Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027819 (neuroblastoma)
 27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Using a database comprising 13,266 cytogenetically abnormal neoplasms, the geographic heterogeneity of neoplasia-associated chromosomal abnormalities was investigated by comparing the frequencies of characteristic aberrations in consecutive series of patients with the same diagnosis. Significant frequency differences between geographic areas were found for the aberrations +8, i(17q), +19, and an additional Ph1 chromosome in chronic myeloid leukemia (CML); -5, 5q-, and +8 in acute nonlymphocytic leukemia (ANLL); t(8;21) in ANLL-M2; t(15;17) in ANLL-M3; 5q- and -7 in myelodysplastic syndromes (MDS); t(9;22) and +21 in acute lymphocytic leukemia (ALL); t(14;18) in follicular lymphoma; -8 and -22/22q- in meningioma; and structural abnormalities of 12q in pleomorphic adenoma of the salivary glands (PAS). No geographic incidence variation was detected for -7 and +21 in ANLL; +8 in MDS; 6q- and +8 in ALL; +12 in chronic lymphocytic leukemia; 6q- in non-Hodgkin's lymphoma (NHL); t(8;14) in Burkitt's lymphoma; t(11;22) in Ewing's sarcoma; i(12p) in germ cell tumors; 1p- in neuroblastoma; structural abnormalities of 3q, 8q, and 9p in PAS; or 3p- in renal cell carcinoma. Intraregional frequency similarities between cytogenetically identical abnormalities in related tumor types were also analyzed. No significant correlations were found regarding the incidence of 5q- in ANLL and MDS, 6q- in ALL and NHL, -7 in ANLL and MDS, +8 in ANLL and CML, +8 in ANLL and MDS, +8 in ALL and ANLL, or +21 in ALL and ANLL. The findings indicate that some geographic heterogeneity of tumor-associated aberrations exists both in hematologic neoplasms and in solid tumors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Geographic heterogeneity of neoplasia-associated chromosome aberrations. 195 98

Evidence for chromosome #1 involvement in structural rearrangements in cancer is reviewed. There have been adequate studies of cancer at most of the common sites, and at all of these, nonrandom chromosome #1 involvement has been demonstrated. In general, a variety of changes is encountered, irrespective of the site; most commonly, however, the changes result in the duplication of long arm material. It seems that these nonrandom changes, which tend to occur at a relatively late stage, may contribute to the progression of all forms of cancer. However, a small number of chromosome #1 aberrations are also now known, which may represent specific and possibly initiating changes in particular forms of cancer. These include short arm deletions in neuroblastoma and translocations in leukemias and myelodysplasia.
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PMID:Chromosome 1 aberrations in cancer. 351 45

Marrow transplantation is effective treatment for a number of hematological diseases in patients under the age of 50 who have an HLA-identical sibling donor. It is successful in the treatment of aplastic anemia with 70-85% long-term survival. It offers 10-30% apparent cures for patients with acute leukemia who have relapsed at least once, and for those with chronic myelocytic leukemia in blast crisis. Although still somewhat controversial, it appears to be the treatment of choice for patients with acute nonlymphoblastic leukemia in first chemotherapy induced remission, and for those with chronic myelogenous leukemia in the chronic phase since approximately 50-60% of these patients experience long-term, disease-free survival. Patients with acute lymphoblastic leukemia grafted in second or subsequent remission may expect a 30% "cure" of their disease. Marrow grafting is the only effective treatment for many patients with inherited immunologic deficiencies and certain genetic storage diseases. Cures of congenital Fanconi's anemia, Blackfan-Diamond anemia, osteopetrosis, paroxysmal nocturnal hemoglobinuria and thalassemia major have been achieved. Marrow transplantation is being explored for the therapy of patients with lymphoma, Hodgkin's disease, preleukemia, multiple myeloma, hairy cell leukemia, small cell lung cancer, testicular cancer, ovarian cancer and neuroblastoma. Marrow transplantation has been limited by the fact that many patients do not have HLA-identical siblings and very few have monozygotic twins. More recently, marrow transplants from HLA-nonidentical family members and even from unrelated donors have been successfully explored.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Marrow transplantation: the Seattle experience. 391 47

