Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: KEGG:D03343 (MDS)
 2,225 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We present a patient with refractory anemia (RA) who developed Sweet's syndrome during the treatment of recombinant human granulocyte colony-stimulating factor (rhG-CSF). A 30-year-old man was admitted to the hospital for evaluation of anemia. He was diagnosed as MDS (RA). As a phase II study in MDS, rhG-CSF therapy was begun. Fever associated with cutaneous lesion developed over the left shoulder. Antibiotics showed no effects. Skin biopsy revealed Sweet's syndrome. This skin lesion disappeared thoroughly with discontinuance of G-CSF and administration of prednisolone. To examine whether Sweet's syndrome was related to the G-CSF therapy, we analyzed the effect of G-CSF on the function of patient's neutrophils. However, the function of patient's neutrophils was not activated by G-CSF administration.
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PMID:[Sweet's syndrome in patient with refractory anemia during recombinant human granulocyte colony stimulating factor therapy]. 169 95

We have examined the efficacy of various drugs in 44 patients with MDS and found the different effectiveness which depends on the type of MDS. Namely, RA appears to respond to steroid hormone, androgen, and/or vitamin D3, regardless of single or combined use. In particular, it is obvious in androgen, and as our previous reports, high content of acidic ferritin in RBC with RA have changed to more basic ones by treatment with androgen. On the contrary, these drugs were not effective on RAEB, RAEB-T, and CMML. A long-term observation is needed to determine whether the prolonged or decreased occurrence of leukemia could be obtained in the effective cases with RA. Most of the cases who did not develop overt leukemia during this study died of bleeding or infections due to thrombocytopenia or leukocytopenia, thus indicating that supportive therapies are important in patients with MDS. Since it has recently been reported that recombinant G-CSF or GM-CSF is helpful to increase the number of leucocyte and to enhance their functional recovery in MDS, these factors may be powerful agents against infections when they are carefully used with regard to the activation of leukemic clones.
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PMID:[Therapy of the preleukemic state: effect of androgens on refractory anemia]. 283 1

Administration of G- and GM-CSF increases the neutrophil counts in a number of clinical situations. GM-CSF shows the additional effect of increasing the number of monocytes and eosinophil granulocytes. Both G- and GM-CSF affect of neutrophil functions, in the case of GM-CSF there are some potentially negative effects on neutrophil migration and adhesiveness. The clinical relevance of the various effects on mature haematopoietic cells is not fully understood. Clinical data with G-CSF treatment indicate that increased levels of neutrophil granulocytes following cytotoxic chemotherapy may translate into clinical benefit such as a decreased rate of neutropenic infection and an increased cytotoxic chemotherapy dose even though the data are conflicting and the risk of "laboratory cosmetics" is apparent. Regarding treatment with GM-CSF following chemotherapy, the clinical benefit is unclear. The clinical benefit of GM-CSF-induced monocytes and eosinophils is unknown. G- and GM-CSF accelerates neutrophil recovery following autologous or allogeneic BMT. The influence on neutropenic infections is, however, less impressive. Pretreatment with G- or GM-CSF increases the yield of peripheral stem cell harvest, thereby reducing the number of leukaphereses needed. Transplantation of G- and GM-CSF primed autologous peripheral stem cells tends to reduce the period of post-transplant cytopenia, particularly thrombocytopenia, in comparison with traditional ABMT. In patients with MDS, G- and GM-CSF appear to increase the number of neutrophil granulocytes and there is some evidence that patients with severe infectious problems will benefit from this treatment. However, little influence was seen on the main clinical problems with these patients, which are anaemia and thrombocytopenia. In conclusion, G- and GM-CSF are two different proteins with different properties in vivo and in vitro. GM-CSF has, compared with G-CSF, more complex pharmacological effects and a more trouble-some side-effect profile. Early clinical development indicates that both compounds have a substantial influence on the levels of certain blood cells. Whether the increases in different blood cells translate into long-term clinical benefit for greater patient groups is the focus of ongoing research. The effects of G- and GM-CSF may be potentiated by other cytokines, an area which is presently being explored.
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PMID:G- and GM-CSF in oncology and oncological haematology. 751 79

