Vaccinology


Book Description

Covering all aspects of vaccine research and development in one volume, this authoritative resource takes a comprehensive and systematic approach to the science of vaccinology focusing not only on basic science, but also on the many stages required to commercialize and navigate the regulatory requirements for human application, both in the United States and Europe. Reviews in detail the process of designing a vaccine, from the initial stages of antigen discovery to human application Includes evaluation of vaccine efficacy and safety Details clinical trial design, including regulatory requirements Discusses the emerging field of active cellular immunotherapy Vaccinology: Principles and Practice provides an invaluable resource for clinicians, scientific and medical researchers, lecturers and postdoctoral fellows working in the field of vaccines.




Vaccinology


Book Description

Vaccinology: An Essential Guide outlines in a clear, practical format the entire vaccine development process, from conceptualization and basic immunological principles through to clinical testing and licensing of vaccines. With an outstanding introduction to the history and practice of vaccinology, it also guides the reader through the basic science relating to host immune responses to pathogens. Covering the safety, regulatory, ethical, and economic and geographical issues that drive vaccine development and trials, it also presents vaccine delivery strategies, novel vaccine platforms (including experimental vaccines and pathogens), antigen development and selection, vaccine modelling, and the development of vaccines against emerging pathogens and agents of bioterror. There are also sections devoted to veterinary vaccines and associated regulatory processes. Vaccinology: An Essential Guide is a perfect tool for designed for undergraduate and graduate microbiologists and immunologists, as well as residents, fellows and trainees of infectious disease and vaccinology. It is also suitable for all those involved in designing and conducting clinical vaccine trials, and is the ideal companion to the larger reference book Vaccinology: Principles and Practice.




Introduction to Molecular Vaccinology


Book Description

This textbook provides an easy-to-understand introduction to the complex topic of vaccine research and development. It gives a comprehensive though clearly arranged insight to the most important aspects of molecular vaccinology, leading from the basics in immunology, to design of vaccines and mode of action of vaccines to the actual formulation, manufacturing and registration of vaccines. The volume is therefore a valuable text about modern vaccinology for graduate students and a basic introduction for newcomers in vaccine design and development.




System Vaccinology


Book Description

Emergence of new and deadly infectious diseases is significantly deteriorating the human health. Development of vaccine by the scientist has become an important weapon to control the spread of infectious diseases as well as to improve the life expectancy at global level in 20th-21st Century. This book will provide the in-depth knowledge of vaccine history, and development of new strategies to design efficacious and safe vaccine molecule. This book will cover the development of system vaccinology and their applications revolutionize the vaccine discovery. This will provide a resource for the basic and clinical researcher working to human life expectancy by their vaccine experiments and clinical trials. My purpose to write this book to educate the students and researchers with modern development in the field of vaccinology and empowering the researcher with new tools and methodology for developing potential and immunogenic vaccines. This book will be helpful to solve the curiosity of science and medical background students related with vaccinology and will be helpful to devise a new vaccine molecule to control the spread of new and emerging pathogens. Systems biology is a rapidly expanding research discipline aiming to integrate multifaceted datasets generated using state-of-the-art high- throughput technologies such as arrays and next-generation sequencing. Combined with sophisticated computational analysis we are able to interrogate host responses to infections and vaccination on a systems level, thus generating important new hypotheses and discovering unknown associations between immunological parameters. Provides in-depth knowledge of vaccine history Covers the development of system vaccinology and their applications revolutionize the vaccine discovery Gives insights to the development of new strategies to design efficacious and safe vaccine molecule Provides a resource for the basic and clinical researcher working to human life expectancy by their vaccine experiments and clinical trials Highlights the importance of differential miRNA expression, microbiome after vaccination for human health Serves the need of students and researcher for applying computational tools and quick designing of potential molecule which may be proposed for vaccine trial Take the decisions to perform the kind of experiments for assessment of vaccine immunogenicity Aims to understand disease pathogenesis and host responses to infection and vaccination Offers a seamless continuum of scientific discovery and vaccine invention




Vaccinology and Methods in Vaccine Research


Book Description

Vaccinology and Methods in Vaccine Research is a combination of cutting-edge methodologies, experimental approaches and literature reviews. The book covers all aspects of vaccine development, including basic immunology (focusing on the stimulation of adaptive immunity, which is required for vaccine efficacy), approaches to vaccine design and target validation, vaccine biomanufacturer and clinical development. Existing vaccinology resources are theoretical reference books, whereas this book provides a practical handbook for use in the research lab and classroom by those working in vaccinology and training others in the field. It is authored and edited by scientists actively engaged in vaccine research and development for day-to-day teaching/methodological advice. Addresses how to design a vaccine for an emerging disease, from a practical point-of -view, with chapters written by scientists who are grappling with these questions Provides new approaches to vaccine development. including vaccine targeting and virus-like-particle vaccines Gives up-to-date information and methodologies in use for vaccine adjuvants