We have reviewed the causes and risk factors for early death in a group of 295 children who underwent any form of first bone marrow transplantation (BMT) between 1978 and 1992. The commonest indications for transplantation were acute lymphoblastic leukaemia 80 (27.1%), neuroblastoma 69 (23.3%), immune deficiency 57 (19.3%) and myeloid leukaemias/myelodysplasia 50 (16.9%). There were 120 (40.6%) allogeneic BMTs, 118 (40%) autologous BMTs, while 51 (17.2%) children usually with severe combine immune deficiency received BMT from a non-HLA-identical parent, sibling or other relative (FBMT). Two were from identical twins and four from matched unrelated donors (MUD). Thirty-three children (11.2%) died in the first 100 days; the main causes of death being infection (n = 5), relapse (n = 7), graft failure (n = 4), GVHD (n = 7) and organ failure with or without infection (n = 6). There was no significant change in the incidence of early deaths in the three successive 5 year periods (1978-82, 1983-87, 1988-92) although there was some shift in the causes. Infections were the commonest cause during the first 5 year period, relapses followed by GVHD in the second period and single organ failure followed by GVHD and infections in the third period. The main causes of early death were relapse after high-dose chemo/radiotherapy and autologous BMT (7 of 9 deaths) and GVHD and infection after allogeneic BMT (9 of 13 deaths). In the group of 51 children undergoing FBMT there were five deaths from infection, three from graft failure, one from organ failure and one from GVHD.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Early deaths in children undergoing marrow ablative therapy and bone marrow transplantation. 771 76

Three cases of secondary (therapy-related) hematologic malignant conditions were identified among 95 children as old as 18 years of age; the cases were diagnosed between 1984 and 1990 and consisted of acute lymphoblastic leukemia, acute myeloid leukemia (AML), and myelodysplastic syndrome (MDSs). They constituted 10% of all new cases of AML and MDS seen at the University Hospitals of Cleveland during this time and were not related to congenital factors. The primary malignant conditions were malignant thoracopulmonary tumor (Askin tumor), neuroblastoma, and Burkitt's lymphoma. The secondary hematologic disorders all showed a prominent monocytic component: acute monocytic leukemia, MDSs evolving to acute myelomonocytic leukemia, and chronic myelomonocytic leukemia. The mean interval between treatment for the primary malignant condition and the onset of secondary disease was 36 months. All had received cyclophosphamide and an epipodophyllotoxin for the primary tumor; two were treated with radiation therapy. Cytogenetic abnormalities included del(5), del(13), t(1;6), and t(9;11)(p22[symbol:see text]3). The survival time after the onset of secondary disease was short.
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PMID:Myelodysplastic syndrome and acute myeloid leukemia after treatment for solid tumors of childhood. 837 35

During a four-year period, 86 children with fever lasting for at least 6 days without diagnosis at admission after initial physical examination and preliminary laboratory tests were included in a retrospective analysis. Their ages ranged from 2 months to 16 years, and there were 55 males and 31 females. Bacterial infections occurred in 19 patients (22%), viral infections in 17 (20%), mycoplasmal infections in 3 and malaria in 1. Collagen vascular diseases were diagnosed in 13 children (15%), including 7 juvenile rheumatoid arthritis and 5 systemic lupus erythematosus. Thirteen children (15%) had neoplastic or hematological diseases, including leukemia, lymphoma, myelodysplastic syndrome, and neuroblastoma. The fevers of the other 14 patients (16%) were attributed to central fever. The overall diagnostic rate was 98%. Twenty-two children had a poor outcome, including 6 children with collagen vascular diseases and 12 with neoplasms. Diagnoses were made mainly through a complete medical history, meticulous physical examination, regular laboratory tests, and an observation of clinical course. Invasive tissue studies can be fruitful when used appropriately and should be considered for specific indication only.
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PMID:Prolonged fever in children. 893 8

