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)

The clonalities in white blood cells (WBC) of blood and nucleated bone marrow cells from patients with refractory anaemia and aplastic anaemia were examined by polymerase chain reaction (PCR) methods using the polymorphic short tandem repeat (STR) on the human androgen-receptor gene (HUMARA). Peripheral blood samples were obtained from 12 female patients, six with aplastic anaemia (AA) and six with refractory anaemia (RA). Peripheral blood was fractionated into granulocytes, lymphocytes, T lymphocytes and B lymphocytes. DNA was extracted from each fraction. Bone marrow samples were obtained from seven female patients (three with AA and four with RA). Sorted CD34 positive cells were cultured in a semisolid culture system. DNA was extracted from a 14-day haemopoietic colony. The clonal pattern was assessed using HUMARA gene STR polymorphism and the differential methylation pattern of nearby cytosine residues by PCR methods. Four of six (67%) AA and two of six (33%) RA patients had a monoclonal proliferating pattern in their granulocytes. The ratio of the numbers of minority colonies per majority colonies (m/M ratio) was examined for seven patients (three AA and four RA). In patients who had a clonal haemopoietic pattern in peripheral WBC the ratio was under 0.4 but not zero. In contrast, patients exhibiting a polyclonal pattern had an m/M ratio above 0.8. We concluded that some normal or heterogenous haemopoietic clones, not only MDS but also AA, may remain in the bone marrow, although almost all colonies were derived from a single pathogenic clone when the clonality pattern exhibited monoclonality in peripheral blood analysis.
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PMID:Clonal analysis of peripheral blood and haemopoietic colonies in patients with aplastic anaemia and refractory anaemia using the polymorphic short tandem repeat on the human androgen-receptor (HUMARA) gene. 777 20

We have presented a working hypothesis showing the possible interrelations between proliferative, aproliferative and autoimmune disorders that may follow infection with lymphotropic herpesviruses. Aproliferative disorders in this context may also indicate immune or hematopoietic deficiency. Although this hypothesis can currently be best documented with the lymphotropic viruses (herpesviruses as well as similarly HTLV and HIV), the model may apply as well--with certain variations--to other viral infections such as with hepatitis virus B or C with acute or chronic infectious diseases, post-infectious arthritis, aplastic anemia, and other autoimmune liver diseases, as well as neoplastic diseases (hepatocellular carcinoma, chronic lymphocytic leukemia). The working hypothesis as depicted in Figure 2 permits a preview of which combinations of symptoms may occur in an individual disease independent of its initial classification and what clinical testing should be done respectively, and it also permits certain prognostic considerations. The above-mentioned transitions or combinations of various disease patterns have been repeatedly described in the medical literature (to refer to only a few examples: APL and MPD, HD and MDS, SLE and aplastic anemia, SLE and Kikuchi's disease; 23, 80-83). Finally the hypothesis can ideally serve as the basis for future planning of clinical research.
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PMID:A unifying concept of viral immunopathogenesis of proliferative and aproliferative diseases (working hypothesis). 789 76

Between January 1986 and July 1990, 17 patients with acquired aplastic anemia were treated with ALG or ATG combined with high doses of methylprednisolone. The mean age was 24.3 years (from 4 to 51 years). There were 9 cases with idiopathic etiology of acquired aplastic anemia; in 7 cases aplastic anemia was developed during or after HBsAg infection. In one case aplastic anemia was developed during tuberculous kidney infection. The remission of the disease was achieved in 11 of 17 cases (complete remission in 9-53%, and partial in 2-12% patients). Six (35%) patients did not respond to the treatment with ALG. One patient died of infection and hemorrhagic complications, two weeks after the therapy, without responding to the treatment with ALG. The four year survival rate without recidives was 65% (11/17). Four (23.5%) patients developed clonal diseases: PNH in 2; MDS in 1 and AL in 1 patient, 24, 38, 9 and 6 months after the therapy with ALG, respectively. The age of the patients is a valuable prognostic parameter (all patients under 20 years of age entered the remission), which cannot be said for pretreatment levels of reticulocytes, neutrophils and platelets. In none of the patients adverse effects of ALG were observed. The treatment was conducted in isolated rooms with sterile air circulation. ALG combined with high doses of methylprednisolone, for the majority of patients with aplastic anemia represents a drug of choice and is an appropriate alternative therapy to alogenic bone marrow transplantation, especially for patients with no HLA identical bone marrow donor.
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PMID:[Antilymphocyte globulin in the treatment of aplastic anemia]. 796 29

