Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0002874 (aplastic anemia)
5,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Over a period of 8 years 11 of 64 patients seen at Loyola University Medical Center with the diagnosis of myelodysplastic syndrome (MDS) also exhibited bone marrow hypoplasia (marrow cellularity of 25% or less) at presentation. The other 53 had normocellular or hypercellular marrow. Clinical features, hemograms, chromosome analysis, incidence of progression to acute leukemia or aplastic anemia, and survival in each group were compared. Using the French-American-British (FAB) classification, there were seven patients with refractory anemia (RA), one refractory anemia with ringed sideroblasts (RARS), and three refractory anemia with excess blasts (RAEB) in the hypoplastic MDS group. Those with normocellular or hypercellular marrow included 22 with RA, nine with RARS, 12 with RAEB, three with chronic myelomonocytic leukemia, and four with RAEB in transformation; one had chronic diGuglielmo syndrome and two patients were not classified. Patients with hypoplastic MDS had lower hemoglobin levels (median, 8 g/dl versus 9 g/dl), more severe leucopenia (median 3100/microliter versus 4200/microliter) and thrombocytopenia (median, 28,000/microliter versus 75,000/microliter), and marked macrocytosis (mean corpuscular volume (MCV), 107 mu 3 versus 97 mu 3). Nine patients with hypoplastic MDS had a chromosome analysis of the bone marrow, and all were normal. In those with normocellular or hyperplastic bone marrow, 22 such analyses were done, and seven (23%) were abnormal. One patient (11%) from the hypoplastic group and 11 (23%) from the normocellular or hyperplastic MDS transformed into acute leukemia. None progressed to aplastic anemia. With a mean follow-up time of 33 months in the hypoplastic MDS, eight patients (72%) are alive. In the group with normal or hyperplastic MDS, the mean follow up was 47 months, and 27 patients (50%) have survived. The two groups differ significantly in leukocyte count (P less than 0.0015), platelet count (P less than 0.0001), and MCV (P less than 0.0023). There may be a possible difference between these groups related to abnormal karyotype, but it is not statistically significant (P = 0.06). Therapy with pyridoxine, folic acid, prednisone, anabolic steroids, retinoids, or low-dose cytosine arabinoside was not beneficial in hypoplastic MDS. Hypoplastic MDS appears to be a distinct clinicopathologic entity characterized by marrow hypoplasia, macrocytosis, severe leucopenia and thrombocytopenia, low incidence of progression to acute leukemia, and unresponsiveness to conventional therapy.
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PMID:Hypoplastic myelodysplastic syndrome. 340 76

The authors report hematologic and cytogenetic data on 19 patients treated with allogeneic bone marrow transplantation (BMT) for severe hematologic disorders: 8 patients with chronic myelogenous leukemia, 6 with acute leukemia, 3 with severe aplastic anemia, 1 with refractory anemia, and 1 with beta-thalassemia major. Cytogenetic assays were performed on marrow cells before conditioning, 30 days after BMT, and at subsequent times. The authors discuss the role of cytogenetic studies in the evaluation of bone marrow engraftment, leukemic transformation of the graft, and disease relapse.
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PMID:Cytogenetics and bone marrow transplantation. 351 73

Bone marrow failure encompasses a broad spectrum of disorders including aplastic, dysmyelopoietic and myelophtisic anemias. In the present study, these anemias were characterized according to the degree of erythroid proliferation and efficiency of erythropoiesis. Total erythropoietic activity was evaluated in 43 patients by measuring the erythron transferrin uptake (ETU). It averaged 20% of basal (range 3-43%) in 13 patients with severe aplastic anemia, 75% of basal (range 60-103%) in 3 patients with extensive bone marrow infiltration by neoplastic cells, 131% of basal (range 50-217%) in 16 patients with refractory anemia, and 452% of basal (range 63-720) in 11 patients with idiopathic refractory siderobastic anemia. Respective efficiencies of erythropoiesis were 74% in aplastic anemia, 70% with bone marrow infiltration, 46% in refractory anemia, and 14% in sideroblastic anemia. Based on the ETU, patients could be categorized into absolute marrow failure, relative marrow failure, and adequate erythropoietic response to anemia. This simple determination of proliferating activity of the erythroid marrow can provide useful information on the pathophysiology of marrow failure and a basis for the selection of therapeutic approaches.
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PMID:Pathophysiological classification of acquired bone marrow failure based on quantitative assessment of erythroid function. 365 64

