CNS Cancer : (Registro nro. 289307)
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| 000 -CABECERA | |
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| campo de control de longitud fija | 08780nam a22003735i 4500 |
| 001 - NÚMERO DE CONTROL | |
| campo de control | 289307 |
| 003 - IDENTIFICADOR DEL NÚMERO DE CONTROL | |
| campo de control | MX-SnUAN |
| 005 - FECHA Y HORA DE LA ÚLTIMA TRANSACCIÓN | |
| campo de control | 20160429154705.0 |
| 007 - CAMPO FIJO DE DESCRIPCIÓN FÍSICA--INFORMACIÓN GENERAL | |
| campo de control de longitud fija | cr nn 008mamaa |
| 008 - DATOS DE LONGITUD FIJA--INFORMACIÓN GENERAL | |
| campo de control de longitud fija | 150903s2009 xxu| o |||| 0|eng d |
| 020 ## - NÚMERO INTERNACIONAL ESTÁNDAR DEL LIBRO | |
| Número Internacional Estándar del Libro | 9781603275538 |
| -- | 9781603275538 |
| 024 7# - IDENTIFICADOR DE OTROS ESTÁNDARES | |
| Número estándar o código | 10.1007/9781603275538 |
| Fuente del número o código | doi |
| 035 ## - NÚMERO DE CONTROL DEL SISTEMA | |
| Número de control de sistema | vtls000343271 |
| 039 #9 - NIVEL DE CONTROL BIBLIOGRÁFICO Y DETALLES DE CODIFICACIÓN [OBSOLETO] | |
| Nivel de reglas en descripción bibliográfica | 201509030845 |
| Nivel de esfuerzo utilizado para asignar no-encabezamientos de materia en puntos de acceso | VLOAD |
| Nivel de esfuerzo utilizado en la asignación de encabezamientos de materia | 201405050255 |
| Nivel de esfuerzo utilizado para asignar clasificación | VLOAD |
| -- | 201402061152 |
| -- | staff |
| 040 ## - FUENTE DE LA CATALOGACIÓN | |
| Centro catalogador/agencia de origen | MX-SnUAN |
| Lengua de catalogación | spa |
| Centro/agencia transcriptor | MX-SnUAN |
| Normas de descripción | rda |
| 050 #4 - CLASIFICACIÓN DE LA BIBLIOTECA DEL CONGRESO | |
| Número de clasificación | RC261-271 |
| 100 1# - ENTRADA PRINCIPAL--NOMBRE DE PERSONA | |
| Nombre de persona | Meir, Erwin G. |
| Término indicativo de función/relación | editor. |
| 9 (RLIN) | 319468 |
| 245 10 - MENCIÓN DE TÍTULO | |
| Título | CNS Cancer : |
| Resto del título | Models, Markers, Prognostic Factors, Targets, and Therapeutic Approaches / |
| Mención de responsabilidad, etc. | edited by Erwin G. Meir. |
| 264 #1 - PRODUCCIÓN, PUBLICACIÓN, DISTRIBUCIÓN, FABRICACIÓN Y COPYRIGHT | |
| Producción, publicación, distribución, fabricación y copyright | Totowa, NJ : |
| Nombre del de productor, editor, distribuidor, fabricante | Humana Press, |
| Fecha de producción, publicación, distribución, fabricación o copyright | 2009. |
| 300 ## - DESCRIPCIÓN FÍSICA | |
| Otras características físicas | recurso en línea. |
| 336 ## - TIPO DE CONTENIDO | |
| Término de tipo de contenido | texto |
| Código de tipo de contenido | txt |
| Fuente | rdacontent |
| 337 ## - TIPO DE MEDIO | |
| Nombre/término del tipo de medio | computadora |
| Código del tipo de medio | c |
| Fuente | rdamedia |
| 338 ## - TIPO DE SOPORTE | |
| Nombre/término del tipo de soporte | recurso en línea |
| Código del tipo de soporte | cr |
| Fuente | rdacarrier |
| 347 ## - CARACTERÍSTICAS DEL ARCHIVO DIGITAL | |
| Tipo de archivo | archivo de texto |
| Formato de codificación | |
| Fuente | rda |
| 490 0# - MENCIÓN DE SERIE | |
| Mención de serie | Cancer Drug Discovery and Development |
| 500 ## - NOTA GENERAL | |
| Nota general | Springer eBooks |
| 505 0# - NOTA DE CONTENIDO CON FORMATO | |
