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Computational Methods for Precision Oncology de Alessandro Laganà

Computational Methods for Precision Oncology: Advances in Experimental Medicine and Biology, cartea 1361

Editat de Alessandro Laganà
en Limba Engleză Hardback – 2 mar 2022
Precision medicine holds great promise for the treatment of cancer and represents a unique opportunity for accelerated development and application of novel and repurposed therapeutic approaches. Current studies and clinical trials demonstrate the benefits of genomic profiling for patients whose cancer is driven by specific, targetable alterations. However, precision oncologists continue to be challenged by the widespread heterogeneity of cancer genomes and drug responses in designing personalized treatments. Chapters provide a comprehensive overview of the computational approaches, methods, and tools that enable precision oncology, as well as related biological concepts. Covered topics include genome sequencing, the architecture of a precision oncology workflow, and introduces cutting-edge research topics in the field of precision oncology. This book is intended for computational biologists, bioinformaticians, biostatisticians and computational pathologists working in precision oncology and related fields, including cancer genomics, systems biology, and immuno-oncology.
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Specificații

ISBN-13: 9783030918354
ISBN-10: 3030918351
Pagini: 336
Ilustrații: XIV, 336 p. 36 illus., 26 illus. in color.
Dimensiuni: 178 x 254 mm
Greutate: 0.91 kg
Ediția:1st ed. 2022
Editura: Springer International Publishing
Colecția Springer
Seria Advances in Experimental Medicine and Biology

Locul publicării:Cham, Switzerland

Cuprins

Part I: Basic Concepts in Precision Oncology
1.       Design and implementation of a precision oncology workflow
2.       An overview of cancer genome sequencing
3.       Software infrastructures for precision medicine workflows
Part II: Current Computational Methods and Tools in Precision Oncology
4.       Somatic and germline variant calling from next-generation sequencing data
5.       Identification of copy number alterations from next-generation sequencing data
6.       Genome-wide discovery of large-scale structural variants from next-generation sequencing data
7.       Assessment of microsatellite instability from next-generation sequencing data
8.       Computational approaches for the investigation of intra-tumor heterogeneity and clonal evolution from bulk sequencing data
9.       Analysis of the transcriptome for precision oncology applications
10.   Computational methods for drug repurposing
11.   Pathway analysis for precision oncology applications
12.   Identification of fusion transcripts from RNA-seq
13.   Computational resources for the interpretation of variations in cancer
14.   Analysis of electronic health records for precision oncology
15.   Network approaches for precision oncology
16. Experimental validation of genomic alterations
Part III: Advanced Concepts - The Future of Precision Oncology
17.   Molecular profiling of liquid biopsies for precision oncology
18.   Artificial intelligence for precision oncology
19.   Single-cell technologies in precision oncology
20.   Computational approaches for precision immuno-oncology
21.   Multi-omics profiling of the tumor microenvironment
22.   Epigenetic and precision oncology
23.   Next-generation knowledge bases to support precision oncology

Notă biografică

Alessandro Laganà is Assistant Professor of Oncological Sciences at the Icahn School of Medicine at Mount Sinai, NY. Dr. Laganà's main research interests are integrative cancer genomics, cancer network biology and precision oncology. His current research is focused on the treatment of Multiple Myeloma (malignancy of bone marrow plasma cells). He received both his M.Sc. and Ph.D. from the University of Catania in Catania, Italy. He is also the author of the Humana Press title MicroRNA Target Identification: Methods and Protocols (2019).

Textul de pe ultima copertă

Precision medicine holds great promise for the treatment of cancer and represents a unique opportunity for accelerated development and application of novel and repurposed therapeutic approaches. Current studies and clinical trials demonstrate the benefits of genomic profiling for patients whose cancer is driven by specific, targetable alterations. However, precision oncologists continue to be challenged by the widespread heterogeneity of cancer genomes and drug responses in designing personalized treatments. Chapters provide a comprehensive overview of the computational approaches, methods, and tools that enable precision oncology, as well as related biological concepts. Covered topics include genome sequencing, the architecture of a precision oncology workflow, and introduces cutting-edge research topics in the field of precision oncology. This book is intended for computational biologists, bioinformaticians, biostatisticians and computational pathologists working in precision oncology and related fields, including cancer genomics, systems biology, and immuno-oncology.

Caracteristici

Provides an overview of the architecture and components of a precision oncology computational workflow
Describes each component of workflow in terms of its tasks, illustrates the biological concepts under investigation
Discusses current challenges and perspectives, and introduces advanced concepts

Descriere

Precision medicine holds great promise for the treatment of cancer and represents a unique opportunity for accelerated development and application of novel and repurposed therapeutic approaches. Current studies and clinical trials demonstrate the benefits of genomic profiling for patients whose cancer is driven by specific, targetable alterations. However, precision oncologists continue to be challenged by the widespread heterogeneity of cancer genomes and drug responses in designing personalized treatments. Chapters provide a comprehensive overview of the computational approaches, methods, and tools that enable precision oncology, as well as related biological concepts. Covered topics include genome sequencing, the architecture of a precision oncology workflow, and introduces cutting-edge research topics in the field of precision oncology. This book is intended for computational biologists, bioinformaticians, biostatisticians and computational pathologists working in precision oncology and related fields, including cancer genomics, systems biology, and immuno-oncology.