Addressing the origin, current status, and future development of point-of-care diagnostics, and serving to integrate knowledge and tools from Analytical Chemistry, Bioengineering, Biomaterials, and Nanotechnology, this book focusses on addressing the collective and combined needs of industry and academia (including medical schools) to effectively conduct interdisciplinary research.
In addition to summarizing and detailing developed diagnostic devices, this book will attempt to point out the possible future trends of development for point-of-care diagnostics using both scientifically based research and practical engineering needs with the aim to help novices comprehensively understand the development of point-of-care diagnostics. This includes demonstrating several common but critical principles and mechanisms used in point-of-care diagnostics that address practical needs (e.g., disease or healthcare monitoring) using two well-developed examples so far: 1) blood glucose meters (via electrochemistry); and, 2) pregnancy tests (via lateral flow assay).
Readers of this book will come to fully comprehend how to develop point-of-care diagnostics devices, and will be inspired to contribute to a critical global cause – the development of inexpensive, effective, and portable in vitro diagnostics tools (for any purpose) that can be used either at home or in resource limited areas.
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1 Introduction to In Vitro Diagnostic Devices |
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2 Polymeric-Based In Vitro Diagnostic Devices |
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2.2 Selection of Polymer Materials |
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2.2.1 Polydimethylsiloxane |
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2.2.2 Cyclic Olefin Copolymer |
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2.3 Fabrication of Polymer Devices |
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2.3.1 Structure Formation |
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2.3.3 World-to-Chip Interface |
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2.4 Fluidic Control Components |
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2.5.4 Detection of Metabolites and Small Molecules |
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2.5.5 DNA- and RNA-Based Diagnosis |
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2.5.6 Protein-Based Diagnosis |
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3 Low-cost In Vitro Diagnostic Technologies |
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3.1 Overview of Low-cost In Vitro Diagnostic Technologies |
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3.2 Paper-Based Microfluidic Devices |
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3.2.2 Fabrication Techniques |
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3.2.4 New Functions and Design |
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3.2.5 Diagnostic Applications |
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3.3 Thread-/Cotton-Based Microfluidics |
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3.4 Commercialization of Low-cost Microfluidic Devices for Clinical Diagnostics |
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4 Glucose Sensor and Its Potential Directions |
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4.2 Design and Fabrication of the Contact Lens-Based Glucose Sensor |
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4.2.1 Glucose Sensor Design and Fabrication |
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4.2.2 LED (Red Light) Fabrication |
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4.2.4 Wireless Readout Chip Architecture |
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4.2.5 Fabrication for the Integration of Radio and Sensor with Contact Lens |
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Chao-Min Cheng
Chao-Min Cheng received his Ph. D. in Biomedical Engineering in 2009 from Carnegie Mellon University under the supervision of Prof. Philip R. LeDuc. He then did his post-doctoral training with Prof. George M. Whitesides at Harvard University where he helped develop paper diagnostic systems to address global public health concerns. He is currently an independent P.I., tenured Associate Professor, at National Tsing Hua University, Taiwan, where he started in the summer of 2011. He has been blessed to receive a Distinguished Young Investigator Research Grant from the National Science Council in Taiwan, and was awarded Excellent Performance on Intellectual Property & Technology Transfer by his school twice (2012 & 2013). He is currently an Acting Member of the International Affairs/Globalization Committee for the Biomedical Engineering Society (BMES), an Editorial Board Member for Sensor Letters and Journal of Cellular and Molecular Medicine and theGuest Editor for Talanta. In addition to his many academic contributions, Dr. Cheng serves as a consultant for biotechnologically relevant companies around the world with approximately 20 patent groups pending (in Taiwan, China, U.S.), and is the co-Founder of start-up companies in Taiwan and the U.S.
Chen-Meng Kuan
Chen-Meng Kuan is a Ph.D. student of the Institute of Nanoengineering and Microsystems at National Tsing Hua University, Taiwan. He received his M.S. from the Institute of Nanoengineering and Microsystems, National Tsing Hua University, in 2010 under the supervision of Prof. Chao-Min Cheng. His main research interest is to develop low-cost analytical devices for biochemical analysis. Specifically, he has worked and continues to work on the development of cotton-based, PDMS-based, and lignocellulosic-based analytical devices for on-site implementation of point-of-care testing and food safety analysis.
Chien-Fu Chen
Chien-Fu Chen is an Assistant Professor at the Graduate Institute of Biomedical Engineering, National Chung Hsing University, Taiwan. He received his Ph. D. from the Institute of Applied Mechanics, National Taiwan University in 2007. He then did his postdoctoral research on sensing platforms using carbon-based nanomaterials at the University of Maryland, College Park with Cheng S. Lee and YuHuang Wang in the Department of Chemistry and Biochemistry, and on polymeric-based liquid chromatography systems with Don L. DeVoe in the Department of Mechanical Engineering from 2007 to 2011. Prof. Chens research focuses on the development of miniaturized systems using micro/nanomaterials for biomedical point-of-care sensing applications that are affordable, sensitive, specific, user-friendly, rapid, robust, and are operable without additional complicated equipment. In addition to being a PI on several research projects, he has also served on program committees and as section chair for over 10 workshops and conferences. In 2014, he received the Young Faculty Award from the College of Engineering, National Chung Hsing University.
Lisainfo e-raamatute kohta