Micro/Nano Technology Systems for Biomedical Applications: Microfluidics, Optics, and Surface

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In daily life, we are accustomed to working with length scales of feet or meters, but the building blocks from which our bodies are constructed are many orders of magnitude smaller. The technologies that are being developed to intervene at these minute scales have the potential to improve human health and significantly enrich our lives. Revolutionary micro/nano technology platforms have led to dramatic advances in sample preparation, analysis and cell culture. From the 1990s through to the very beginning of the twenty-first century, the focus was on the development of manufacturing technologies. Through elegant design and sophisticated fabrication, the micro- to nano-scale manipulation of fluids and particles has become routine. Since then, it has become possible to control molecular interactions at device surfaces, and optical manipulation, imaging and sensing techniques can also be incorporated. Micro/nano technology platforms are already being used to study and direct biological processes at the cellular and sub-cellular level, and to detect disease with greater sensitivity and specificity. The challenges and excitement in the near future will be in engineering these sophisticated, multifunctional devices to seamlessly interface with complex biological systems. Providing a clear guide that moves from molecules through devices to systems, this book reviews fundamental aspects of microfluidic devices, including fabrication, surface property control, pressure-driven and electrokinetic flow, and functions such as fluid mixing, particle sorting and molecular separations. The integration of optical and plasmonic imaging, optoelectronic tweezers for single particle manipulation, and optical and electrical signal transduction methods for biosensing are shown to provide extraordinary capabilities for bioanalytical and biomedical applications. These represent key areas of research that will lead to the next generation of micro/nano-based systems. Anyone working in this fast-changing field will benefit from this comprehensive review of the latest thinking, while researchers will find much to inspire and direct their work.

Biochemistry and Cell Biology of Ageing: Part III Biomedical Science (1版)

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This book provides a state-of-the-art overview of key areas of subcellular aging research in human cells. The reader is introduced to the historical development and progress in biomedical aging research and learns, for example, about the role of microRNAs, circRNAs, mitochondria and extracellular vesicles in cellular senescence. The reader will also learn more about how gap junctions, the nuclear pore complex and the proteasome are affecting the ageing processes. In addition, novel therapeutic opportunities through modulation of cellular senescence are discussed. The book follows on from Parts I and II of Biochemistry and Cell Biology of Ageing (Volumes 90 and 91 of the Subcellular Biochemistry book series) by covering interesting and significant biomedical ageing topics not included in the earlier volumes. Comprehensive and cutting-edge, this book is a valuable resource for experienced researchers and early career scientist alike, who are interested in learning more about the fascinating and challenging question of why and how our cells age.

Healthcare Finance : Modern Financial Analysis for Accelerating Biomedical Innovation

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We are living in a golden age of biomedical innovation, yet entrepreneurs still struggle with the so-called Valley of Death when seeking funding for their biotech start-ups. In Healthcare Finance, Andrew Lo and Shomesh Chaudhuri show that there are better ways to finance breakthrough therapies, and they provide the essential financial tools and concepts for creating the next generation of healthcare technologies. Geared for MBA and life sciences students, as well as biopharma executives and healthcare investment professionals, this textbook covers the theory and application of financial techniques such as diversification, discounted cash flow analysis, real options, Monte Carlo simulation, and securitization, all within the context of managing biomedical assets. The book demonstrates that more efficient funding structures can reduce financial risks, lower the cost of capital, and bring more lifesaving therapies to patients faster. Readers will gain the background, framework, and techniques needed to reshape the healthcare industry in positive ways. Finance doesn’t have to be a zero-sum game, and Healthcare Finance proves that it is possible to do well by doing good. Explores new financing methods for the biopharma industry Provides accessible explanations for making good business decisions in the life sciences Analyzes real-world examples, case studies, and practical applications Includes access to videos of lectures and recitations, interactive figures, self-graded problem sets, and other online content Awards and Recognition Finalist for the PROSE Award in Reference Works – Social Sciences, Association of American Publishers