Eurocord Transplant has established a registry for studying results of cord blood transplant. We have analyzed 78 patients who have received a related CBT between October 1988 and December 1996. The median follow-up time was 29 months (1-99). The median age was 5 years (0.2-20), median weight 19 kg (5-50). Forty-six patients had a malignant disease: 32 acute leukemia (AL), six chronic myeloid leukemia (CML), four myelodysplastic syndrome, two neuroblastoma and two non-Hodgkin lymphoma. Thirty-two patients were transplanted for non-malignant diseases including 17 bone marrow failure syndromes (BMFS), three sickle cell anemia, five thalassemia and seven inborn errors. The donor was an HLA-identical sibling in 60 cases and an HLA-mismatched donor in 18 cases. As conditioning, 36 patients received irradiation and 40 patients received associated busulfan-containing regimens. GVHD prophylaxis consisted of CsA alone in 36 cases, CsA associated with prednisone in eight cases, CsA, methotrexate (Mtx) with or without prednisone in 28 cases and CsA with monoclonal antibody or ATG in four cases. The median number of nucleated cells (NC) infused/kg was 3.9 x 10(7) (0.7-15). One-year survival was 63 +/- 6%. Age, weight, HLA identity and negative cytomegalovirus (CMV) serology in the recipient were significant favorable prognostic factors. Among these 78 patients, the incidence of grade > or = II GVHD was 9% in HLA-matched CBT and 50% in mismatched CBT (P < 0.001). Neutrophil engraftment was associated with age <6 years (P = 0.02) and weight <20 kg (P = 0.02). It was 73% in patients receiving <3.7 x 10(7) nucleated cells (NC) infused/kg and 85% in patients receiving more (P = 0.06). Favorable factors for platelets engraftment were age <6 years (P = 0.03), weight <20 kg (P = 0.002) and HLA identity (P < 0.0001). Related cord blood transplantation offers a good alternative to BMT. Theses results are in favor of freezing cord blood in families in whom a transplant might be indicated.
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PMID:Related cord blood transplants: the Eurocord experience from 78 transplants. Eurocord Transplant group. 971 97

Stem cell transplantations were performed in 69 children at Siriraj Hospital over a ten year period. The source of stem cells was bone marrow (60), peripheral blood (3), or cord blood (6). The diseases treated included 35 thalassemias, 11 Burkitt's lymphoma, five non-Hodgkin's lymphoma, five aplastic anemia, eight acute leukemia, and one each of neuroblastoma, severe combined immunodeficiency, Wiskott-Aldrich syndrome, myelodysplastic syndrome, and pyruvate kinase deficiency. The success rate of stem cell transplantation in Thai children varied according to the underlying diseases of the patients, ranging from 50% in acute leukemia to 100% in aplastic anemia. The outcome of stem cell transplantation in 35 thalassemic children revealed 23 (79.4%) were cured, whereas three (10.3%) remain alive with disease and the other three (10.3%) died. The incidence of graft-versus-host disease was low hen compared with that of Western countries. It is concluded that bone marrow, peripheral blood and cord blood stem cell transplantation will be the treatment of choice and will be widely used in the future to cure many hematologic and malignant disorders in children.
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PMID:Bone marrow, peripheral blood and cord blood stem cell transplantation in children: ten years' experience at Siriraj Hospital. 988 40

