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Membranes for Life Sciences by Klaus-Viktor Peinemann,Suzana Pereira Nunes Pdf
Examining artificial membranes in terms of biocompatibility, drug delivery and controlled release, this book illustrates how existing membrane technologies are being exploited and advanced in emerging medical applications. This work, edited by internationally recognized experts, has author contributions from prominent members of this field who discuss details of all aspects of this technology. This volume provides broad, yet detailed information on synthetic membranes and their applications, including dialysis and artificial kidneys, gas exchange, artificial lungs, devices to assist liver function, and membrane affinity chromatography.
Comprehensive Membrane Science and Engineering by Enrico Drioli,Lidietta Giorno Pdf
Comprehensive Membrane Science and Engineering, Four Volume Set covers all aspects of membrane science and technology - from basic phenomena to the most advanced applications and future perspectives. Modern membrane engineering is critical to the development of process-intensification strategies and to the stimulation of industrial growth. The work presents researchers and industrial managers with an indispensable tool toward achieving these aims. Covers membrane science theory and economics, as well as applications ranging from chemical purification and natural gas enrichment to potable water Includes contributions and case studies from internationally recognized experts and from up-and-coming researchers working in this multi-billion dollar field Takes a unique, multidisciplinary approach that stimulates research in hybrid technologies for current (and future) life-saving applications (artificial organs, drug delivery)
Membranes to Molecular Machines by Mathias Grote Pdf
Today's science tells us that our bodies are filled with molecular machinery that orchestrates all sorts of life processes. When we think, microscopic "channels" open and close in our brain cell membranes; when we run, tiny "motors" spin in our muscle cell membranes; and when we see, light operates "molecular switches" in our eyes and nerves. A molecular-mechanical vision of life has become commonplace in both the halls of philosophy and the offices of drug companies, where researchers are developing “proton pump inhibitors” or medicines similar to Prozac. Membranes to Molecular Machines explores just how late twentieth-century science came to think of our cells and bodies this way. This story is told through the lens of membrane research, an unwritten history at the crossroads of molecular biology, biochemistry, physiology, and the neurosciences, that directly feeds into today's synthetic biology as well as nano- and biotechnology. Mathias Grote shows how these sciences not only have made us think differently about life, they have, by reworking what membranes and proteins represent in laboratories, allowed us to manipulate life as "active matter" in new ways. Covering the science of biological membranes in the United States and Europe from the mid-1960s to the 1990s, this book connects that history to contemporary work with optogenetics, a method for stimulating individual neurons using light, and will enlighten and provoke anyone interested in the intersection of chemical research and the life sciences—from practitioner to historian to philosopher.
An Introduction to Biological Membranes by William Stillwell Pdf
An Introduction to Biological Membranes: From Bilayers to Rafts covers many aspects of membrane structure/function that bridges membrane biophysics and cell biology. Offering cohesive, foundational information, this publication is valuable for advanced undergraduate students, graduate students and membranologists who seek a broad overview of membrane science. Brings together different facets of membrane research in a universally understandable manner Emphasis on the historical development of the field Topics include membrane sugars, membrane models, membrane isolation methods, and membrane transport.
Describes the properties of cellular membranes and their relationship with fundamental biological processes. This book provides insight on the chemistry, structures, model systems, and techniques employed for studying membrane properties and processes. A major focus is on the prominence of membranes in diverse physiological processes and disease, as well as applications of membranes and biomimetic membrane systems in varied disciplines. The book aims to illuminate the significance and beauty of membrane science, and serve both as an entry point for scholars wishing to embark on membrane research, as well as scientists already working in the field.
