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The growing area of peptide and protein therapeutics research is of paramount importance to medical application and advancement. A needed reference for entry level researchers and researchers working in interdisciplinary / collaborative projects, Peptide and Protein Delivery addresses the current and emerging routes for delivery of therapeutics. Covering cerebral delivery, pulmonary delivery, transdermal delivery, intestinal delivery, ocular delivery, parenteral delivery, and nasal delivery, this resource offers an overview of the main routes in therapeutics. Researchers across biochemistry, pharmaceutical, molecular biology, cell biology, immunology, chemistry and biotechnology fields will find this publication invaluable for peptide and protein laboratory research. Discusses the most recent data, ideas and concepts Presents case studies and an industrial perspective Details information from the molecular level to bioprocessing Thought provoking, for the novice to the specialist Timely, for today's biopharmaceuticals market
This reference/text covers fundamentals of peptide and protein drug delivery, including such considerations as synthesis, physical chemistry and biochemistry, analysis, proteolytic and transport constraints, pharmacokinetics, and pharmacodynamics; bioavailability from routes of administration, detai
In response to the tremendous increase in the number of protein and peptide drugs, this treatise critically reviews transport and metabolism mechanisms relating to the delivery of endogenous and recombinant proteins to mammalian organs, tissues, and cells. It will promote fruitful collaboration among academic and industrial scientists in the fields of pharmacology, cell biology, biochemistry, physiology, and immunology.
First published in 1995. Routledge is an imprint of Taylor & Francis, an informa company.
Advances in biotechnology have provided scientists with an increasing number of biopharmaceuticals such as novel peptide and protein drugs as well as nucleic acid based drugs for gene therapy. However, successful delivery of these biopharmaceuticals is a major challenge because their molecular properties lead to poor physical and chemical stability in the body and limited membrane permeability. Therefore researchers are developing a range of new delivery technologies and materials to enable these new drugs to be delivered intact to their target sites. Delivery Technologies for Biopharmaceuticals describes strategies to overcome the main barriers for successful delivery of therapeutic peptides, proteins, and nucleic acid-based drugs or vaccines related to the site of administration and the target site. Many of the approaches described are reported in formulations in current clinical trials as well as in marketed products. Contents include: challenges in delivery of biopharmaceuticals novel formulation approaches for peptide and protein injectables non-viral chemical vectors and viral technology for delivery of nucleic acid based drugs immune response, adjuvants and delivery systems for vaccines several examples of delivery systems for different biopharmaceuticals a critical assessment of delivery technologies for biopharmaceuticals Delivery Technologies for Biopharmaceuticals is an essential single-volume introduction to the technologies used by researchers to ensure efficient delivery of this exciting new class of drugs. It will be of value to researchers and students working in drug delivery, formulation, biopharmaceuticals, medicinal chemistry, and new materials development.
Upon publication of the first edition of Therapeutic Peptides and Proteins ten years ago there were only 19 biotechology medicines on the market. Currently there are more than 100, with at least 400 more in various stages of development. That alone would be grounds for a new edition. Add to that the fact that it is still difficult to find up
Thirteen chapters by industrial and academic authorities in this rapidly evolving field present detailed case histories and reviews of current sophisticated protein-drug delivery technologies. Highlights include a comprehensive overview of insulin delivery and a discussion of the use of biodegradable microspheres.
This book features a special subsection of Nanomedicine, an application of nanotechnology to achieve breakthroughs in healthcare. It exploits the improved and often novel physical, chemical and biological properties of materials only existent at the nanometer scale. As a consequence of small scale, nanosystems in most cases are efficiently uptaken by cells and appear to act at the intracellular level. Nanotechnology has the potential to improve diagnosis, treatment and follow-up of diseases, and includes targeted drug delivery and regenerative medicine; it creates new tools and methods that impact significantly upon existing conservative practices. This volume is a collection of authoritative reviews. In the introductory section we define the field (intracellular delivery). Then, the fundamental routes of nanodelivery devices, cellular uptake, types of delivery devices, particularly in terms of localized cellular delivery, both for small drug molecules, macromolecular drugs and genes; at the academic and applied levels, are covered. The following section is dedicated to enhancing delivery via special targeting motifs followed by the introduction of different types of intracellular nanodelivery devices (e.g. a brief description of their chemistry) and ways of producing these different devices. Finally, we put special emphasis on particular disease states and on other biomedical applications, whilst diagnostic and sensing issues are also included. Intracellular delivery / therapy is a highly topical which will stir great interest. Intracellular delivery enables much more efficient drug delivery since the impact (on different organelles and sites) is intracellular as the drug is not supplied externally within the blood stream. There is great potential for targeted delivery with improved localized delivery and efficacy.
Peptide and Protein Drug Delivery Using Polysaccharides offers an interdisciplinary discussion of polysaccharides applied in peptide and protein drug delivery. Chapters consider basic biology of different polysaccharides of current interest and their production at pilot and large-scale stages by various techniques including, but not limited to, cell and hairy root cultures. Other sections examine factors affecting polysaccharide absorption, metabolism, and excretion in nascent, encapsulated, or conjugated forms, with unique coverage of vaccine absorption, metabolism, and drug delivery. A final section considers analytical methods for detection in tissue fluids and homogenates. Accessible figures, tables, and graphical abstracts are included throughout to support understanding. Specific polysaccharides discussed for therapeutic purposes include cellulose, hyaluronic acid, heparin, carageenan, alginic acid, agar and myrrh, acacia, tragacanth, ghatti gum, chitin, chitosan, starch, glycogen and dextran. Adopts an interdisciplinary approach across biochemistry, molecular biology, pharmaceutical sciences and drug delivery, and biotechnological perspectives Features accessible figures, tables and graphical abstracts across all chapters to support understanding Examines various polysaccharides of current interest and aspects affecting their absorption, metabolism, excretion and detection
The rapid advances in recombinant DNA technology and the increasing availability of peptides and proteins with therapeutic potential are a challenge for pharmaceutical scientists who have to formulate these compounds as drug products. Pharmaceutical Formulation Development of Peptides and Proteins, Second Edition discusses the development of therapeutic peptides and proteins, from the production of active compounds via basic pre-formulation and formulation to the registration of the final product. Providing integrated solutions, this book discusses: The synthesis of peptides and the biotechnological production of proteins through recombinant DNA technology The physicochemical characteristics and stability of peptides and proteins The formulation of proteins as suspensions, solutions, and (mostly freeze-dried) solids The opportunities and challenges of non-parenteral delivery of peptides and proteins Risk factors, specifically the development of an unwanted immune response A simulation approach to describe the fate of peptides and proteins upon administration to a biological system The documentation required to register a protein-based drug Scientists in the pharmaceutical industry and academia as well as postgraduate students in pharmaceutical science will find this a valuable resource.