Nine patients with refractory anemia were studied using the soft agar marrow culture assay (CFU-c) to identify granulocyte-monocyte progenitor cells. Patients' marrows were then cocultured with normal marrow to identify suppressor cells that inhibit normal colony formation. Three of nine patients had low colony formation and no suppression in coculture. These patients may have a defect intrinsic to the marrow granulocyte-monocyte progenitor cell, termed type I. Three of nine patients had normal colony formation and no suppression in coculture, possibly representing a type II defect in the hemopoietic environment. Three of nine patients had low colony formation in the CFU-c assay and their marrow contained cells that suppressed colony formation by normal marrow in coculture. This defect, termed type III, may result from suppressor cells. Thus, refractory anemia may be a syndrome resulting from at least three different pathogenetic mechanisms involving defects in (1) stem cells, (2) the marrow environment or (3) suppressor cells. This may represent one end of the spectrum of pancytopenia with diminished cellularity (aplastic anemia) or normal cellularity (refractory anemia) resulting from similar mechanisms.
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PMID:Studies on the pathogenesis of refractory anemia. 644 79

Ten patients with aplastic anemia (AA) and seven patients with refractory anemia (RA) were treated with recombinant human granulocyte colony-stimulating factor (rhG-CSF) and erythropoietin (rhEpo) in combination. rhG-CSF (5-20 micrograms/kg) and rhEpo (120-720 U/kg) were administered by s.c. injection three times a week for at least six months, and the administration was continued as maintenance therapy for as long as possible when hematological responses were observed. Six (60%) of the ten AA patients and four (58%) of the seven RA patients showed multilineage responses. Of these responders, six patients achieved trilineage recovery. While all of the responders were dependent on red blood cell transfusions and eight of them required platelet transfusions before treatment, they now no longer need transfusions of either red blood cells or platelets. A median treatment duration of 9 (range 1 to 28) months was required to achieve multilineage recovery. The responders showed an ability to maintain the multilineage recovery for 9+ to 47+ months and to tolerate long-term treatment. These results indicate that the long-term treatment with rhG-CSF and rhEpo may benefit a substantial percentage of patients with AA and RA and provide an optional therapy for these patients.
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PMID:Trilineage recovery by combination therapy with recombinant human granulocyte colony-stimulating factor and erythropoietin in patients with aplastic anemia and refractory anemia. 753 79

A 19-year-old male who suffered from severe aplastic anemia had been treated with granulocyte colony stimulating factor (G-CSF) from September 1991. Marked increase of hematopoietic cells in his bone marrow was observed, and maintenance administration of G-CSF was continued. 15 months later, myeloblasts with nuclear abnormality increased, and 22 months later, myeloblasts with chromosomal abnormality presenting 46, XY, -7, +21 exceeded 20%, and aplastic anemia seemed to be transformed into refractory anemia with excess of blasts in transformation (RAEB in T). The usefulness of G-CSF in the treatment of aplastic anemia is now established, but there are some reports questioning the effect of long-term administration, especially transformation to MDS with monosomy 7. Leukemic transformation from aplastic anemia is very complex, but in some cases, long term administration of G-CSF may affect the natural course and may lead to the earlier development of leukemia.
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PMID:[RAEB in T with monosomy 7 after treatment of severe aplastic anemia with long term G-CSF]. 754 Feb 27