This book is a collection of papers derived from a conference on membranes held at the Columbus Laboratories of Battelle Memorial Institute in Columbus, Ohio, on October 20 and 21,1969. When a decision is made to sponsor a membrane conference, the problem immediately arises as to what aspect of the technology needs to be emphasized. There were several alternatives from which to choose. The Office of Saline Water, for example, has been sup porting for many years a tremendous volume of research on the desalination of sea and brackish water. In fact, were it not for this effort, the conference which resulted in this book could probably not have been held. Regardless, one could not easily choose to hold a conference on water desalting because the subject is adequately covered in the literature, and yearly conferences are sponsored by the funding agency. Other government agencies, specifically The National Heart and Lung Institutes and The National Institute of Arthritis and Metabolic Diseases, have supported a sizable number of research programs involving the use of membranes for biomedical devices useful in blood oxygenation and kidney augmentation or replacement. Again, these groups have their own outlets for disseminating research results. Still other choices existed among such areas as permeation processes for petroleum separations, advanced or novel membrane process concepts, or characterization of membranes - morphology, permeation prop erties, etc. , - or biological membranes. None of these areas seemed to provide just the right technological emphasis.
Current Trends and Future Developments on (Bio-) Membranes by Angelo Basile,Catherine Charcosset Pdf
Current Trends and Future Developments on (Bio-) Membranes: Membrane Processes in the Pharmaceutical and Biotechnological field presents the main membrane techniques along with their basic principles, mode of operations, and applications. It covers well-known techniques such as ultrafiltration and membrane chromatography, while also exploring emerging membrane technologies which are finding their way in pharmaceutical and biotechnology industries, including membrane emulsification, membrane bioreactors, and solvent-resistant nanofiltration. State-of-the-art applications of membrane systems in areas such as drug delivery and virus removal are also investigated by leading experts in the field. Current Trends and Future Developments on (Bio-) Membranes: Membrane Processes in the Pharmaceutical and Biotechnological field is a definitive reference for academics, post-graduates, and researchers in the subjects of biochemical engineering, pharmaceutics, and biotechnology. It is also useful to R&D companies and institutions in these areas, specifically those interested in bioseparations, biopurification, bioproduction, and drug delivery. Offers an overview of classical membrane-based separation techniques such as ultrafiltration, microfiltration and virus filtration Discusses emerging membrane-based separation techniques such as nofiltration in the presence of solvent, membrane emulsification and membrane crystallization Outlines their applications to bioseparation, biopurification and bioproduction Includes examples in the production of vaccines, antibiotics, biomolecules, drugs, DNA and cells Lists membranes systems for drug delivery like liposomes, nanocapsules and bilayer membranes
Characterization of Biological Membranes by Mu-Ping Nieh,Frederick A. Heberle,John Katsaras Pdf
The study of membranes has become of high importance in the fields of biology, pharmaceutical chemistry and medicine, since much of what happens in a cell or in a virus involves biological membranes. The current book is an excellent introduction to the area, which explains how modern analytical methods can be applied to study biological membranes and membrane proteins and the bioprocesses they are involved to.
