Description
Big data, genomics, and quantitative approaches to network-based analysis are combining to advance the frontiers of medicine as never before. Network Medicine introduces this rapidly evolving field of medical research, which promises to revolutionize the diagnosis and treatment of human diseases. With contributions from leading experts that highlight the necessity of a team-based approach in network medicine, this definitive volume provides readers with a state-of-the-art synthesis of the progress being made and the challenges that remain.
Medical researchers have long sought to identify single molecular defects that cause diseases, with the goal of developing silver-bullet therapies to treat them. But this paradigm overlooks the inherent complexity of human diseases and has often led to treatments that are inadequate or fraught with adverse side effects. Rather than trying to force disease pathogenesis into a reductionist model, network medicine embraces the complexity of multiple influences on disease and relies on many different types of networks: from the cellular-molecular level of protein-protein interactions to correlational studies of gene expression in biological samples. The authors offer a systematic approach to understanding complex diseases while explaining network medicine's unique features, including the application of modern genomics technologies, biostatistics and bioinformatics, and dynamic systems analysis of complex molecular networks in an integrative context.
By developing techniques and technologies that comprehensively assess genetic variation, cellular metabolism, and protein function, network medicine is opening up new vistas for uncovering causes and identifying cures of disease.
About the Author
Joseph Loscalzo is Chair of the Department of Medicine and Physician-in-Chief, Brigham and Women's Hospital, and Hersey Professor of the Theory and Practice of Medicine, Harvard Medical School. Albert-Laszlo Barabasi is Robert Gray Dodge Professor of Network Science and Director of the Center for Complex Network Research at Northeastern University. Edwin K. Silverman is Chief of the Channing Division of Network Medicine at Brigham and Women's Hospital and Professor of Medicine at Harvard Medical School. Nathan Price is Chief Science Officer of Thorne HealthTech and Professor at the Institute for Systems Biology. Selected as an Emerging Leader in Health and Medicine by the National Academy of Medicine, he received the Grace A. Goldsmith Award for his work on scientific wellness and has coauthored over 200 peer-reviewed scientific publications.
Reviews
What will a human look like at molecular levels? The study behind the general concept of Network Medicine examines the effort to identify the blueprint and principles that will enable us to understand this complex life system at molecular levels. This book presents the state of the knowledge of network medicine and is an excellent reference for both experts in the area and general population interested in life science. -- Weiniu Gan, National Heart, Lung, and Blood Institute
This book fills a gap in the literature by applying complex systems theory to the field of medicine. Such application is likely to trigger important results by promoting a very useful shift in perspective. Definitely a book to read. -- Guido Caldarelli, IMT Institute for Advanced Studies Lucca
Book Information
ISBN 9780674436534
Author Joseph Loscalzo
Format Hardback
Page Count 448
Imprint Harvard University Press
Publisher Harvard University Press
