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Glioblastoma
Glioblastoma
Marked Genomic Differences Characterize Primary and Secondary Glioblastoma Subtypes and Identify Two Distinct Molecular and Clinical Secondary Glioblastoma Entities
Genetics / Genomics / Comparative Genomics / Cancer / Life history / Humans / Glioblastoma / Nucleic acid hybridization / Cluster Analysis / Genome Analysis / High Resolution / Human Genome / Disease Progression / Astrocytoma / Nonnegative Matrix Factorization / Unsupervised Classification / Gene expression profiling / Copy Number Alterations / Humans / Glioblastoma / Nucleic acid hybridization / Cluster Analysis / Genome Analysis / High Resolution / Human Genome / Disease Progression / Astrocytoma / Nonnegative Matrix Factorization / Unsupervised Classification / Gene expression profiling / Copy Number Alterations
Marked Genomic Differences Characterize Primary and Secondary Glioblastoma Subtypes and Identify Two Distinct Molecular and Clinical Secondary Glioblastoma Entities
Genetics / Genomics / Comparative Genomics / Cancer / Life history / Humans / Glioblastoma / Nucleic acid hybridization / Cluster Analysis / Genome Analysis / High Resolution / Human Genome / Disease Progression / Astrocytoma / Nonnegative Matrix Factorization / Unsupervised Classification / Gene expression profiling / Copy Number Alterations / Humans / Glioblastoma / Nucleic acid hybridization / Cluster Analysis / Genome Analysis / High Resolution / Human Genome / Disease Progression / Astrocytoma / Nonnegative Matrix Factorization / Unsupervised Classification / Gene expression profiling / Copy Number Alterations
Marked Genomic Differences Characterize Primary and Secondary Glioblastoma Subtypes and Identify Two Distinct Molecular and Clinical Secondary Glioblastoma Entities
Genetics / Genomics / Comparative Genomics / Cancer / Life history / Humans / Glioblastoma / Nucleic acid hybridization / Cluster Analysis / Genome Analysis / High Resolution / Human Genome / Disease Progression / Astrocytoma / Nonnegative Matrix Factorization / Unsupervised Classification / Gene expression profiling / Copy Number Alterations / Humans / Glioblastoma / Nucleic acid hybridization / Cluster Analysis / Genome Analysis / High Resolution / Human Genome / Disease Progression / Astrocytoma / Nonnegative Matrix Factorization / Unsupervised Classification / Gene expression profiling / Copy Number Alterations
Marked Genomic Differences Characterize Primary and Secondary Glioblastoma Subtypes and Identify Two Distinct Molecular and Clinical Secondary Glioblastoma Entities
Genetics / Genomics / Comparative Genomics / Cancer / Life history / Humans / Glioblastoma / Nucleic acid hybridization / Cluster Analysis / Genome Analysis / High Resolution / Human Genome / Disease Progression / Astrocytoma / Nonnegative Matrix Factorization / Unsupervised Classification / Gene expression profiling / Copy Number Alterations / Humans / Glioblastoma / Nucleic acid hybridization / Cluster Analysis / Genome Analysis / High Resolution / Human Genome / Disease Progression / Astrocytoma / Nonnegative Matrix Factorization / Unsupervised Classification / Gene expression profiling / Copy Number Alterations
Marked Genomic Differences Characterize Primary and Secondary Glioblastoma Subtypes and Identify Two Distinct Molecular and Clinical Secondary Glioblastoma Entities
Genetics / Genomics / Comparative Genomics / Cancer / Life history / Humans / Glioblastoma / Nucleic acid hybridization / Cluster Analysis / Genome Analysis / High Resolution / Human Genome / Disease Progression / Astrocytoma / Nonnegative Matrix Factorization / Unsupervised Classification / Gene expression profiling / Copy Number Alterations / Humans / Glioblastoma / Nucleic acid hybridization / Cluster Analysis / Genome Analysis / High Resolution / Human Genome / Disease Progression / Astrocytoma / Nonnegative Matrix Factorization / Unsupervised Classification / Gene expression profiling / Copy Number Alterations
Marked Genomic Differences Characterize Primary and Secondary Glioblastoma Subtypes and Identify Two Distinct Molecular and Clinical Secondary Glioblastoma Entities
Genetics / Genomics / Comparative Genomics / Cancer / Life history / Humans / Glioblastoma / Nucleic acid hybridization / Cluster Analysis / Genome Analysis / High Resolution / Human Genome / Disease Progression / Astrocytoma / Nonnegative Matrix Factorization / Unsupervised Classification / Gene expression profiling / Copy Number Alterations / Humans / Glioblastoma / Nucleic acid hybridization / Cluster Analysis / Genome Analysis / High Resolution / Human Genome / Disease Progression / Astrocytoma / Nonnegative Matrix Factorization / Unsupervised Classification / Gene expression profiling / Copy Number Alterations
Epithelial and pseudoepithelial differentiation in glioblastoma and gliosarcoma: A comparative morphologic and molecular genetic study