A 70-year-old man was admitted to our hospital with pancytopenia. He was diagnosed as having MDS (RA), and therapy with subcutaneous S-CSF (100 micrograms/day) was started. His leukocyte count increased from 800/microliters to 1,400/microliters in two weeks. The dose of G-CSF was raised to 200 micrograms/day in the third week, and leukocytes increased to 2,00/microliters. At the fifth week, intravenous EPO (6,000 U x 3 times/week) was added. His leukocyte count increased to 4,000/microliters. EPO therapy was raised to 12,000 U x 3 times/week at the eighth week, his leukocyte count remained at the same level. G-CSF and EPO was stopped at the eleventh week, and leukocytes decreased to the same level as before administration. Throughout the course, his platelet count and reticulocyte count did not change. G-CSF and EPO are known as the stimulators of granuriod and erythroid progenitor, respectively. However, in this case, combination therapy with G-CSF and EPO induced marked increase of granulocytes only. This was an interesting case in relation to the roles of these cytokines in the hematopoietic system.
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PMID:[Combination therapy with granulocyte colony-stimulating factor (G-CSF) and erythropoietin (EPO) induced prominent granulocyte increase in an elderly case of myelodysplastic syndrome (MDS)]. 768 8

Myelodysplastic syndromes [MDS] are clonal disorders of hematopoietic stem cells leading to a deregulation of proliferation and differentiation of the bone marrow cells. Clinically the patients present with symptoms and signs of anemia, thrombocytopenia, and neutropenia. About a third of the patients will develop acute myeloid leukemia. Supportive care is the mainstay of therapy in these mostly elderly patients. G-CSF should only be given in cases of neutropenia and infection, but not prophylactically. Selected patients with severe or transfusion-dependent anemia will respond to treatment with erythropoietin. In advanced MDS aggressive chemotherapy should be considered, while in patients below 50 years of age and an HLA-identical sibling donor allogeneic bone marrow transplantation is the treatment of choice.
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PMID:[Myeloproliferative syndromes]. 862 70

G-CSF and GM-CSF have been shown in each clinical setting to reduce the duration of neutropenia, with the exception of the scant data available in the unrelated bone marrow transplant setting. These growth factors also have been shown to have no leukemogenic effect during the observation periods of the trials discussed. In MDS, one major randomized trial has demonstrated a reduction in incidence of infection. This has not yet been demonstrated in AML and allogeneic BMT. Data from ongoing and future trials will be helpful in elucidating their effect on treatment-related morbidity and overall survival.
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PMID:Clinical use of granulocyte-macrophage colony-stimulating factor and granulocyte colony-stimulating factor in neutropenia associated with malignancy. 881 4

We analyzed the 67 of 278 patients with newly-diagnosed AML or 'high-risk' MDS, treated in 1994 and 1995, who developed pneumonia during course 1 of their induction therapy. Pneumonia responded to treatment in 66%, but outcome depended on when pneumonia was diagnosed. Patients with pneumonia diagnosed during week 1 or 2 (group 2 patients) had the lowest response rate (43%). Patients who developed pneumonia in the 3rd week after treatment initiation had the best outcome with all 16 patients recovering. Patients presenting with pneumonia had an intermediate response rate (75%). The different patient groups were comparable with regard to age, underlying disease, prophylactic therapy, and G-CSF application. Although a lower CR rate was not entirely responsible for the lower response rate in group 2, failure to achieve CR predicted unsuccessful treatment of pneumonia in all groups. Fungal pathogens appeared more common in group 2 patients. However, in these patients, administration of amphotericin B was associated with a significantly higher failure rate (15/21 failures vs 2/9 who received no amphotericin B). We conclude that patients who develop pneumonia during week 1 or 2 are a high-risk group, and that use of amphotericin B indicates a particularly poor prognosis, although we present data suggesting that earlier use of amphotericin might be beneficial. Furthermore, since achievement of CR was an important prognostic factor in all groups, WBC transfusions particularly from donors given G-CSF should be considered as a therapeutic option. Finally, since time to failure of induction therapy and time to CR were similar in high-risk patients, new chemotherapy regimens could potentially improve both the CR rate and the outcome of pneumonia.
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PMID:Pneumonia during remission induction chemotherapy in patients with AML or MDS. 894 24