| Nota de contenido con formato | Animal Models for Central Nervous Tumors -- Modeling Gliomas Using PDGF-Expressing Retroviruses -- Modeling Brain Tumors Using Avian Retroviral Gene Transfer -- Using Neurofibromatosis Type 1 Mouse Models to Understand Human Pediatric Low-Grade Gliomas -- Transgenic Mouse Models of CNS Tumors: Using Genetically Engineered Murine Models to Study the Role of p21-Ras in Glioblastoma Multiforme -- Pten-Deficient Mouse Models for High-Grade Astrocytomas -- The Nf1–/+; Trp53–/+cis Mouse Model of Anaplastic Astrocytoma and Secondary Glioblastoma: Dissecting Genetic Susceptibility to Brain Cancer -- Modeling Astrocytomas in a Family of Inducible Genetically Engineered Mice: Implications for Preclinical Cancer Drug Development -- Human Brain Tumor Cell and Tumor Tissue Transplantation Models -- Transformed Human Brain Cells in Culture as a Model for Brain Tumors -- Rat Glioma Models for Preclinical Evaluation of Novel Therapeutic and Diagnostic Modalities -- Neuro-oncogenesis Induced by Nitroso Compounds in Rodents and Strain-Specific Genetic Modifiers of Predisposition -- The Murine GL261 Glioma Experimental Model to Assess Novel Brain Tumor Treatments -- Spontaneous Occurrence of Brain Tumors in Animals: Opportunities as Preclinical Model Systems -- Prognostic Factors and Biomarkers -- p53 Pathway Alterations in Brain Tumors -- The PTEN/PI3 Kinase Pathway in Human Glioma -- Value of 1p/19q and Other LOH Markers for Brain Tumor Diagnosis, Prognosis, and Therapy -- Discovery of Genetic Markers for Brain Tumors by Comparative Genomic Hybridization -- Genomic Identification of Significant Targets in Brain Cancer -- Oncomodulatory Role of the Human Cytomegalovirus in Glioblastoma -- Aberrant EGFR Signaling in Glioma -- Mechanisms of Brain Tumor Angiogenesis -- Vaso-occlusive Mechanisms that Intiate Hypoxia and Necrosis in Glioblastoma: The Role of Thrombosis and Tissue Factor -- Transcription Profiling of Brain Tumors: Tumor Biology and Treatment Stratification -- Proteomic Profiling of Human Brain Tumors -- Proteomic Discovery of Biomarkers in the Cerebrospinal Fluid of Brain Tumor Patients -- Epigenetic Profiling of Gliomas -- MicroRNAs in the Central Nervous System and Potential Roles of RNA Interference in Brain Tumors -- Of Escherichia coli and Man: Understanding Glioma Resistance to Temozolomide Therapy -- Brain Tumor Stem Cell Markers -- Therapeutic Targets and Targeting Approaches -- Clinical Agents for the Targeting of Brain Tumor Vasculature -- Bone Marrow-Derived Cells in GBM Neovascularization -- Vascular Targeting of Brain Tumors – Bridging the Gap with Phage Display -- Impact of the Blood–Brain Barrier on Brain Tumor Imaging and Therapy -- Targeting CXCR4 in Brain Tumors -- Molecular Targeting of IL-13R?2 and EphA2 Receptor in GBM -- Molecular Targets for Antibody-Mediated Immunotherapy of Malignant Glioma -- Stat3 Oncogenic Signaling in Glioblastoma Multiforme -- Inhibition of Ras Signaling for Brain Tumor Therapy -- HGF/c-Met Signaling and Targeted Therapeutics in Brain Tumors -- Combinatorial Therapeutic Strategies for Blocking Kinase Pathways in Brain Tumors -- Targeting of TRAIL Apoptotic Pathways for Glioblastoma Therapies -- The NF-?B Signaling Pathway in GBMs: Implications for Apoptotic and Inflammatory Responses and Exploitation for Therapy -- Targeting Endoplasmic Reticulum Stress for Malignant Glioma Therapy -- Brain Cancer Stem Cells as Targets of Novel Therapies -- The Use of Retinoids as Differentiation Agents Against Medulloblastoma -- Herpes Simplex Virus 1 (HSV-1) for Glioblastoma Multiforme Therapy -- The Development of Targeted Cancer Gene-Therapy Adenoviruses for High-Grade Glioma Treatment -- Harnessing T-Cell Immunity to Target Brain Tumors -- Glioma Invasion: Mechanisms and Therapeutic Challenges. |
| 520 ## - SUMARIO, ETC. | |
| Sumario, etc. | CNS Cancer: Models, Markers, Prognostic Factors and Therapeutic Approaches Erwin G. Van Meir Cancers of the central nervous system are among the most lethal of human neoplasms. They are recalcitrant to even intensive multimodality therapies that include surgery, radiotherapy and chemotherapy. Moreover, especially in children, the consequences of these therapies can itself be devastating and involve serious cognitive and developmental disorders. It is small wonder that such cancers have come under the intense scrutiny of each of the subspecialties of clinical care and investigation as well as attracting some of the best basic research