Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026986 (myelodysplastic syndrome)
 14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Quantitative and qualitative evaluations of erythrocyte ferritin in 161 patients with RA and RAEB in MDS, AML, CML, PV, PA, HS, IDA, chronic liver disease and alcoholic liver disease were carried out. Mean erythrocyte ferritin levels of patients with RA, AML, PA, HS and alcoholic liver disease were increased compared with normal subjects. On isoelectric focusing analyses (IEF), erythrocyte ferritin in normal subjects were detected between pI 5.1 and 5.7. In the cases of RA, pI ranges of erythrocyte ferritin may be divided into three groups, acidic, neutral, basic shift on IEF respectively. In these groups, the more acidic the ferritin shift, the higher the proportion of morphological abnormalities of the erythroid precursors in the bone marrow was observed. In patients with AML (M2, M3, M4), little difference was found among these three subtypes, and all of the cases showed similar pattern with normal subjects on IEF. The ferritin from IDA showed low levels and slight basic shift compared with normal subjects on IEF, and these features were also found in patients with CML (chronic phase) and PV. After iron supplementation, marked increase of acidic ferritin was detected on IEF indicating an intermediate store for iron destined for haem synthesis. It was clear that the stainable iron in liver parenchymal cells were found at erythrocyte ferritin concentration 20 ag/cell or over in patients with chronic liver disease. Measurement of erythrocyte ferritin concentration is a helpful method for evaluating iron deposition in hepatocyte non-invasively. From these results it is considered that quantitative and qualitative analyses of erythrocyte ferritin are very useful for evaluating erythropoiesis as well as iron metabolism.
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PMID:[Clinical significance of erythrocyte ferritin]. 189 Jul 34

The aim of the present work was to perform a prospective analysis of the significance of macrocytic red cells through the study of all patients with MCV higher than 105 fl (those treated with cytotoxic or immunosuppressing drugs were excluded). Conventional clinical, haematologic and biochemical studies were carried out on every patient, along with B12 and folate levels, bone marrow examination and bone marrow karyotype and, whenever B12 deficiency was present, complete Schilling's test. Special attention was paid to the aetiological inquiry and post-therapeutical course. A series of 109 patients was collected. Decreased serum B12 rates with abnormal Schilling's test and response to parenteral therapy were present in 26 cases (24%). Of them, 22 fulfilled the diagnostic criteria for Biermer's anaemia, while in the remaining 4 there was impaired intestinal absorption. Serum or red-cell folate deficiency was found in 34 other cases (31%). Alcoholism was present in 20 of them, abnormal diet in 10, malabsorption syndrome in 2, and excessive demands in 2 others. Hence, vitamin deficiency underlay macrocytosis in 60/109 cases (55%). In the remaining 49 cases (45%) macrocytosis was not accompanying folate or B12 deficiency. Of these, severe liver disease was found in 16 patients (alcoholic in 15 and post-hepatitis in 1 case), with increased serum B12 in 10 cases and increased serum or erythrocytic folate in 3 others. Nineteen patients within this group had primary myelodysplastic syndromes (RA, 8; SRA, 4; RAEB, 7), and the remaining 14 cases had several haematological (AIHA, 4; CLL, 1, T-cell lymphoma 1, M-6, 1, and myelofibrosis with myeloid metaplasia, 2) or non-haematological diseases (heart insufficiency, 2; COPD,3).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Hematologic significance of erythrocytic macrocytosis: prospective analysis of 109 successively studied cases]. 271 Dec 82

Because of the widespread use of multiparameter hematology instruments, physicians are often presented with patients who have macrocytosis with no obvious cause. Depending on the demographics of an individual practice, folate and vitamin B12 deficiencies may be relatively rare causes of macrocytosis, compared with alcoholism, liver disease, drugs, or myelodysplasia. Initial evaluation should include a carefully taken history and physical examination along with a complete hematologic profile, reticulocyte count, and peripheral blood smear. This initial evaluation should allow systematic consideration of the possible causes. Serum B12 and red cell folate determinations and other studies may then be undertaken as appropriate.
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PMID:A systematic approach to macrocytosis. Sorting out the causes. 775 41