We examined the bone marrow of 45 patients with MDS at the time of diagnosis and in the course of the disease by means of Southern blot analysis and cytogenetic studies to detect and evaluate clonal markers and their implication on the prognosis of the disease and the response to treatment. All patients were enrolled in an EORTC study and received low-dose Ara-C with or without growth factors according to the study protocol. Thirty patients (67%) were characterized by different clonal markers, such as various gene rearrangements (eg Ig-JH, tcR-beta, bcr, GM-CSF, G-CSF or IL-3) and/or chromosomal markers at the time of diagnosis or early in the course of the disease. In 23 of 30 cases that could be studied in the course of the disease, a statement about the clonal situation was possible: in three cases (8%) the clonal situation did not change, in nine cases (39%) at least a transient reduction of clonal cells could be demonstrated, suggesting partial or complete response to therapy. In eight cases (35%) a change for the worse could be seen. In four cases (17%) involvement of multiple clones could be demonstrated with the clones exhibiting different susceptibilities to treatment. Clinical evaluation showed that patients without clonal markers at diagnosis had a better prognosis as compared to patients who presented with clonal markers. We suggest that clonality analysis at diagnosis and in the course of the disease will be a useful tool to study the biology and response to treatment in MDS.
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PMID:Clonality analysis as a tool to study the biology and response to therapy in myelodysplastic syndromes. 918 Feb 89

We report on a patient with Fanconi's anemia (FA) who developed a myelodysplastic syndrome (RAEB-T) with complex karyotypic abnormalities (trp 1q23q42, monosomy 20, trisomy 13) at the age of 28. The patient achieved a complete hematological and cytogenetic remission after treatment with sequential high-dose cytosine arabinoside/mitoxantrone followed by G-CSF (5 micrograms/kg). Bone marrow hypoplasia was prolonged with 38 days of granulocytopenia < 500/microliters and 62 days of platelet transfusion dependency. Nonhematological toxicity did not exceed that of patients without underlying FA. Remission duration was 7 months. This observation shows the feasibility of high-dose Ara C treatment in patients with FA and MDS. Although hematopoiesis remained clonal in remission, the suppression of the cytogenetically abnormal clones transiently reversed the antecedent long-lasting pancytopenia.
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PMID:Induction of a hematological and cytogenetic remission in a patient with a myelodysplastic syndrome secondary to Fanconi's anemia employing the S-HAM regimen. 923 12

To explore the feasibility and potential advantages of PBSC in allogeneic transplantation, we grafted 24 patients (age 16-57, median 37) with different hematologic diseases (ALL = 10, AML = 5, MM = 4, NHL = 2, CML = 1, MDS = 1, AA = 1), 23 HLA-identical to their siblings and 1 partially matched. Cells were collected from donors by apheresis after G-CSF 10 to 16 mg/kg/day for 4 to 5 days, and stored at 4 degrees C until infusion. The patients were conditioned with chemotherapy regimens including busulfan and cyclophosphamide in the majority of cases and received GVHD prophylaxis with CSA-MTX in all but two. The graft consisted of PBSC alone, with a median of 143.5 (range 18.1-358.9) x 10(4)/kg CFU-GM, 9.0 (range 3.3-18.0) x 10(6)/kg CD34+ cells and 2.8 (range 1.2 to 8.6) x 10(8)/kg CD3+ and cells. An ANC >0.0.5 x 10(9)/L was recovered on (median) day 13 (range 11-17), and a platelet count >50 x 10(9)/L on (median) day 13 (range 12-55) post graft. There was no correlation between CD34+ cells or CFU-GM number in the inoculum and time to hematologic reconstitution. Acute GVHD (grade II-IV) occurred in 10 out of 22 (45%), chronic GVHD in 10 out of 18 evaluable (55%) patients. We found no relationship between occurrence of acute or chronic GVHD and number of CD3+ cells in the graft. Four patients relapsed and 7 died after transplantation. Fifteen patients are currently alive and disease-free 67 to 710 (median 286) days from the graft. Allogeneic transplantation with unmanipulated PBSC ensures a fast and stable engraftment. Acute GVHD incidence and severity seems comparable to that of bone marrow transplantation, but there may be an increase in chronic GVHD, mainly of the extensive form.
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PMID:Transplantation of unmanipulated allogeneic PBSC: preliminary report on 24 patients. 957 Jun 80


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