Search results for " single nucleotide polymorphism array"

showing 2 items of 2 documents

Neuroblastoma after Childhood: Prognostic Relevance of Segmental Chromosome Aberrations, ATRX Protein Status, and Immune Cell Infiltration

2014

AbstractNeuroblastoma (NB) is a common malignancy in children but rarely occurs during adolescence or adulthood. This subgroup is characterized by an indolent disease course, almost uniformly fatal, yet little is known about the biologic characteristics. The aim of this study was to identify differential features regarding DNA copy number alterations, α-thalassemia/mental retardation syndrome X-linked (ATRX) protein expression, and the presence of tumor-associated inflammatory cells. Thirty-one NB patients older than 10 years who were included in the Spanish NB Registry were considered for the current study; seven young and middle-aged adult patients (range 18-60 years) formed part of the c…

MaleCancer ResearchHet heterogeneousGene ExpressionNeuroblastomaImmunophenotypingRegistriesYoung adultNeoplasm MetastasisMLPA multiplex ligation probe amplificationChildIn Situ Hybridization FluorescenceNuclear ProteinsMiddle AgedAYA adolescent and young adultsPrognosislcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogensNCA numerical chromosome aberrationImmunohistochemistryFemaleSCA segmental chromosome aberrationIHC immunohistochemistryNB neuroblastomaAdultX-linked Nuclear ProteinAdolescentaSNP single nucleotide polymorphism arrayBiologyMalignancyChromosome aberrationPolymorphism Single Nucleotidelcsh:RC254-282ArticleImmunophenotypingYoung AdultLymphocytes Tumor-InfiltratingNeuroblastomacnLOH copy-neutral loss of heterozygositymedicineHumansHom homogeneousATRXNeoplasm StagingChromosome AberrationsDNA Helicasesmedicine.diseaseSpainMNNA MYCN not amplifiedCancer researchFSCA focal segmental chromosome aberrationCD8MNA MYCN amplifiedNeoplasia
researchProduct

Imbalance between genomic gain and loss identifies high-risk neuroblastoma patients with worse outcomes

2021

Survival in high-risk neuroblastoma (HR-NB) patients remains poor despite multimodal treatment. We aimed to identify HR-NB patients with worse outcomes by analyzing the genomic instability derived from segmental chromosomal aberrations. We calculated 3 genomic instability indexes for primary tumor SNP array profiles from 127 HR-NB patients: (1) Copy number aberration burden (%gainslength+%losseslength), (2) copy number load (CNL) (%gainslength-%losseslength) and (3) net genomic load (NGL) (%gainsamount-%lossesamount). Tumors were classified according to positive or negative CNL and NGL genomic subtypes. The impact of the genomic instability indexes on overall survival (OS) was assessed with…

Male0301 basic medicineGenome instabilityOncologyCancer ResearchCopy number loadSNPa single nucleotide polymorphism arrayNeuroblastoma0302 clinical medicineHigh risk neuroblastomaSegmental chromosomal aberrationsHR high-riskCNA copy number aberrationTumor biologyCNL copy number loaddNGL decreased net genomic loadlcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogensPrognosisPrimary tumornCNL negative copy number loadGI genomic instabilityHomogeneous030220 oncology & carcinogenesisMNA MYCN-amplificationFemaleHR-NB high-risk neuroblastomaNB neuroblastomaSNP arrayOriginal articlemedicine.medical_specialtyDNA Copy Number VariationsiNGL increased net genomic loadpCNL positive copy number loadhetMNA heterogeneous MYCN-amplificationlcsh:RC254-282Polymorphism Single NucleotideGenomic InstabilityUHR ultra-high-riskOS overall survivalNet genomic load03 medical and health sciencesSCA segmental chromosomal aberrationInternal medicineNeuroblastomamedicineHumansNGL net genomic loadGenetic Predisposition to DiseaseGenomic imbalanceGenetic Association StudiesEFS event-free survivalProportional Hazards ModelsChromosome AberrationsPloidieshomMNA homogeneous MYCN-amplificationProportional hazards modelbusiness.industryGene AmplificationGenetic Variationmedicine.diseasePatient Outcome AssessmentCopy number aberration burden030104 developmental biologybusinessNeoplasia
researchProduct