We developed a sensitive method of measurement of granulocyte colony-stimulating factor (G-CSF) by an enzyme-linked immunosorbent assay, which we applied in the plasma of the bone marrow aspirate in 70 patients with various hematological disorders. The lowest limit of detection by this method is 2 pg/ml. G-CSF was detected in all but two of the patients. Compared to the G-CSF level in normal healthy controls, those in non-Hodgkin's malignant lymphoma, aplastic anemia, agranulocytosis and multiple myeloma were significantly higher, while the level in refractory anemia was not different. The G-CSF level in acute myelogenous leukemia patients was either elevated or decreased regardless of the French-American-British subgroup. The level in acute lymphoblastic leukemia was not different from the normal value, as was that in refractory anemia with an excess of blasts, and that in chronic lymphocytic leukemia. A patient with chronic myelomonocytic leukemia showed initial elevation of G-CSF with normalization after entering complete remission. The G-CSF level in chronic myelogenous leukemia was significantly decreased, although one patient in hematological remission who was under alpha-interferon therapy showed normal levels. The level in polycythemia vera was not significantly different from the normal value. The G-CSF level for the entire group showed an inverse, although not statistically significant, correlation with the percentages of myeloid cells of the bone marrow (r = -0.174, p = 0.1703, n = 80). These results are thought to reflect the regulatory mechanism of granulopoiesis in the bone marrow in various hematological disorders, and it is concluded that this method may be of clinical use in the treatment of patients with these disorders and in the selection of candidates likely to benefit from G-CSF administration.
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PMID:The levels of granulocyte colony-stimulating factor in the plasma of the bone marrow aspirate in various hematological disorders. 872 2

We studied spontaneous cytokine production by peripheral blood mononuclear cells (PBMC) obtained from 14 patients with aplastic anemia (AA) and 28 various myelodysplastic syndromes (MDS). The levels of interleukin-6, interleukin-1 beta, and tumor necrosis factor-alpha in cultured PBMC were measured by ELISA. The average levels of these cytokines were higher in AA or in refractory anemia (RA) than in RA with excess of blasts (RAEB) or in RAEB in transformation (RAEB-T). Marked cytokine overproduction was observed in RA as well as in AA. High cytokine levels were observed in hypocellularity and low blast cell counts in the bone marrow. These results may suggest that the increase of cytokines may be a reactive response in hypocellular bone marrow.
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PMID:Spontaneous cytokine overproduction by peripheral blood mononuclear cells from patients with myelodysplastic syndromes and aplastic anemia. 756 74

Clonality analysis, by means of polymorphisms of X-linked genes and their methylation patterns, was performed in 41 female patients with various types of refractory anemia. Bone marrow cells, peripheral blood cells, and granulocytic and lymphocytic fractions were analysed by Southern blotting with PGK, HPRT, and M27 beta probes. Clonal hematopoiesis was evidenced in 8 of 19 patients with aplastic anemia, 4 of 6 patients with RA or RARS, 3 of 7 patients with PNH, and 5 of 9 patients whose hematological characteristics did not meet the criteria of either of these entities. For aplastic anemia, clonal hematopoiesis was demonstrated in higher frequency in the patients who had longer history after diagnosis. In refractory anemia, as a whole, no clear correlation was observed between existence of clonal hematopoiesis and morphological characteristics of hematological cells.
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PMID:[Clonality in refractory anemia]. 809 42

Hematologic and cytogenetic data were collected on 401 myelodysplastic syndromes (MDS) patients in Japan and their clinical relevance was analyzed. More than 50% of the MDS patients with hypocellular bone marrow had > 5% marrow blasts at the time of MDS diagnosis and frequently had complex aberrations (chromosome changes at three or more regions). They showed peripheral blood findings resembling those of aplastic anemia, but progression into leukemic phase and the prognosis tended to mimic typical MDS. In MDS patients with minimal dysplasia, hematologic parameters were different from those of aplastic anemia. However, the low incidence of leukemic transformation and the favorable prognosis was similar to that of aplastic anemia. More than 90% of the patients in this group had refractory anemia and had normal karyotypes. Thus differential diagnosis from a low grade aplastic anemia is important, since this type of MDS might have a clonal nature as well. In conclusion, although some hematologic and clinical deviations are noticed in MDS with hypocellular marrow or minimal dysplasia, these MDS subtypes might constitute marginal forms of MDS.
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PMID:Clinical and cytogenetic findings of myelodysplastic syndromes showing hypocellular bone marrow or minimal dysplasia, in comparison with typical myelodysplastic syndromes. 821 12


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