The red-cell mass is continuously adjusted to the optimal size for its function as an oxygen carrier by messages transmitted to the bone marrow from an oxygen sensor in the kidney. These messages are mediated by the hormone erythropoietin. Erythropoietin is a glycoprotein growth factor synthesized by cells adjacent to the proximal renal tubule in response to signals from a renal oxygen-sensing device, probably a heme protein (1). In the bone marrow, erythropoietin binds to and activates specific receptors on the erythroid progenitor cells (2). In the presence of this erythropoietin-receptor complex the progenitor cells continue their predestined development into mature erythrocytes. Erythropoietin was the first hemopoietic growth factor to be molecularly cloned in 1985 (3). Our understanding of the biology and physiology of erythropoietin has been considerably improved with the advent of recombinant human erythropoietin (rHuEpo). During the past 7 years, rHuEpo has undergone extensive testing in clinical trials. It has been approved for treatment of the anemia of chronic renal failure, both in progressive renal failure and endstage renal failure (ESRD). In these instances, the administration of rHuEpo has been used in effect as a substitutive therapy, since patients' erythropoietin levels are very low despite severe anemia, due to the failure of affected kidneys to produce adequate amounts of the hormone. However, the application of rHuEpo has now moved largely from the primitive indication of renal diseases, and the hormone is currently under study in a number of anemic states of different etiologies, even with relatively high serum erythropoietin levels. Among these, some of the best documented indications are the anemia associated with malignancies, either due to neoplastic bone marrow infiltration or to chemotherapy-related myelosuppression, the anemia of myelodysplastic syndromes and AIDS, the anemia of chronic inflammatory diseases, prematurity, and bone marrow transplantation (4). The purpose of this review is to provide a summary of our present knowledge regarding rHuEpo therapy for the anemia of renal failure. We provide some clues for the correct use of rHuEpo in the treatment of the anemia of chronic inflammatory diseases. In addition, we address a series of new issues in the attempt to better understand the relationship between erythropoietin and liver disease.
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PMID:Erythropoietin and the anemia of chronic diseases. 840 91

The Mpl ligands are a family of closely related hematopoietic growth factors that bind to the thrombopoietin receptor, c-Mpl. In addition to the endogenous Mpl ligand, thrombopoietin, two recombinant Mpl ligands, recombinant thrombopoietin and pegylated megakaryocyte growth and development factor (PEG-MGDF) are under investigation. Endogenous thrombopoietin regulates most of the normal production of platelets but also is essential for the normal development of other lineages. When recombinant thrombopoietin or PEG-MGDF is administered to normal animals or humans, there is a dose-dependent increase in the platelet count but no effect on leukocytes or erythrocytes. When administered following chemotherapy in animal models or humans, Mpl ligands reduce the duration and sometimes the degree of thrombocytopenia. The Mpl ligands also may be effective in reducing the thrombocytopenia of patients with HIV infection, liver disease, myelodysplasia, or after plateletpheresis.
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PMID:In vivo effects of Mpl ligand administration and emerging clinical applications for the Mpl ligands. 920 31

We describe two patients with mevalonate kinase deficiency and prominent hematologic abnormalities and cholestatic liver disease. Patient R.B. was not anemic at birth, but developed petechiae and cutaneous extramedullary hematopoiesis, hepatosplenomegaly, leukocytosis, and recurrent febrile events without positive bacterial or viral cultures. Patient N.M. manifested minor anomalies, hepatosplenomegaly, anemia, thrombocytopenia, recurrent febrile crises, and facial rashes. Mevalonic aciduria was found by urinary organic acid analysis, and mevalonate kinase deficiency was documented in both. The clinical spectrum of normocytic hypoplastic anemia, leukocytosis, thrombocytopenia, and abnormal blood cell forms led to diagnoses of congenital infection, myelodysplastic syndromes, or chronic leukemia in these patients before recognition of mevalonate kinase deficiency. Mevalonate kinase deficiency represents a single-gene abnormality that may be associated with significant hematologic findings. Recognition of the variability of this disorder with some patients manifesting only mild neurologic findings, yet significant hepatosplenomegaly, normocytic anemia, thrombocytopenia, and leukocytosis is important for all specialists who need to be aware of this organic aciduria.
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PMID:Hematological abnormalities and cholestatic liver disease in two patients with mevalonate kinase deficiency. 971 5

