Download Free Phage Therapy A Practical Approach Book in PDF and EPUB Free Download. You can read online Phage Therapy A Practical Approach and write the review.

This book gives a detailed yet clear insight into the current state of the art of the therapeutic application of bacteriophages in different conditions. The authors bring in their practical expertise within their respective fields of expertise and provide an excellent overview of the potential and actual use of phage therapy. Topics like economic feasibility compared to traditional antibiotics and also regulatory issues are discussed in far detail. This new volume is therefore a valuable resource for individuals engaged in the medical application of novel phage therapies.
This volume details the experimental approaches suitable for isolating and characterizing bacteriophages to formulating bacteriophage medicinal products and clinical application. Chapters guide readers through regulatory compliance and safety aspects of bacteriophage therapy. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Bacteriophage Therapy: From Lab to Clinical Practice aims to ensure successful results in the further study of this vital field.
Phage display has become established as a powerful protein engineering method for identifying polypeptides with novel properties, and altering the properties of existing ones. Although the technique is widely used in biological research and drug discovery, it remains technically challenging, and new applications and procedures continue to evolve. Phage Display - A Practical Approach is an up-to-date, comprehensive and integrated experimental guide to the technique, useful for novice and expert alike. The book aims to enable researchers to design and undertake all aspects of a phage display project, from designing an experimental strategy and constructing a library to performing selections and analyzing the results. An introductory chapter provides an overview of phage biology and phage display, including guidelines for planning a successful phage display experiment. Individual chapters provide protocols for constructing libraries using oligonucleotide-directed mutagenesis or DNA recombination, performing binding selections, and analyzing the binding activities of selected phage clones. Separate chapters then cover common applications, including selection of ligands from peptide libraries, generation of phage antibody libraries and isolation and optimization of antibodies, selection of DNA binding proteins, and expression cloning using cDNA display. Further chapters describe alternative selection strategies, such as selection using immune sera, selection based on enzymatic activity or protein stability, and selection in vivo. Protocols and chapters are extensively cross-referenced, allowing readers to move beyond the specific examples given to customize the procedures to their own protein or selection system of interest. Written by experts in the field, Phage Display - A Practical Approach provides a comprehensive guide to the design and execution of phage display projects, for all those using the technique in basic research and drug discovery.
Alternative treatment modes for antibiotic-resistant bacterial pathogens have become a public health priority. Bacteriophages are bacterial viruses that infect and lyse bacterial cells. Since bacteriophages are frequently bacterial host species-specific and can often also infect antibiotic-resistant bacterial cells, they could represent ideal antimicrobials for fighting the antibiotic resistance crisis. The medical use of bacteriophages has become known as phage therapy. It is widely used in Russia, where phage cocktails are sold in pharmacies as an over-the-counter drug. However, no phage product has been registered for medical purposes outside of the former Soviet Union. The current Special Issue of Viruses contains a collection of papers from opinion leaders in the field who explore hurdles to the introduction of phage therapy in western countries. The articles cover diverse topics ranging from patent to regulatory issues, the targeting of suitable bacterial infections, and the selection and characterization of safe and efficient phage cocktails. Phage resistance is discussed, and gaps in our knowledge of phage–bacterium interactions in the mammalian body are revealed, while other articles explore the use of phages in food production and processing.
This book fills a void. Never before has a comprehensive history of phage therapy—a once-neglected, now resurgent field—been written. Kuchment writes from the perspective of the eager student of history for the common reader.