Genetics / Cancer / Immunohistochemistry / Molecular Genetics / Comparative Study / Cell Differentiation / Humans / Glioblastoma / Female / Male / Aged / Middle Aged / Fluorescent Antibody Technique / Brain Neoplasms / Cell Differentiation / Humans / Glioblastoma / Female / Male / Aged / Middle Aged / Fluorescent Antibody Technique / Brain Neoplasms
Epithelial and pseudoepithelial differentiation in glioblastoma and gliosarcoma: A comparative morphologic and molecular genetic study
Genetics / Cancer / Immunohistochemistry / Molecular Genetics / Comparative Study / Cell Differentiation / Humans / Glioblastoma / Female / Male / Aged / Middle Aged / Fluorescent Antibody Technique / Brain Neoplasms / Cell Differentiation / Humans / Glioblastoma / Female / Male / Aged / Middle Aged / Fluorescent Antibody Technique / Brain Neoplasms
Glioblastoma induces vascular endothelial cells to express telomerase in vitro
Cancer / Telomerase / Brain Tumor / Humans / Glioblastoma / Tumor Angiogenesis / Astrocyte / Vascular endothelium / Endothelial cell / Protein Expression / Enzyme activity / Reverse Transcriptase / DNA binding proteins / Brain Neoplasms / Tumor Angiogenesis / Astrocyte / Vascular endothelium / Endothelial cell / Protein Expression / Enzyme activity / Reverse Transcriptase / DNA binding proteins / Brain Neoplasms
Dendrosomal curcumin nanoformulation downregulates pluripotency genes via miR-145 activation in U87Mg glioblastoma cells
Cancer / Cancer Biology / miRNA / Glioblastoma
Astrocytes and Glioblastoma cells release exosomes carrying mtDNA
Psychology / Intercellular Communication / Transcription Factors / Mitochondrial DNA / Humans / Cerebral Cortex / Glioblastoma / Animals / Astrocyte / Exosomes / Gene Dosage / Astrocytes / Rats / Calcium Binding Proteins / Cell Cycle Proteins / DNA binding proteins / Neurosciences / Cerebral Cortex / Glioblastoma / Animals / Astrocyte / Exosomes / Gene Dosage / Astrocytes / Rats / Calcium Binding Proteins / Cell Cycle Proteins / DNA binding proteins / Neurosciences
Uptake and intracellular traffic of siRNA dendriplexes in glioblastoma cells and macrophages
Nanomedicine / Macrophages / Nanotechnology / Dendrimers / Gene Silencing / Humans / Mice / Endocytosis / Glioblastoma / Animals / Analysis of Variance / Biological markers / Cell Survival / Endosomes / Intracellular Space / Clathrin / Humans / Mice / Endocytosis / Glioblastoma / Animals / Analysis of Variance / Biological markers / Cell Survival / Endosomes / Intracellular Space / Clathrin
Intraoperative localization of subcortical brain lesions
Magnetic Resonance Imaging / Adolescent / Brain Tumor / Brain Mapping / Software / Humans / Child / Cerebral Cortex / Glioblastoma / Female / Male / Three Dimensional Imaging / Follow-up studies / Neuronavigation / Clinical Sciences / Microcomputers / Aged / Middle Aged / Adult / Three Dimensional / Administrative Data / Data Processing / Image Guidance / Three dimensional Reconstruction / Neurosciences / Time and Motion Studies / Brain Neoplasms / Postoperative Complications / Humans / Child / Cerebral Cortex / Glioblastoma / Female / Male / Three Dimensional Imaging / Follow-up studies / Neuronavigation / Clinical Sciences / Microcomputers / Aged / Middle Aged / Adult / Three Dimensional / Administrative Data / Data Processing / Image Guidance / Three dimensional Reconstruction / Neurosciences / Time and Motion Studies / Brain Neoplasms / Postoperative Complications
Inhibition of CXCL12/CXCR4 autocrine/paracrine loop reduces viability of human glioblastoma stem-like cells affecting self-renewal activity
Molecular Biology / Toxicology / Cancer stem cells / Humans / Glioblastoma / Animals / Akt / Cell Proliferation / Cell Survival / CM / Heterocyclic compounds / Down-Regulation / Animals / Akt / Cell Proliferation / Cell Survival / CM / Heterocyclic compounds / Down-Regulation
Improving accuracy in astrocytomas grading by integrating a robust least squares mapping driven support vector machine classifier into a two level grade classification scheme
Artificial Intelligence / Biomedical Engineering / Support Vector Machines / Clinical Practice / Humans / Glioblastoma / Digital Image Analysis / Astrocyte / Support vector machine / ROC Curve / Treatment planning / Astrocytoma / Computer Methods / Computer assisted Diagnosis / Glioblastoma / Digital Image Analysis / Astrocyte / Support vector machine / ROC Curve / Treatment planning / Astrocytoma / Computer Methods / Computer assisted Diagnosis
PTEN loss represses glioblastoma tumor initiating cell differentiation via inactivation of Lgl1
Signal Transduction / RNA interference / Cell Differentiation / Humans / Mice / Glioblastoma / Animals / Phosphorylation / Transfection / Brain Neoplasms / Glioblastoma / Animals / Phosphorylation / Transfection / Brain Neoplasms
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