To assess p53 expression in the hematopoietic cells of the bone marrow in premalignant as well as malignant conditions, we examined immunohistochemically bone marrow biopsies from patients with myelodysplastic syndromes (MDS, n = 51), acute myeloid leukemia (n = 42) and as a nonneoplastic condition, aplastic anemia (n = 20) and samples from individuals who had no hematological disorder (control, n = 12). Nuclear accumulation of p53 protein was found in seven of 51 patients with MDS (14%) and two of 42 acute myeloid leukemia patients (5%), whereas patients with aplastic anemia and control subjects were uniformly negative for p53 protein. In the bone marrow of patient with MDS, p53-positive cells constituted about 5 to 30% of the total bone marrow cells. Two-color immunohistochemical analysis revealed that the p53-positive cells were also positive for the myeloid cell marker. Half of the MDS cases that evolved to overt leukemia (seven of 14) exhibited positive p53 reaction in the bone marrow at the time of initial diagnosis. This frequency (50%) was significantly higher than that in de novo acute myeloid leukemia cases. All of the seven MDS cases that exhibited p53 expression at the time of initial diagnosis developed overt leukemia later, and p53 expression was maintained throughout the progression of MDS. The results suggest that p53 mutations that occur in the myeloid cells in MDS may confer a growth advantage to these cells resulting in the progression to overt leukemia. Thus, immunohistochemical examination for p53 is very useful for predicting the evolution to overt leukemia from MDS.
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PMID:p53 expression in myeloid cells of myelodysplastic syndromes. Association with evolution of overt leukemia. 805 92

In this study, cases of myelodysplasia diagnosed in a brazilian population are reported. Some differences such as a higher number of cases of hypocellular bone marrow (45.6%) were observed. There was no significant difference between patients that developed acute leukemia or not, when some bone marrow parameters such as cellularity, abnormality in reticulin fibers presence of atypically located immature precursors (ALIP), quantitative and qualitative changes of erythroblastic, granulocytic and megakaryocitic series were compared. There was no correlation either between ALIP and excess of blasts in cytology, or between FAB classification and bone marrow histology. Patients with hypocellular marrow presented lower frequency of atypic megakaryocitc than patients with normo or hypercellular bone marrow and a shorter, although not statistically significant survival. The survival of patients with ALIP was significantly lower than of those without ALIP. Cases of RAEB had a worse prognosis when compared to RA. Bone marrow histology had an important role in the differential diagnosis between MDS with hypoplastic marrow and aplastic anemia.
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PMID:The role of bone marrow study in diagnosis and prognosis of myelodysplastic syndrome. 807 1

Allogeneic bone marrow transplantation (BMT) is potentially curative therapy for leukemia, lymphoma, and marrow failure. Ninety-two patients have received allogeneic BMT at Oklahoma Memorial Hospital in the past 10 years. Patients with acute myelogenous leukemia (AML; N = 30), chronic myelogenous leukemia (CML; N = 27), acute lymphoblastic leukemia (ALL; N = 12), myelodysplastic syndromes (MDS; N = 8), lymphomas (N = 8), and aplastic anemia (N = 7) were treated with a variety of myeloablative preparative regimens. The major causes of mortality were bacterial, viral, and fungal infections, or disease relapse. Standard and high risk (refractory or multiply-relapsed disease) AML, CML, and ALL patients had median survivals of 14.5 months vs. 3 months, > 18 months vs. 9 months, and 10 months vs. 4.5 months (p = 0.01), respectively. At 7.5 years median follow-up, 71% of the aplastic anemia patients are disease-free. Guidelines for the optimal time for BMT have been developed that encourage transplantation earlier in the course of the disease, thus facilitating better outcomes with these otherwise fatal disorders.
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PMID:Allogeneic bone marrow transplantation: experience with 92 patients. 812 87

With a newly developed enzyme linked immunosorbent assay kit TOYOBO Co. in which 2 anti-EPO monoclonal antibodies were used, we assayed EPO concentration in sera from normal adults, 168 patients with renal failure and 333 patients with hematological disorders. In the patients with renal failure, serum EPO level was normal (52.9%) or reduced (42.9%), and there was no correlation to their hematocrits. However, there was an increment in EPO concentration correlated to their severity of anemia in the most patients with hematological disorders, such as iron deficiency anemia (correlation coefficient r = -0.74), aplastic anemia (r = -0.89), leukemia (r = -0.81), and MDS (r = -0.65). On the other hand, EPO concentration in sera from all the untreated patients with polycythemia vera were significantly low level. But the concentrations of EPO from the patients successfully treated, with normal hematocrit were recovered to normal level. In the patients with secondary polycythemia, there were much varieties in EPO level. Assay of EPO in blood is important not only for diagnosis of polycythemia but also for the analysis of anemia and clinical use of EPO in vivo. The method described here is accurate and technically not complicated, and could be widely induced in most laboratories.
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PMID:[Assay of erythropoietin in serum with short term enzyme linked immunosorbent assay method--the clinical significance, Part 1: Relation to anemia in renal failure and hematological disorders]. 834 55