"Based on the challenges and opportunities we identified for phage therapy, this research aims to point out and narrow the obstacles and take advantage of the open doors to bring phage therapy to Colombia. In this sense, this work is divided into seven chapters that address a group of these challenges and opportunities using different bacteria as models. The first chapter presents the state of the art at the moment of initiating the thesis. By reviewing the literature, we recognized the historical aspects of phage therapy, what was the actual development in the world, in Latin America and in Colombia. This review process allowed the identification of the main challenges and opportunities for the phage therapy in Colombia. The second chapter summarizes the techniques necessary to work with phages. This knowledge and expertise were acquired using a Pseudomonas syringae pv. actinidiae model. In this case, bacteriophages were used successfully to control in vitro the plant pathogen causing canker in kiwifruit plantations in New Zealand. Techniques such as isolation, characterization, in vitro testing, Transmission Electron Microscopy, transduction assays, bacterial growth kinetics, cross-resistance assays, were learned and applied. The third chapter is about phage selection for phage therapy, where Pseudomonas aeruginosa was used as a model. Phage isolation, phage characterization, in vitro testing, and in vivo testing, were performed. This was the first practical approach to phage therapy in our lab. We learned the importance of establishing criteria for phage selection for therapy and categorize the characterization techniques according to its relevance for phage therapy. Chapters 4 and 6 present the interaction between different bacteria and their phages, looking for a deeper understanding of the long-term potential use of the phage therapy. The natural interaction between a phage and its host allows the system to evolve in such a way that an initially susceptible bacterial population can develop resistance. Reciprocally, the phage population might regain infectivity by overcoming the resistance barrier, coexisting in a given environment. These dynamics has been described as co-evolution [Buckling and Rainey, 2002]..."--
Biotherapy is defined as the use of living organisms in the treatment and diagnosis of human and animal diseases. This volume is an evocative exploration of the history, scientific basis and practical use of the major biotherapy modalities. The authors provide researchers and practitioners interested in this field, with cutting-edge material on the latest key advances in the following fields of biotherapy: Maggot Therapy, Hirudotherapy, Bee Venom Therapy, Apitherapy, Ichthyotherapy, Helminth Therapy, Phage Therapy, Animal Assisted Therapy, Canine Olfactory Detection. In addition, the authors provide with their chapters an extensive bibliography that represents a state-of-the-art survey of the literature. Comprehensive and current, this fresh volume of reviews is an essential resource for professionals who need to stay ahead of the game in the exciting field of biotherapy.
Harnessing the Power of Viruses explores the application of scientific knowledge about viruses and their lives to solve practical challenges and further advance molecular sciences, medicine and agriculture. The book contains virus-based tools and approaches in the fields of: i) DNA manipulations in vitro and in vivo; ii) Protein expression and characterization; and iii) Virus- Host interactions as a platform for therapy and biocontrol are discussed. It steers away from traditional views of viruses and technology, focusing instead on viral molecules and molecular processes that enable science to better understand life and offer means for addressing complex biological phenomena that positively influence everyday life. The book is written at an intermediate level and is accessible to novices who are willing to acquire a basic level of understanding of key principles in molecular biology, but is also ideal for advanced readers interested in expanding their biological knowledge to include practical applications of molecular tools derived from viruses. Explores virus-based tools and approaches in DNA manipulation, protein expression and characterization and virus-host interactions Provides a dedicated focus on viral molecules and molecular processes that enable science to better understand life and address complex biological phenomena Includes an overview of modern technologies in biology that were developed using viral components/elements and knowledge about viral processes
Bacteriophages are viruses that infect bacteria; as such, they have many potential uses for promoting health and combating disease. This book covers the many facets of phage-bacterial-human interaction in three sections: the role and impact of phages on natural bacterial communities, the potential to develop phage-based therapeutics and other aspects in which phages can be used to combat disease, including bacterial detection, bacterial epidemiology, the tracing of fecal contamination of water and decontamination of foods.
This book compiles the latest information in the field of antibacterial discovery, especially with regard to the looming threat of multi-drug resistance. The respective chapters highlight the discovery of new antibacterial and anti-infective compounds derived from microbes, plants, and other natural sources. The potential applications of nanotechnology to the fields of antibacterial discovery and drug delivery are also discussed, and one section of the book is dedicated to the use of computational tools and metagenomics in antibiotic drug discovery. Techniques for efficient drug delivery are also covered. The book provides a comprehensive overview of the progress made in both antibacterial discovery and delivery, making it a valuable resource for academic researchers, as well as those working in the pharmaceutical industry.