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Leveraging Biomedical and Healthcare Data: Semantics, Analytics and Knowledge de Firas Kobeissy

Leveraging Biomedical and Healthcare Data: Semantics, Analytics and Knowledge

Editat de Firas Kobeissy, Kevin Wang, Fadi A. Zaraket, Ali Alawieh
en Limba Engleză Paperback – 28 noi 2018
Leveraging Biomedical and Healthcare Data: Semantics, Analytics and Knowledge provides an overview of the approaches used in semantic systems biology, introduces novel areas of its application, and describes step-wise protocols for transforming heterogeneous data into useful knowledge that can influence healthcare and biomedical research. Given the astronomical increase in the number of published reports, papers, and datasets over the last few decades, the ability to curate this data has become a new field of biomedical and healthcare research. This book discusses big data text-based mining to better understand the molecular architecture of diseases and to guide health care decision.
It will be a valuable resource for bioinformaticians and members of several areas of the biomedical field who are interested in understanding more about how to process and apply great amounts of data to improve their research.


  • Includes at each section resource pages containing a list of available curated raw and processed data that can be used by researchers in the field
  • Provides demonstrative and relevant examples that serve as a general tutorial
  • Presents a list of algorithm names and computational tools available for basic and clinical researchers
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Specificații

ISBN-13: 9780128095560
ISBN-10: 0128095563
Pagini: 225
Dimensiuni: 191 x 235 mm
Greutate: 0.4 kg
Editura: ELSEVIER SCIENCE

Public țintă

bioinformaticians; graduate students in systems biology; members of biomedical field interested in data mining and data integration technologies.

Cuprins

Part I Understanding Molecular Architecture of Disease Using Big Data1. Curation of molecular data pertaining to human cancer and the Cancer Genome Atlas Initiative 2. Merging data from published literature to understand the sequence of disease pathology 3. Predicting potential therapeutic targets using drug-gene and gene-disease associations 4. Combination of graph theory and big data analysis in genomics and proteomics 5. Challenges in sharing, standardization and dissemination of molecular big data
Part II Guiding Health Care Decisions Using Big Data6. Towards a unified version of EMR corpora and data systems7. Natural language processing and computational linguistics in EMR analysis8. Orienting infectious disease management using Big Data9. Modeling disease burden using big data10. Automated diagnosis and risk factor prediction based on natural language processing
Part III Online Repositories and In-Silico Research in the Era of Big Data11. Curating a brain connectome using Big Data12. Genotype and phenotype associations using online clinical repositories – a step-wise approach13. In-silico pharmacology and cost- and time- effective approaches in drug discovery14. Guided and semi-automatic approaches for clinical meta-analyses15. Towards a unified language in molecular big data