-forming units taken directly from patients. 981 21

This study was designed to evaluate the efficacy and toxicity of dose intensifying DHAP (dexamethasone, cytarabine and cisplatin) salvage chemotherapy by adding mitoxantrone with GM-GSF support in patients with relapsed or refractory non-Hodgkin's lymphoma (NHL). From March 1992 to January 1995, 22 patients with intermediate and high grade (aggressive) NHL refractory or relapsed after adriamycin containing chemotherapy regimens were treated with M-DHAP+GM-CSF, (dexamethasone 40 mg i.v. days 1-4, cisplatin 100 mg/m2 i.v. by continuous infusion over 24 hours on day 1, cytarabine 2 gm/m2, i.v. every 12 hours for 2 doses on day 2, mitoxantrone 10 mg/m2 i.v. on days 3 and 4 and GM-CSF 250-500 microg/m2 s.c. daily beginning day 5 until absolute neutrophil count recovery. Most patients had poor prognostic factors including primary refractory disease (18/22), bulky disease (12/22), elevated LDH (9/22), or bone marrow involvement (8/22). All 22 patients were evaluable. The overall response rate was 41% (CR 23% and PR 18%). There were three toxic deaths, all related to sepsis. Median progression free survival (PFS) and overall survival (OS) rates were 5.2 months and 11.8 months respectively. At the same time of the analysis two patients were alive after high-dose therapy and bone marrow transplant at 34 and 36 months follow-up and two were alive with disease. The maximal acceptable dosage of mitoxantrone was 10 mg/m2 x 2 due to serious hematologic toxicity. Treatment delays and dose reductions compromised delivering the optimal dose intensity of M-DHAP. A poor prognostic group of patients with refractory or recurrent aggressive lymphoma, many of whom were not eligible for high-dose therapy and stem cell transplantation were treated with repeated cycles of dose intensified DHAP with growth factor support. Although M-DHAP had therapeutic activity even in patients considered to have primary refractory disease, myelosuppression was dose limiting and frequently limited the number of cycles. Therefore, if M-DHAP is to be further evaluated, therapeutic results may be improved further by incorporating strategies to reduce myelotoxicity such as the use of growth factors to reduce platelet transfusion requirements or the use of autologous stem cell support after each cycle.
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PMID:Mitoxantrone-DHAP with GM-CSF: an active but myelosuppressive salvage therapy for relapsed/refractory aggressive non-Hodgkin's lymphoma. 1060 90

Maximal intensification of antineoplastic therapy is currently a predominant trend in the treatment regimens for acute leukemias and lymphomas. However, by such approach myelosuppression and counteracting its sequelae become paramount problems. Hematopoietic growth factors G-CSF/GM-CSF play a great role in this aspect of the therapy. Effects of 35 courses of G-CSF/GM-CSF were evaluated in 19 children with ALL and NHL and compared with 21 episodes of neutropenia in 15 historical controls. In the treatment group time of neutropenia was approx. 3 times shorter as compared with a control group. Fever accompanying neutropenia occurred less frequently and lasted shorter in the treatment group. Also, symptoms of infection subsided faster. Subjective life quality was better in children receiving growth factors.
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PMID:[The use of hematopoietic growth factors G-CSF/GM-CSF in the treatment of neutropenia in children with acute lymphoblastic leukemia and non-Hodgkin's lymphomas]. 1073 75

Several cytokines stimulating hematopoiesis, mainly lineage restricted, are already widely used in supportive care to correct myelosuppression or anaemia (GM-CSF, G-CSF, EPO). The new growth factor are tested in preclinical or clinical studies to abrogate other anti-cancer therapy side-effects (thrombocytopenia, mucositis etc.). IL-3 has been shown to have only limited effect on neutrophils and platelets production respectively. IL-6 and IL-11 have been tested to improve thrombocytopenia and mucositis (IL-11). Thrombopoetin (TPO, c-mpl) is tested in clinical trials and shows very strong effect on platelet counts. Stem cell factor (SCF) has shown to improve progenitor cell mobilisation, particularly in combination with other cytokines. The new promising factor, FLT-3 ligand, combines effect on hematopoiesis with effect on dendritic cells generation. The new group of synthetic cytokines (daniplestim, myelopoetin, promegapoetin and progenipoetin) is now tested in preclinical and clinical studies. Mucositis could be influenced by new keratinocyte growth factor (KGF), which is now in phase I trials.
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PMID:[New cytokines and their role in supportive care]. 1104 87

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