With a newly developed short term enzyme linked immunosorbent assay kit (TOYOBO Co.), in which 2 kinds of anti-EPO monoclonal antibodies were used, we assayed EPO concentration in sera from patients with renal failure and hematological disorders. In this report, the EPO data were analysed in relation to serum iron concentrations, with ferritin and UIBC. In the patients with renal failure, there was no significant correlation between EPO concentration and serum iron, ferritin, nor UIBC concentration. On the other hand, in the patients with hematological disorders, there were two types. One was in patients with iron deficiency anemia, whose serum EPO was negatively correlated to serum iron (r = -0.64) and ferritin (r = -0.59), but positively related to UIBC (r = 0.27). The another was the pattern in patients with aplastic anemia, leukemia and MDS, whose serum EPO positively correlated to iron and ferritin but negatively correlated to UIBC. In the patients with aplastic anemia serum EPO had good correlation to serum iron (r = 0.62), ferritin (r = 0.60) and UIBC (r = -0.46). The relationship of EPO to iron in the patients with leukemia (r = 0.54), and EPO to ferritin in the patients with MDS (r = 0.42) show significantly positive correlation coefficient.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Assay of erythropoietin in serum with short term enzyme linked immunosorbent assay method--the clinical significance: Part 2--:Relation to serum iron, UIBC and ferritin in renal failure and hematological disorders]. 835 May 9

The recovery of colony-forming cell numbers after curative treatment for leukemia and severe aplastic anemia (SAA) was studied. We examined 191 patients (85 acute myeloid leukemia [AML], 48 acute lymphocytic leukemia [ALL], 32 chronic myeloid leukemia [CML], 17 SAA, and nine myelodysplastic syndrome [MDS]) who were in hematologic remission 6 months to 13 years after either curative chemotherapy (n = 69) or allogeneic bone marrow transplantation (BMT) (n = 122) by culturing their precursor cells from bone marrow (BM) (n = 548) and peripheral blood (PB) (n = 529) in methylcellulose. Thirty-six BM donors and 25 PB donors served as controls. BM colony-forming cell numbers were abnormally low in all patients (p < 0.002) irrespective of underlying disorder and type of treatment (chemotherapy or irradiation). These numbers did not normalize with time--colony-forming cells were still strongly reduced up to 10 years after therapy, whether or not the patient had received an allogeneic bone marrow graft (p < 0.002). We also compared patients who remained in stable hematologic remission with those who later relapsed (6 months to 2 years after treatment). BM colony-forming cell numbers were significantly lower in patients who subsequently relapsed (p = 0.004). In contrast to BM cultures, we found normal colony-forming capacity by PB precursors in all patients. We conclude that (1) after chemotherapy or BMT, colony-forming cell numbers of BM in culture are permanently reduced; (2) this defect is probably due to a dysfunction of the BM environment rather than to a numerical reduction of the precursor cell pool; and (3) very low colony-forming capacity may be related to relapse.
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PMID:Colony growth in cultures from bone marrow and peripheral blood after curative treatment for leukemia and severe aplastic anemia. 840 33

The option of bone marrow transplantation (BMT) significantly improved prognosis of adult patients with hematologic malignancies aged less than 50 years. Allogeneic BMT using the marrow of an HLA-identical family member still provides the most effective method of BMT. Conventional indications for this form of BMT are chronic myeloid leukemia (CML), acute leukemias presenting with adverse risk factors, myelodysplastic syndromes and severe aplastic anemia. If performed early in the disease course (e.g. during the chronic phase of CML or first remission of acute leukemia and MDS) allogeneic BMT cures 50 to 60% of patients. About 20% die of therapy related complications, e.g. graft versus host disease (GvHD), fatal infections or venoocclusive disease of the liver (VOD) and about 20% of patients succumb to relapse of their hematologic disorder. 80% presenting with severe aplastic anemia can be cured, if allogeneic BMT is performed soon after diagnosis without previous immunosuppressive therapy and blood transfusions. BMT with the marrow of a matched unrelated donor or autologous BMT are increasingly used as alternative procedures. A rate of lethal complications as high as 50% hinders rapid extension of BMT with unrelated donors. Therefore, this form of BMT should be restricted to young patients with leukemias, who cannot achieve long-term remission with conventional chemotherapy (in case of acute leukemias) or alpha-interferon (in case of CML). Reconstitution of hematopoiesis is more rapid after peripheral blood stem cell transplantation (PBSCT) compared with autologous BMT. Therefore, PBSCT will replace autologous BMT in most cases. Most favourable results of PBSCT have been reported in patients with malignant lymphomas after relapse or inferior response to primary induction therapy. Due to the higher relapse rate autologous BMT is inferior to allogeneic BMT in leukemia patients. Trials are required to clarify the potential role of myeloablative therapy with stem cell support in the treatment of patients with solid tumors. Many of the preliminary results already published are unsatisfactory and data of larger trials are still lacking. Therefore, BMT or PBSCT cannot be recommended generally for the therapy of patients with solid tumors.
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PMID:[Indications, technique and risks in bone marrow transplantation in adulthood]. 864 1


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