Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The MLL gene, located within band 11q23, has been shown to be involved in translocations with a large variety of reciprocal sites in both lymphoid and myeloid leukemia and has also been shown to undergo submicroscopic self-fusion/partial duplication. We report 29 patients with cytogenetic evidence of 11q23 alteration, all of which demonstrate molecular cytogenetic evidence of amplification of the MLL gene by fluorescence in situ hybridization (FISH). In all MLL cases, the patients were clinically classified as having transforming myelodysplasia (RAEB/RAEBT) or AML. An additional patient with AML was found by 24-color and gene-specific FISH to have AML1 oncogene amplification. Four patients had been previously diagnosed with cancer and had received topoisomerase II targeted drug therapy which is known to be associated with fusion transcripts involving the MLL and AML1 genes. MLL amplification appeared in various forms: an atypical banded region that bridges from 11q23 into a dicentric chromosome, expanded regions emanating from band 11q23, chromosome 11 paint-positive rings with "spoke-like" MLL amplification, and expansion at sites other than chromosome 11 (including extra markers) in the absence of one of the 11 homologues. The fluorescence pattern in most cases suggests palindromic duplication with neighboring sequences in the long arm of chromosome 11. As opposed to MYCN amplification in hsrs (homogeneously staining regions) and double minutes in neuroblastoma, amplification of MLL in most cases occurred at the site of the gene. All of our patients rapidly developed refractory AML. The frequency and clinical correlations of MLL gene amplification in leukemia will need careful follow-up, since the frequently cryptic amplification described in these cases may not generally provoke confirmatory FISH studies. The reported MLL cases represented about 1% of the total abnormal MDS/AML cases over 8 years. A common cytogenetic profile of 5 q-, -17/17 p-, -18/18 q-, and a missing or abnormal chromosome 11, may help direct appropriate follow-up studies. The MLL and the AML1 oncogenes appear to be the only oncogenes amplified at the natural site of the gene. Both genes also show a high degree of diversity of pathogenic mechanisms of leukemia evolution, including numerous reciprocal fusion genes in transformation to either AML or ALL and gain of function amplification.
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PMID:Oncogene amplification in transforming myelodysplasia. 1602 82

Tumour suppressor gene inactivation is critical to the pathogenesis of cancers; such loss of function may be mediated by irreversible processes such as gene deletion or mutation. Alternatively tumour suppressor genes may be inactivated via epigenetic processes a reversible mechanism that promises to be more amenable to treatment by therapeutic agents. The CpG dinucleotide is under-represented in the genome, but it is found in clusters within the promoters of some genes, and methylation of these CpG islands play a critical role in the control of gene expression. Inhibitors of the DNA methyltransferases DNMT1 and DNMT3b have been used in a clinical setting, these nucleotide analogues lack specificity but the side effects of low dose treatments were minimal and in 2004 Vidaza (5-azacitidine) was licensed for use in myelodysplastic syndrome. Methylation inhibitors are also entering trials in conjunction with another class of epigenetic modifiers, the histone deacetylase inhibitors and this epigenetic double bullet offers hope of improved treatment regimes. Recently there has been a plethora of reports demonstrating epigenetic inactivation of genes that play important roles in development of cancer, including Ras-association domain family of genes. Epigenetic inactivation of RASSF1A (Ras-association domain family 1, isoform A) is one of the most common molecular changes in cancer. Hypermethylation of the RASSF1A promoter CpG island silences expression of the gene in many cancers including lung, breast, prostate, glioma, neuroblastoma and kidney cancer. Several recent studies have illustrated the diagnostic and prognostic potential of RASSF1A methylation. This presents RASSF1A methylation as an attractive biomarker for early cancer detection which, for most cancers, results in improved clinical outcome. DNA methylation analysis is applicable to a range of body fluids including serum, urine, bronchioalveolar lavage and sputum. The ease with which these body fluids can be acquired negates the need for invasive procedures to obtain biopsy material. This review will discuss the feasibility of using RASSF1A methylation as a diagnostic and prognostic marker in cancer management.
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PMID:The role of RASSF1A methylation in cancer. 1732 27

