Biomaterials In Microencapsulation
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Biomaterials in Microencapsulation
Author: Ashutosh Sharma
language: en
Publisher: BoD – Books on Demand
Release Date: 2024-10-16
This extensive work covers the latest developments in drug delivery, biomaterials, and encapsulating systems and their revolutionary potential in several fields. Highlighting encapsulation techniques that improve therapy accuracy and reduce adverse effects, this book explores the most recent developments in photodynamic and photothermal treatments. It delves further into the many medicinal applications of hydrogels, including their use in controlled medication release and regenerative medicine. An eco-friendly method of administering medicinal substances is discussed in detail in several chapters, as is the use of encapsulating systems based on pectin to stabilize bioactive chemicals. Discover the incredible world of microencapsulation and how it has revolutionized modern medicine. These techniques allow for the exact distribution and increased preservation of delicate medications. Finally, learn how hydrogel coatings are developing to tackle maritime antifouling, which is a tough problem, and how to make sure they last and work in extreme conditions. Anyone interested in biotechnology, pharmaceuticals, materials science, or marine engineering will find this volume to be an indispensable resource. From healthcare to sustainability, it shows how encapsulation and biomaterials may address problems in the actual world. Inspiring future developments in medication delivery systems, biomaterials, and beyond, this book ignites fresh ideas with contributions from prominent specialists in the area.
Principles of Biomaterials Encapsulation: Volume One
Principles of Biomaterials Encapsulation: Volume One, provides an expansive and in-depth resource covering the key principles, biomaterials, strategies and techniques for encapsulation. Volume One begins with an introduction to encapsulation, with subsequent chapters dedicated to a broad range of encapsulation principles and techniques, including spray chilling and cooling, microemulsion, polymerization, extrusion, cell microencapsulation and much more. This book methodically details each technique, assessing the advantages and disadvantages of each, allowing the reader to make an informed decision when using encapsulation in their research. Principles of Biomaterials Encapsulation: Volume One enables readers to learn about the various strategies and techniques available for encapsulation of a wide selection of biomedical substrates, such as drugs, cells, hormones, growth factors and so on. Written and edited by well-versed materials scientists with extensive clinical, biomedical and regenerative medicine experience, this book offers a deeply interdisciplinary look at encapsulation in translational medicine. As such, this book will provide a useful resource to a broad readership, including those working in the fields of materials science, biomedical engineering, regenerative and translational medicine, pharmacology, chemical engineering and nutritional science. - Details the various biomaterials available for encapsulation, as well as advantages and disadvantages of conventional and contemporary biomaterials for encapsulations - Describes a broad range of applications in regenerative medicine, uniquely bringing encapsulation into the worlds of translational medicine and tissue engineering - Written and edited by well-versed materials scientists with extensive clinical, biomedical and regenerative medicine experience, offering an interdisciplinary approach
Therapeutic Applications of Cell Microencapsulation
Author: Jose Luis Pedraz
language: en
Publisher: Springer Science & Business Media
Release Date: 2010-12-31
The advancement of science is ever more contingent upon the interaction of experts vast amount of scientific information being gathered every day that exceeds the ability of any one scientist to acquire. As an illustration of the frantic pace of scientific disc- more acute in the case of scientific fields at the interface of different and seemingly distant areas of study. Amidst these, the field of cell encapsulation brings together an array of diverse disciplines such as molecular biology and biopolymers, gene therapy and inorganic membranes, stem cell biology and physicochemistry, immunology and nanotechnology. Clearly, such range of topics is too broad for any individual scientist the state-of-the-art in the field of cell encapsulation. At the core of this technology, there is an interaction of physicochemical and biological elements forming three distinct layers of complexity. First, the chemistry of the biopolymer dictates the degree of protein adsorption, vascularization, tox- ity and biocompatibility of the microcapsules. Advances in biopolymer science are providing solutions to overcome existing challenges and to improve microcapsules as delivery vehicles. Second, the choice of cells, and more precisely the plethora of in determining the immune response elicited by the host to implanted microcapsules.