Since the purification of thrombopoietin 6 years ago, c-Mpl ligands such as recombinant human thrombopoietin (rhTPO) and pegylated recombinant human megakaryocyte growth and development factor (PEG-rHuMGDF) have undergone extensive clinical investigation. Both recombinant forms have been shown to reduce the thrombocytopenia associated with nonmyeloablative chemotherapy. Several areas of research have been identified for further clinical development of c-Mpl ligands. One future direction is to continue to explore the intravenous route of administration of rhTPO and PEG-rHuMGDF, as well as fusion proteins of interleukin-3-thrombopoietin and thrombopoietin peptide mimetics, which may be as potent as thrombopoietin, but may lack antigenicity. Another focus would be on the use of these molecules in treating non-chemotherapy-induced thrombocytopenia associated with myelodysplastic syndrome (MDS), idiopathic thrombocytopenic purpura (ITP), human immunodeficiency virus (HIV)-related ITP, and liver disease. Additionally, c-Mpl ligands may have a role in improving apheresis yields when administered to normal platelet donors. Considerable data demonstrate the effectiveness of PEG-rHuMGDF in raising the platelet yields in apheresis donors. In the past few years, investigation into the use of thrombopoietin for ex vivo expansion of pluripotent stem cells has been extensive. Last, thrombopoietin may serve as a radioprotectant by preventing radiation-induced apoptosis of pluripotent stem cells. In the coming years, the clinical role of rhTPO, PEG-rHuMGDF, and related molecules such as the thrombopoietin peptide mimetics will probably be established for both chemotherapeutic and nonchemotherapeutic indications.
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PMID:Future directions with platelet growth factors. 1083 Dec 88

Thrombocytopenia is a common medical problem for which the main treatment is platelet transfusion. Given the increasing use of platelets and the declining donor population, identification of a safe and effective platelet growth factor could improve the management of thrombocytopenia. Thrombopoietin (TPO), the c-Mpl ligand, is the primary physiologic regulator of megakaryocyte and platelet development. Since the purification of TPO in 1994, 2 recombinant forms of the c-Mpl ligand--recombinant human thrombopoietin (rhTPO) and pegylated recombinant human megakaryocyte growth and development factor (PEG-rHuMGDF)--have undergone extensive clinical investigation. Both have been shown to be potent stimulators of megakaryocyte growth and platelet production and are biologically active in reducing the thrombocytopenia of nonmyeloablative chemotherapy. However, neither TPO has demonstrated benefit in stem cell transplantation or leukemia chemotherapy. Other clinical studies have investigated the use of TPO in treating chronic nonchemotherapy-induced thrombocytopenia associated with myelodysplastic syndromes, idiopathic thrombocytopenic purpura, thrombocytopenia due to human immunodeficiency virus, and liver disease. Based solely on animal studies, TPO may be effective in reducing surgical thrombocytopenia and bleeding, ex vivo expansion of pluripotent stem cells, and as a radioprotectant. Ongoing and future studies will help define the clinical role of recombinant TPO and TPO mimetics in the treatment of chemotherapy- and nonchemotherapy-induced thrombocytopenia.
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PMID:Recombinant human thrombopoietin: basic biology and evaluation of clinical studies. 1241 15

Necrolytic migratory erythema is a cutaneous paraneoplastic manifestation, which is usually associated with a glucagon-secreting pancreatic tumor. However, it also may occur in other circumstances in which serum glucagon is elevated, as in hepatic cirrhosis. Rarely, necrolytic migratory erythema is reported in association with a jejunal and rectal adenocarcinoma or villous atrophy of the small intestine without any evidence for increased serum glucagon levels. In this context we report the case of an 85-year-old male with myelodysplastic syndrome who developed typical necrolytic migratory erythema without glucagonoma syndrome or evidence for other pancreatic or liver disease. We suggest that, in addition to the diseases listed, myelodysplastic syndrome might be able to cause necrolytic migratory erythema.
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PMID:Necrolytic migratory erythema with myelodysplastic syndrome without glucagonoma. 1575 25

Late-onset erythropoietic protoporphyria (EPP) is a rare complication of myelodysplastic syndrome (MDS) but has not been described in association with a myeloproliferative disorder (MPD). EPP is normally an inherited disorder characterized by photosensitivity that starts in early childhood and results from overproduction of protoporphyrin secondary to ferrochelatase (FECH) deficiency. Severe liver disease occurs in 1% to 2% of patients. Here we report that severe photosensitivity and cholestatic liver disease in a patient with a myeloproliferative disorder was caused by excess protoporphyrin production from a clone of hematopoietic cells in which one FECH allele had been deleted. Our observations suggest that the usual explanation for the association of late-onset EPP with MPD and MDS is acquired somatic mutation of one FECH allele in bone marrow and show for the first time that the consequent overproduction of protoporphyrin may be severe enough to cause acute liver damage.
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PMID:Photosensitivity and acute liver injury in myeloproliferative disorder secondary to late-onset protoporphyria caused by deletion of a ferrochelatase gene in hematopoietic cells. 1615 Sep 49


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