The paediatric population of 19 eastern European countries amounts to approximately 80 million children. Between 1985 and 2004, the number of centres performing haematopoietic stem cell transplantation (HSCT) in children increased from 1 in 1985 to 24 in 2004 and the yearly number of paediatric HSCTs rose from 1 in 1985 to 291 in 2004. Altogether, 2342 transplants were reported to the EBMT Registry during this time (Poland 953, Czech Republic 501, Hungary 269, Russia 217, Croatia 129, Slovakia 71, Bulgaria 45, Serbia and Montenegro 36, Slovenia 35, Belarus 33, Estonia 26, Lithuania 19 and Romania 8). Out of the 2342 transplants, 1487 (63.5%) transplants were performed in paediatric centres, 453 (19.3%) in centres for adults and 402 (17.2%) in combined centres. The number of children who underwent autologous HSCT (auto-HSCT) was 1053 (45%), whereas 1289 (55%) underwent allogeneic HSCT (allo-HSCT). Peripheral blood (PB) was the source of HSC in 751 (71.3%) out of 1053 auto-transplants, BM in 246 (23.4%) and PB+BM in 52 (4.9%) (missing data in 4, that is, 0.4%). Among the 1289 allo-transplants, BM was the source of HSC in 827 (64.3%), PB in 416 (32.3%), CB in 23 (1.8%) and BM+PB in 14 (1.1%) (missing data in 9, that is, 0.7%). Among them, 728 (57.4%) obtained HSC from MSD, 322 (25.4%) from UD, 195 (15.4%) from MMFD, 14 (1.1%) from CB family donor and 9 (0.7%) from CB unrelated donor (missing data in 21, that is, 1.6%). The number of children who underwent allo-HSCT for malignant diseases was 945 (73.4%), including ALL 376 (29.2%), AML 234 (18.2%), CML 177 (13.8%), MDS 97 (7.5%), NHL 35 (2.7%) and other malignancy 31 (2.4%), while 339 (26.9%) for non-malignant disorders, including SAA 202 (15.7%), immunodeficiencies 61 (4.7%), inborn errors of metabolism 40 (3.1%), Fanconi anaemia 19 (1.5%) and others 17 (1.3%). Out of 1053 recipients of auto-HSCT, 168 (16%) were transplanted for neuroblastoma, 129 (12.2%) for NHL, 124 (11.7%) for AML, 114 (10.8%) for ALL, 109 (10.4%) for Hodgkin's disease, 62 (5.9%) for Ewing's sarcoma, 16 (1.5%) for CNS tumour, 15 (1.4%) for Wilms tumour and 316 (30%) for other tumours. In 2001, the EBMT in collaboration with the European School of Haematology (ESH) developed the Outreach Programme, that is a programme supporting emerging HSCT projects and transplant centres in countries with limited resources and/or experience.
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PMID:Haematopoietic stem cell transplantation in children in eastern European countries 1985-2004: development, recent activity and role of the EBMT/ESH Outreach Programme. 1854 32

An 8-year old child had a pelvic MYCN-nonamplified neuroblastoma (NB) with retroperitoneal nodal extension. Multi-modality therapy achieved complete remission (CR). Small recurrences confined to left supraclavicular nodes were treated with surgery alone at 4.9, 6.5, 7.5, 9.5, and 12.9 years from diagnosis. Monitoring through 12 months after the last resection showed CR. When she returned 34 months later (16.8 years from diagnosis), she had massive disease in the left neck and upper trunk, without osteomedullary metastases. Salvage therapy featured 11 cycles of temozolomide. She developed myelodysplastic syndrome with 45,XX,der(7)t(7;21) (p15;q11),-21 at age 24 and refused treatment; 19 months later she was transfusion-dependent but her NB remained in CR.
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PMID:Recurrent metastatic neuroblastoma followed by myelodysplastic syndrome: possible leukemogenic role of temozolomide. 1905 12