Data from the annual survey on transplant activity 1997, collected from 457 transplant teams in 31 European countries by the European Group for Blood and Marrow Transplantation (EBMT) were used to describe current status and to assess relative and absolute changes in indication, donor type and stem cell source compared to 1991. A total of 16950 patients were reported to have a first blood or marrow transplant in 1997, a total of 18 923 procedures, including re- and double transplants were performed. Of the 16950 first transplants, 4751 (28%) were allogeneic, 12199 (72%) autologous transplants. Of the autologous transplants, 829 (7%) were bone marrow derived, 11370 (93%) from peripheral blood stem cells or combined bone marrow and peripheral blood stem cell transplants. Of the allogeneic transplants, 3311 (70%) were bone marrow, 1440 (30%) were peripheral blood stem cell transplants. In 1991, the respective figures were 2175 allogeneic (44%) and 2786 (56%) autologous transplants, more than 90% of the autologous, all allogeneic transplants bone marrow derived. Main indications in 1997 were leukemias with 5253 transplants (31%), 70% allogeneic; lymphomas with 6773 transplants (40%), 94% autologous; solid tumors with 4154 transplants (24%), 99% autologous; non-malignant disorders with 770 transplants (5 %), 85 % allogeneic. There was an absolute increase of 11971 transplants since 1991. An increase was observed in all disease categories. Marked differences were found, when the relative increase index (RII) for specific disease categories over time was analyzed. In allogeneic transplants, relatively more transplants were performed in 1997 for acute myeloid leukemia beyond 1st complete remission (RII 1.28), myelodysplastic syndromes (RII 1.58), chronic lymphocytic leukemia (RII 1.33) and non-Hodgkin's lymphoma (RII 1.58). For autologous transplant indications, a high relative increase index was observed in myelodysplastic syndromes (RII 3.77), in multiple myeloma (RII 2.12) and carcinoma of the breast (RII 6.37) with a relative decrease in leukemias (RII 0.39) and certain solid tumors such as glioma (RII 0.27) and neuroblastoma (RII 0.46). These data present the current status of blood and marrow transplantation in Europe. They show the change from bone marrow to blood as stem cell source and highlight shifts in indication. They provide a basis for patient counselling and health care planning.
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PMID:Blood and marrow transplantation activity in Europe 1997. European Group for Blood and Marrow Transplantation (EBMT). 1045 92

Polycomb group proteins are implicated in embryogenesis and carcinogenesis through transcriptional regulation of target genes. ASXL1 and ASXL2 genes, encoding Polycomb group protein with ASXN and ASXM domains, are human homologs of Drosophila additional sex combs (asx) gene. Exons 2-13 of the ASXL2 gene are fused to exons 1-14 of the MYST3 gene in a case of therapy-related myelodysplastic syndrome due to t(2;8)(p23.3;p11.2). Here, we identified the ASXL3 gene, a novel human homolog of Drosophila asx, by using bioinformatics. ASXL3 gene, consisting of 12 exons, was located within human genome sequences RP11-562H1 (AC023192.8), RP11-265C19 (AC090989.8), and RP11-470B24 (AC010798.9). Complete coding sequence of human ASXL3 cDNA was determined by assembling EST BE145544, exons 4-11, and 5'-truncated KIAA1713 cDNA (AB051500.2). Partial coding sequence of mouse Asxl3 cDNA was derived from 3'-truncated C230079D11 cDNA (AK082659.1). Human ASXL3 mRNA was expressed in pancreatic islet, testis as well as in neuroblastoma, head and neck tumor. Human ASXL3 protein (2248 aa) with ASXN, ASXM and PHD domains was the third member of the human ASXL family. The region between ASXM and PHD domains was divergent among ASXL family members. Proline-rich domain was located within the divergent region of ASXL3, but not within that of ASXL1 and ASXL2. ASXL3-DTNA locus at chromosome 18q12.1 and ASXL2-DTNB locus at 2p23.3 were paralogous regions within the human genome. ASXL3 was a predicted cancer-associated gene, just like ASXL1 and ASXL2. This is the first report on identification and characterization of the ASXL3 gene.
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PMID:Identification and characterization of ASXL3 gene in silico. 1513 7


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