The Vaccine Book


Book Description

The Vaccine Book, Second Edition provides comprehensive information on the current and future state of vaccines. It reveals the scientific opportunities and potential impact of vaccines, including economic and ethical challenges, problems encountered when producing vaccines, how clinical vaccine trials are designed, and how to introduce vaccines into widespread use. Although vaccines are now available for many diseases, there are still challenges ahead for major diseases, such as AIDS, tuberculosis, and malaria. This book is designed for students, researchers, public health officials, and all others interested in increasing their understanding of vaccines. It answers common questions regarding the use of vaccines in the context of a rapidly expanding anti-vaccine environment. This new edition is completely updated and revised with new and unique topics, including new vaccines, problems of declining immunization rates, trust in vaccines, the vaccine hesitancy, and the social value of vaccines for the community vs. the individual child's risk. - Provides insights into diseases that could be prevented, along with the challenges facing research scientists in the world of vaccines - Gives new ideas about future vaccines and concepts - Introduces new vaccines and concepts - Gives ideas about challenges facing public and private industrial investors in the vaccine area - Discusses the problem of declining immunization rates and vaccine hesitancy




Immunomic Discovery of Adjuvants and Candidate Subunit Vaccines


Book Description

This volume will address an important emergent area within the field of immunomics: the discovery of antigens and adjuvants within the context of reverse vaccinology. Conventional approaches to vaccine design and development requires pathogens to be cultivated in the laboratory and the immunogenic molecules within them to be identifiable. Conventional vaccinology is no longer universally successful, particularly for recalcitrant pathogens. By using genomic information we can study vaccine development in silico: 'reverse vaccinology', can identify candidate subunits vaccines by identifying antigenic proteins and by using equally rational approaches to identify novel immune response-enhancing adjuvants.




Veterinary Vaccines


Book Description

Vaccines have historically been considered to be the most cost-effective method for preventing communicable diseases. It was a vaccine that enabled global eradication of the dreaded disease smallpox. Mass immunization of children forms the anchor of the strategy of the World Health Organization (WHO) to attain "health for all" status by the year 2000. Vaccinology is undergoing a dimensional change with the advances that have taken place in immunology and genetic engineering. Vaccines that confer short or inadequate immunity or that have side effects are being replaced by better vaccines. New vaccines are being developed for a variety of maladies. Monoclonal antibodies and T cell clones have been employed to delineate the immunodeterminants on microbes, an approach elegantly complemented by computer graphics and molecular imaging techniques. Possibilities have opened for obtaining hitherto scarce antigens of parasites by the DNA recombinant route. Better appreciation of the idiotypic network has aroused research on anti idiotypic vaccines. Solid-phase synthesis of peptides is leading to an array of synthetic vaccines, an approach that is expected to attain its full potential once the sequences activating suppressor cells are discovered and the rules for presentation of antigens to T and B cells are better worked out. A new breed of vaccines is on the horizon that seeks to control fertility. Originally conceived to intercept a step in the reproductive process, they are conceptual models for developing approaches to regulate the body's internal processes.




The Science and Applications of Synthetic and Systems Biology


Book Description

Many potential applications of synthetic and systems biology are relevant to the challenges associated with the detection, surveillance, and responses to emerging and re-emerging infectious diseases. On March 14 and 15, 2011, the Institute of Medicine's (IOM's) Forum on Microbial Threats convened a public workshop in Washington, DC, to explore the current state of the science of synthetic biology, including its dependency on systems biology; discussed the different approaches that scientists are taking to engineer, or reengineer, biological systems; and discussed how the tools and approaches of synthetic and systems biology were being applied to mitigate the risks associated with emerging infectious diseases. The Science and Applications of Synthetic and Systems Biology is organized into sections as a topic-by-topic distillation of the presentations and discussions that took place at the workshop. Its purpose is to present information from relevant experience, to delineate a range of pivotal issues and their respective challenges, and to offer differing perspectives on the topic as discussed and described by the workshop participants. This report also includes a collection of individually authored papers and commentary.




The Vaccine Handbook


Book Description

The Vaccine Handbook has a simple purpose- to draw together authoritative information about vaccines into a simple and concise resource that can be used in the office, clinic, and hospital. Not an encyclopedia or scientific textbook, The Vaccine Handbook gives practical advice and provides enough background for the practitioner to understand the recommendations and explain them to his or her patients. For each vaccine, the authors discuss the disease and its epidemiology, the vaccine’s efficacy and safety, and the practical questions most frequently asked about the vaccine’s use. The authors also discuss problems such as allergies, breastfeeding, dosing intervals and missed vaccines, and immunocompromised individuals. This handbook is also available electronically for handheld computers. See Media listing for details.