The Handbook of Metabolic Phenotyping is the definitive work on the rapidly developing subject of metabolic phenotyping. It explores in detail the wide array of analytical chemistry and statistical modeling techniques used in the field, coupled with surveys of the various application areas in human development, nutrition, disease, therapy, and epidemiology to create a comprehensive exploration of the area of study. It covers recent studies that integrate the various -omics data sets to derive a systems biology view. It also addresses current issues on standardization, assay and statistics…mehr
The Handbook of Metabolic Phenotyping is the definitive work on the rapidly developing subject of metabolic phenotyping. It explores in detail the wide array of analytical chemistry and statistical modeling techniques used in the field, coupled with surveys of the various application areas in human development, nutrition, disease, therapy, and epidemiology to create a comprehensive exploration of the area of study. It covers recent studies that integrate the various -omics data sets to derive a systems biology view. It also addresses current issues on standardization, assay and statistics validation, and data storage and sharing. Written by experts with many years of practice in the field who pioneered many of the approaches widely used today, The Handbook of Metabolic Phenotyping is a valuable resource for postgrads and research scientists studying and furthering the field of metabolomics.
Dr. John C. Lindon is a professor and senior research investigator in the Division of Computational and Systems Medicine, part of the Department of Surgery and Cancer, Imperial College London. He is also a founder, director of, and a consultant to Metabometrix Ltd, a company spun out of Imperial College to exploit the commercial possibilities of metabolic phenotyping. He is editor in chief of the Encyclopedia of Spectroscopy and Spectrometry and is on the editorial board of several journals. His major research interest is the use of NMR and other analytic methods coupled with multivariate statistics to study biofluids and tissues, a field now termed metabolic phenotyping.
Dr. Jeremy K. Nicholson is the head of the Department of Surgery and Cancer at Imperial College London and has held honorary professorships at six universities. Additionally, he held two professorships at the Chinese Academy of Sciences, of which he was elected as an Albert Einstein Honorary Professor in 2014. He is also a founder, director, chief scientist, and chief scientist officer at Metabometrix Ltd. His research interests include spectroscopic and chemometric approaches to the investigation of disturbed metabolic processes in complex organisms.
Inhaltsangabe
1. An Overview of Metabolic Phenotyping and Its Role in Systems Biology
2. NMR Spectroscopy Methods in Metabolic Phenotyping
3. The Role of Ultra Performance Liquid Chromatography-Mass Spectrometry in Metabolic Phenotyping
4. GC-MS-Based Metabolic Phenotyping
5. Metabolic Phenotyping Using Capillary Electrophoresis Mass Spectrometry
6. Supercritical Fluid Chromatography for Metabolic Phenotyping: Potential and Applications
7. The iKnife: Development and Clinical Applications of Rapid Evaporative Ionization Mass Spectrometry
8. Univariate Statistical Modeling, Multiple Testing Correction, and Visualization in Metabolome-Wide Association Studies
9. Multivariate Statistical Methods for Metabolic Phenotyping
10. Data-Driven Visualizations in Metabolic Phenotyping
11. Big Data and Databases for Metabolic Phenotyping
12. Progress in Standardization of Metabolic Phenotyping Data
13. Conception, Implementation and Operation of Large-Scale Metabolic Phenotyping Centres: Phenome Centres
14. Applications of Metabolic Phenotyping in Pharmaceutical Research and Development
15. Metabolic Phenotyping in Nutrition Research
16. Metabolic Phenotyping in Clinical Practice
17. Applications of Metabolic Phenotyping in Epidemiology
18. Influence of the Human Gut Microbiome on the Metabolic Phenotype
19. Linking Metabolic Phenotyping and Genomic Information
20. Metabolic Phenotyping: History, Status, and Prospects