From March 1991 through 31st December 2007, 2042 patients underwent stem cell transplantation at the Hematology-Oncology and Stem Cell Transplantation Research Center, affiliated to Tehran University of Medical Sciences. These transplantations included 1405 allogeneic stem cell transplantation, 624 autologous stem cell transplantation, and 13 syngeneic stem cell transplantation. Stem cell transplantation was performed for various diseases including acute myelogenous leukemia, acute lymphoblastic leukemia, chronic myelogenous leukemia, chronic lymphoblastic leukemia, thalassemia major, sickle cell thalassemia, sickle cell disease, multiple myeloma, myelodysplasia, mucopolysaccharidosis, paroxysmal nocturnal hemoglobinuria, non-Hodgkin's lymphoma, Hodgkin's disease, severe aplastic anemia, plasma cell leukemia, Niemann-Pick disease, Fanconi anemia, severe combine immunodeficiency, congenital neutropenia, leukocyte adhesion deficiencies, Chediak-Higashi syndrome, osteopetrosis, histiocytosis X, Hurler syndrome, amyloidosis, systemic sclerosis, breast cancer, Ewing's sarcoma, testicular cancer, germ cell tumors, neuroblastoma, medulloblastoma, renal cell carcinoma, nasopharyngeal carcinoma, ovarian cancer, Wilms' tumor, rhabdomyosarcoma, pancreatoblastoma, and multiple sclerosis. We had 105 cellular therapies for postmyocardial infarction, multiple sclerosis, cirrhosis, head of femur necrosis, and renal cell carcinoma. About 30 patients were retransplanted in this center. About 74.9% of the patients (1530 of 2042) remained alive between one to 168 months after stem cell transplantation. Nearly 25.1% (512 of 2042) of our patients died after stem cell transplantation. The causes of deaths were relapse, infections, hemorrhagic cystitis, graft versus host disease, and others.
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PMID:Stem cell transplantation; Iranian experience. 1911 Oct 33

Applications of flow cytometry in pediatric cancers have expanded substantially in recent years. In acute leukemias, the commonest childhood cancer, flow cytometry can now define complex antigenic profiles that are associated with specific cytogenetic/molecular defects and can also directly identify BCR-ABL fusion protein. Flow cytometry based scoring system has been described for diagnosis of myelodysplastic syndromes. In solid tumors, flow cytometry was previously used mainly to determine DNA content for prognosis; however, recent studies in children with neuroblastoma and Ewing sarcoma have identified its diagnostic utility. In this review, we will discuss the current and future applications of flow cytometry in pediatric hematology-oncology.
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PMID:Application of flow cytometry in pediatric hematology-oncology. 2146 1

The prognosis for relapsing or refractory neuroblastoma (NB) remains dismal, with a five-year disease-free survival of < 20%, and no effective salvage treatment has been identified so far. 131I-metaiodobenzylguanidine (131I-MIBG) has come to play an essential role in the imaging and therapy of NB over the past 30 years. The role of 131I-MIBG in the treatment of NB is continually expanding. 131I-MIBG treatment together with cumulative doses of other alkylating agents has potential serious late side effects such as myelodysplasia and leukemia, although rare. We describe a secondary acute myeloid leukemia case with complex karyotypic anomalies that included monosomy 5, monosomy 7 and translocation (1;10) in a child with relapsed NB who received therapeutic 131I-MIBG.
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PMID:Secondary childhood acute myeloid leukemia with complex karyotypic anomalies including monosomy 7, monosomy 5 and translocation (1;10) after 131I-metaiodobenzylguanidine therapy for relapsed neuroblastoma. 2153 45

Hematogones (HGs) are benign immature B cells in bone marrow with a variety of benign and malignant conditions, including idiopathic thrombocytopenic purpura, leukemia, lymphoma, red blood cell aplasia, iron deficiency anemia, amegakaryocytosis, regenerative bone marrow following viral injury, chemotherapy or bone marrow transplantation, copper deficiency, autoimmune cytopenias, neuroblastoma, and acquired immunodeficiency syndrome (AIDS). HGs may cause diagnostic problems because of their morphologic and immunophenotypic similarities to neoplastic lymphoblasts. Herein, two patients with thrombocytopenia and three lineage dysplasias in the bone marrow suggesting myelodysplastic syndrome (MDS) with excess blasts are presented. Light microscopic evaluation of marrow from both patients revealed periodic acid-Schiff (PAS)-negative blasts However, flow cytometric analysis revealed excessive HGs in both patients, implying that the cells that were considered as blasts were actually large HGs. Thus, the patients were diagnosed as immune thrombocytopenic purpura due to the isolated thrombocytopenia, large platelets on blood and bone marrow smears and increased megakaryocytes in the bone marrow. These cases emphasize the importance of distinction of hematogone-rich conditions from leukemia and MDS for accurate diagnosis and treatment, and the reliability of multiparameter flow cytometry for the differential diagnosis.
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PMID:Hematogones in immune thrombocytopenic purpura: diagnostic implication. 2185 65