Biomedical Membranes And (Bio)artificial Organs by Stamatialis Dimitrios Pdf
This book focusses on the development of biomedical membranes and their applications for (bio)artificial organs. It covers the state of art and main challenges for applying synthetic membranes in these organs. It also highlights the importance of accomplishing an integration of engineering with biology and medicine to understand and manage the scientific, industrial, clinical and ethical aspects of these organs. The compendium consists of 11 chapters, written by world renowned experts in the fields of membrane technology, biomaterials science and technology, cell biology, medicine and engineering. Every chapter describes the clinical needs and the materials, membranes, and concepts required for the successful development of the (bio)artificial organs. This text is suitable for undergraduate and graduate students in biomedical engineering, materials science and membrane science and technology, as well as, for professionals and researchers working in these fields. Contents: Controlled Drug Release Systems: Mechanisms and Kinetics (M Sanopoulou and K G Papadokostaki)Membranes for Artificial Kidneys (J Vienken)Advanced Blood Purification Therapies (O ter Beek, I Geremia, D Pavlenko and D Stamatialis)Membranes for Artificial Lung and Gas Exchange Applications (F Wiese)Membranes for Bioartificial Kidney Devices (N Chevtchik, P Caetano Pinto, R Masereeuw and D Stamatialis)Membrane-Based Bioartificial Liver Devices (S Khakpour, H M M Ahmed and L De Bartolo)Are Co-Culture Approaches Able to Improve Biological Functions of Bioartificial Livers? (V Pandolfi, U Pereira, M Dufresne and C Legallais)Membranes for Bioartificial Pancreas: Macroencapsulation Strategies (K Skrzypek, M G Nibbelink, M Karperien, A van Apeldoorn and D Stamatialis)Early Health Economic Evaluation of Bioartificial Organs: Involving Users in the Design of the Bioartificial Pancreas for Diabetes (M J IJzerman, T Wissing and E de Koning)Membranes for Regenerative Medicine in Clinical Applications (G F D'Urso Labate and G Catapano)Membranes for Organs-on-Chips (M P Tibbe, A D van der Meer, A van den Berg, D Stamatialis and L I Segerink) Readership: Researchers, professionals, undergraduate and graduate students in biomedical engineering, bioengineering and membrane science and technology. Keywords: Biomedical Membranes;Bioartificial;OrgansReview:0
Physics of Biological Membranes by Patricia Bassereau,Pierre Sens Pdf
This book mainly focuses on key aspects of biomembranes that have emerged over the past 15 years. It covers static and dynamic descriptions, as well as modeling for membrane organization and shape at the local and global (at the cell level) scale. It also discusses several new developments in non-equilibrium aspects that have not yet been covered elsewhere. Biological membranes are the seat of interactions between cells and the rest of the world, and internally, they are at the core of complex dynamic reorganizations and chemical reactions. Despite the long tradition of membrane research in biophysics, the physics of cell membranes as well as of biomimetic or synthetic membranes is a rapidly developing field. Though successful books have already been published on this topic over the past decades, none include the most recent advances. Additionally, in this domain, the traditional distinction between biological and physical approaches tends to blur. This book gathers the most recent advances in this area, and will benefit biologists and physicists alike.
Membranes to Molecular Machines by Mathias Grote Pdf
Today's science tells us that our bodies are filled with molecular machinery that orchestrates all sorts of life processes. When we think, microscopic "channels" open and close in our brain cell membranes; when we run, tiny "motors" spin in our muscle cell membranes; and when we see, light operates "molecular switches" in our eyes and nerves. A molecular-mechanical vision of life has become commonplace in both the halls of philosophy and the offices of drug companies, where researchers are developing “proton pump inhibitors” or medicines similar to Prozac. Membranes to Molecular Machines explores just how late twentieth-century science came to think of our cells and bodies this way. This story is told through the lens of membrane research, an unwritten history at the crossroads of molecular biology, biochemistry, physiology, and the neurosciences, that directly feeds into today's synthetic biology as well as nano- and biotechnology. Mathias Grote shows how these sciences not only have made us think differently about life, they have, by reworking what membranes and proteins represent in laboratories, allowed us to manipulate life as "active matter" in new ways. Covering the science of biological membranes in the United States and Europe from the mid-1960s to the 1990s, this book connects that history to contemporary work with optogenetics, a method for stimulating individual neurons using light, and will enlighten and provoke anyone interested in the intersection of chemical research and the life sciences—from practitioner to historian to philosopher. The research described in the book and its central actor, Dieter Oesterhelt, were honored with the 2021 Albert Lasker Basic Medical Research Award for his contribution to the development of optogenetics.
