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The Science and Application of Aqueous Two-Phase Systems and Liquid-Liquid Phase Separation in Biotechnology and Bioengineering
The phase separation of incompatible liquids has been a topic of significant importance in chemical and industrial engineering for many years. Well-understood examples of this phenomenon include the phase separation of oil with water and the phase separation of non-polar organic solvents with water. Similar behavior is observed when aqueous solutions of two or more incompatible polymers or polymers and salts are mixed. In these mixtures (referred to as aqueous two-phase systems), the separated phases are composed mostly of water. Aqueous two-phase systems have been used extensively for the extraction of high-value biological products from mixtures of biological materials. In recent years, aqueous two-phase systems have also found increased use as materials for streamlining and improving the capabilities of cell and molecular assays, and for the design of advanced cell culture systems. Similar behavior of biological materials in living systems has also been observed, with emerging roles in cell physiology.
The Physiological Measurement Handbook
The Physiological Measurement Handbook presents an extensive range of topics that encompass the subject of measurement in all departments of medicine. The handbook describes the use of instruments and techniques for practical measurements required in medicine. It covers sensors, techniques, hardware, and software as well as information on processing systems, automatic data acquisition, reduction and analysis, and their incorporation for diagnosis. Suitable for both instrumentation designers and users, the handbook enables biomedical engineers, scientists, researchers, students, health care personnel, and those in the medical device industry to explore the different methods available for meas...
Essentials of 3D Biofabrication and Translation
Essentials of 3D Biofabrication and Translation discusses the techniques that are making bioprinting a viable alternative in regenerative medicine. The book runs the gamut of topics related to the subject, including hydrogels and polymers, nanotechnology, toxicity testing, and drug screening platforms, also introducing current applications in the cardiac, skeletal, and nervous systems, and organ construction. Leaders in clinical medicine and translational science provide a global perspective of the transformative nature of this field, including the use of cells, biomaterials, and macromolecules to create basic building blocks of tissues and organs, all of which are driving the field of biofabrication to transform regenerative medicine. - Provides a new and versatile method to fabricating living tissue - Discusses future applications for 3D bioprinting technologies, including use in the cardiac, skeletal, and nervous systems, and organ construction - Describes current approaches and future challenges for translational science - Runs the gamut of topics related to the subject, from hydrogels and polymers to nanotechnology, toxicity testing, and drug screening platforms
Program for the Annual Meeting of the Society for the Study of Reproduction
Includes "Abstracts of papers presented at the annual meeting."
Microfluidics for Cellular Applications
Microfluidics for Cellular Applications describes microfluidic devices for cell screening from a physical, technological and applications point-of-view, presenting a comparison with the cell microenvironment and conventional instruments used in medicine. Microfluidic technologies, protocols, devices for cell screening and treatment have reached an advanced state but are mainly used in research. Sections break them down into practical applications and conventional medical procedures and offers insights and analysis on how higher resolutions and fast operations can be reached. This is an important resource for those from an engineering and technology background who want to understand more and gain additional insights on cell screening processes. - Outlines the major applications of microfluidic devices in medicine and biotechnology - Assesses the major challenges of using microfluidic devices in terms of complexity of the control set-up, ease of use, integration capability, automation level, analysis throughput, content and costs - Describes the major fabrication techniques for assembling effective microfluidic devices for bioapplications
Congressional Record
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