scientists. Their joint efforts are gradually peeling away the mysteries surrounding the genesis and progression of these tumors and inroads are being steadily made into understanding why they resist therapies.This makes it an especially opportune time to assemble some of the best investigators in the field to review the "state of the art" in the various arenas that comprise the assault on CNS tumors. While the lethality of these tumors has remained dismal over the past decades, there is finally real reason for optimism as our knowledge base grows exponentially larger. The major areas of this endeavor are displayed in CNS Cancer: Models, Markers, Prognostic Factors and Therapeutic Approaches. Each of the chapters in the book represents illustrative examples of the road from discovery through translation to clinical importance, although many begin the journey at different parts of this continuum. This includes several chapters on incredibly clever mouse models for deciphering the genetic wiring underlying the development of CNS tumors and how that wiring might be targeted for therapeutic benefit. A great deal of attention has been paid in the book to the development of genetic prognostic factors and biomarkers that could be used for assessing individual responses to therapies and so could lead to truly personalized medicine. Other possible prognostic factors/biomarkers that arise from an understanding of CNS tumor pathophysiology are discussed in some detail and include tumor vascularization and hypoxia. Several of the new and rapidly developing methodologies that allow these rapid advances are detailed for the reader as well and include RNA expression profiling, proteomic analyses of both tumors and biological fluids as well as profiling small non-coding RNAs and DNA modification. Finally, several chapters explore aspects of therapeutic targeting employing small molecules and combinations thereof, various sorts of cells, viruses and immune modulation. In sum, these treatises represent the cutting edge of research that is driven to be of benefit to patients with these dreaded diseases. Erwin G. Van Meir is Professor of Neurosurgery and Hematology & Medical Oncology in the School of Medicine at Emory University. A native of Belgium, he obtained Bachelor’s degrees in Biology and Education at the University of Fribourg, Switzerland. Dr Van Meir is an active member of the International Neuro-Oncology community and served on the Board of Directors of the Society for Neuro-Oncology from 2004-2008. Dr. Van Meir currently serves on the Editorial Board of Neuro-Oncology, Frontiers in Bioscience, and International Journal of Oncology and is a former Associate Editor of the International Journal of Cancer. He has served as a reviewer for over 30 international scientific journals and for grant proposals from public and private agencies. |
| 590 ## - NOTA LOCAL (RLIN) | |
| Nota local | Para consulta fuera de la UANL se requiere clave de acceso remoto. |
| 710 2# - PUNTO DE ACCESO ADICIONAL--NOMBRE DE ENTIDAD CORPORATIVA | |
| Nombre de entidad corporativa o nombre de jurisdicción como elemento de entrada | SpringerLink (Servicio en línea) |
| 9 (RLIN) | 299170 |
| 776 08 - ENTRADA/ENLACE A UN FORMATO FÍSICO ADICIONAL | |
| Información de relación/Frase instructiva de referencia | Edición impresa: |
| Número Internacional Estándar del Libro | 9781603275521 |
| 856 40 - LOCALIZACIÓN Y ACCESO ELECTRÓNICOS | |
| Identificador Uniforme del Recurso | <a href="http://remoto.dgb.uanl.mx/login?url=http://dx.doi.org/10.1007/978-1-60327-553-8">http://remoto.dgb.uanl.mx/login?url=http://dx.doi.org/10.1007/978-1-60327-553-8</a> |
| Nota pública | Conectar a Springer E-Books (Para consulta externa se requiere previa autentificación en Biblioteca Digital UANL) |
| 942 ## - ELEMENTOS DE PUNTO DE ACCESO ADICIONAL (KOHA) | |
| Tipo de ítem Koha | Recurso en línea |
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