Issues in Life Sciences—Muscle, Membrane, and General Microbiology: 2013 Edition by Anonim Pdf
Issues in Life Sciences—Muscle, Membrane, and General Microbiology: 2013 Edition is a ScholarlyEditions™ book that delivers timely, authoritative, and comprehensive information about Membrane Biology. The editors have built Issues in Life Sciences—Muscle, Membrane, and General Microbiology: 2013 Edition on the vast information databases of ScholarlyNews.™ You can expect the information about Membrane Biology in this book to be deeper than what you can access anywhere else, as well as consistently reliable, authoritative, informed, and relevant. The content of Issues in Life Sciences—Muscle, Membrane, and General Microbiology: 2013 Edition has been produced by the world’s leading scientists, engineers, analysts, research institutions, and companies. All of the content is from peer-reviewed sources, and all of it is written, assembled, and edited by the editors at ScholarlyEditions™ and available exclusively from us. You now have a source you can cite with authority, confidence, and credibility. More information is available at http://www.ScholarlyEditions.com/.
Permeability of Biological Membranes by Gaspar Banfalvi Pdf
This book deals with biological membranes, focuses on permeabilization and pays particular attention to reversible permeabilization to maintain the viability and physiological conditions of the cells. Selective permeability of biological membranes also known as semipermeability, partial permeability or differential permeability allows molecules to diffuse, pass by passive and active or by other types of transport processes mediated by proteins. The first chapter of the book deals with the composition of biological membranes, characterizes cellular membranes of prokaryotic, eukaryotic cells, membranes of cellular organelles and the function of biological membranes. The second chapter provides an overview of bilayer permeability, selectivity of permeabilization and cellular transport processes. Chapter 3 overviews different cell manipulations that aim to make cells permeable while maintaining not only the structural but also the functional integrity of cells. The last chapter deals with applications, particularly with reversible permeabilization to study macromolecular (DNA, RNA, poly-ADP ribose) biosynthetic processes, replication, gene expression, visualization of replicons, intermediates of chromosome condensation, genotoxic chromatin changes, upon treatment with heavy metals and different types of irradiation. The interdisciplinary aspects of the book contribute to the understanding of the structure of nucleic acids, replicative intermediates, Okazaki fragments, RNA primer mechanism, subphases of replication and repair synthesis, replicons, gene expression, chromosome condensation generated a wealth of information that will attract a wide readership. The natural audience engaged in DNA research, including genetics, cell and molecular biology, chemistry, biochemistry, medicine, pharmacy will find essential material in the book.
Advances in Membrane Science and Technology by Tongwen Xu Pdf
In recent years, membranes and related technologies have gained more technical and commercial relevance. Their applications have extended to environmental, chemical, medical, food, and energy industries. To date, many books on membranes have been published to awaken reader's interest in this field. This book, however, is intended not to make a summary of the literature in these areas, but to focus on the current status of some advanced membrane technologies which are well related to human life. Eight chapters were contributed by well-known researchers and professors in the corresponding fields. Chapter 1 from Prof. Strathmann takes a roam through membrane science and technology -- from desalination and artificial kidneys to fuel cell separators and membrane reactors, informing the reader of what kind of membrane technologies have come true, or might or might never come true. Chapter 2 by Prof. Tongwen Xu concentrates on the current science and technology using electro-membranes. Chapter 3 treats of the application of membranes to energy supply, which has been a hot issue for sustainable development of our earth and contributed by famous exporter (Dr J Kerres and co-worker). Chapter 4 described novel Inorganic-organic hybrid membranes, which, were recently developed and expected to be applied in such harsh conditions as high temperature and strongly oxidising circumstances. The improvements on traditional chemical processes using membrane technologies are summarised in Chapter 5 by Prof. Chung TS and his co-workers and exemplified with pervaporation for organic separation. Chapter 6 covers a hot issue in our daily life: recycling of municipal waste water using membrane bioreactors and contributed by Prof. Kim In S. Another distinctive characteristic about membrane technologies is integration flexibility, which is crucial to the realisation of multiple functions needed for a specific complex industrial application. Prof. Moon SH and Dr. Lee HJ contributed to such technique integrations. Membrane controlled release, the focus of Chapter 8 from Prof. Chu Ly, is an emerging membrane technology that might come true and has proved important in medical and pharmaceutical applications.