The purpose of this systematic review was to investigate the effects of therapeutic radiopharmaceuticals in patients with different types of advanced neuroendocrine tumour (NETs). A literature search was carried out in MEDLINE and EMBASE from January 1998 to November 2010. The Cochrane Library (to Issue 10, 2010) and the Standards and Guidelines Evidence Inventory of Cancer Guidelines, including over 1100 English-language cancer guidelines from January 2003 to June 2010, were also checked. No existing systematic reviews or clinical practice guidelines based on a systematic review or randomised controlled trials focusing on this topic were found. Twenty-four fully published articles were abstracted and summarised: 16 articles focused on five peptide receptor radionuclide therapy ((111)In-DTPAOC, (90)Y-DOTALAN, (90)Y-DOTATOC, (90)Y-DOTATATE, and (177)Lu-DOTATATE) and eight focused on (131)I-MIBG treatment. Limited evidence from a historical comparison of studies in one centre supported that (177)Lu-DOTATATE might be associated with greater clinical outcomes compared with (90)Y-DOTATOC or (111)In-DTPAOC. The severe toxicities for (177)Lu-DOTATATE included hepatic insufficiency in 0.6%, myelodysplastic syndrome in 0.8% and renal insufficiency in 0.4% of patients in this study. Insufficient evidence suggested efficacy of (131)I-MIBG in adult NET patients, but the overall tumour response rate from (131)I-MIBG was 27-75% for malignant neuroblastoma, paraganglioma or pheochromocytoma. Haematological toxicities were the main severe side-effects after (131)I-MIBG and 4% of patients developed secondary malignancies in one study. To date, peptide receptor radionuclide therapy seems to be an acceptable option and is relatively safe in adult advanced NET patients with receptor uptake positive on scintigraphy, but patients' renal function must be monitored. (131)I-MIBG may be effective for malignant neuroblastoma, paraganglioma or pheochromocytoma, but its side-effects need to be considered. No strong evidence exists to support that one therapeutic radiopharmaceutical is more effective than others. Well-designed and good-quality randomised controlled trials are required on this research topic.
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PMID:Radionuclide therapy in neuroendocrine tumours: a systematic review. 2222 16

Childhood autologous hematopoietic cell transplant (auto-HCT) survivors can be at risk for secondary malignant neoplasms (SMNs). We assembled a cohort of 1487 pediatric auto-HCT recipients to investigate the incidence and risk factors for SMNs. Primary diagnoses included neuroblastoma (39%), lymphoma (26%), sarcoma (18%), central nervous system tumors (14%) and Wilms tumor (2%). Median follow-up was 8 years (range, <1-21 years). SMNs were reported in 35 patients (AML/myelodysplastic syndrome (MDS)=13, solid cancers=20, subtype missing=2). The overall cumulative incidence of SMNs at 10 years from auto-HCT was 2.60% (AML/MDS=1.06%, solid tumors=1.30%). We found no association between SMNs risk and age, gender, diagnosis, disease status, time since diagnosis or use of TBI or etoposide as part of conditioning. OS at 5-years from diagnosis of SMNs was 33% (95% confidence interval (CI), 16-52%). When compared with age- and gender-matched general population, auto-HCT recipients had 24 times higher risks of developing SMNs (95% CI, 16.0-33.0). Notable SMN sites included bone (N=5 SMNs, observed (O)/expected (E)=81), thyroid (N=5, O/E=53), breast (N=2, O/E=93), soft tissue (N=2, O/E=34), AML (N=6, O/E=266) and MDS (N=7, O/E=6603). Risks of SMNs increased with longer follow-up from auto-HCT. Pediatric auto-HCT recipients are at considerably increased risk for SMNs and need life-long surveillance for SMNs.
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PMID:Second malignancies after autologous hematopoietic cell transplantation in children. 2296 94


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