Download Free Immunology In The 21st Century Book in PDF and EPUB Free Download. You can read online Immunology In The 21st Century and write the review.

Immunology in the Twentieth Century: From Basic Science to Clinical Application grew out of common knowledge that those who survived many of the common infectious diseases rarely contracted the same disease again. This book charts the historical development of this vital branch of medicine in a concise volume, covering both the basic science involved and the clinical applications. Immunology as a distinctive subject developed in the mid-twentieth century as researchers started to understand how the adaptive immune system aids the defense against pathogens. The subject has grown in importance and diversified into specialist fields, such as immunohistochemistry, immunogenetics and immunopathology. Provides a concise overhead of the history of immunology and its applications in medicine Includes a discussion of the scientists who were pioneers in landmark discoveries in immunology Summarizes the clinical applications of major discoveries
The explosion of basic and applied immunology in the first decades of the 21st century has brought forth new opportunities and challenges for immunology education at all academic levels, from professional to undergraduate, medical, graduate and post-graduate instruction. Moreover, developing methods and techniques for educating general audiences on the importance and benefits of immunology will be critical for increasing public awareness and support. One major immediate challenge consists in accommodating, within the confines of traditional immunology curricula, a body of knowledge that continues to grow exponentially in both size and complexity. Furthermore, the practical toolbox of immunological research has vastly expanded, and even in the present environment of highly interdisciplinary and collaborative science, future immunologists will likely need to be at least conversant in, for instance, computational, structural and system biology, nanotechnology and tissue engineering. At the same time, our perspective of the immune system has progressively developed from primarily a host defense mechanism to a fundamental homeostatic system with organism-wide physiological and clinical significance, and with potentially transformative biotechnological and therapeutic applications. As a consequence, in addition to stand-alone courses, immunology is increasingly integrated into other courses, or distributed longitudinally, throughout a multi-year curriculum. This necessitates inter-disciplinary approaches to reach an expanding range of disciplines, as diverse as neurobiology, cancer biology/ oncology, infectious diseases, pharmacology, orthopedics and bioengineering. Creative approaches and pedagogical flexibility will be needed to avoid the pitfall of “one-size-fits-all” instruction, and to tailor level- and discipline-appropriate content to different types of students using multiple teaching formats. Finally, like most other disciplines, immunology education is also under strong pressure to introduce new didactic strategies that are relevant and meaningful to a generation of students who are “digital natives”, comfortable with and expect on-demand and multi-modal learning, diversified sources, and active engagement. Thankfully, the dynamic and interactive behavior of immune system cells, now visualized with striking immediacy by in vivo imaging, has the ability to capture and hold the interest of even the most jaded learner. The need for an increasingly immunology-knowledgeable workforce – not just academic and industry scientists, but also clinical and research lab technicians, biomedical engineers, and physicians in a growing array of specialties - will also expand job opportunities for immunologists as educators, and for content creators dedicated to generating new didactic tools in this field. Acknowledgement: We acknowledge the initiation and support of this Research Topic by the International Union of Immunological Societies (IUIS).
In contrast to existing books on immunoinformatics, this volume presents a cross-section of immunoinformatics research. The contributions highlight the interdisciplinary nature of the field and how collaborative efforts among bioinformaticians and bench scientists result in innovative strategies for understanding the immune system. Immunoinformatics is ideal for scientists and students in immunology, bioinformatics, microbiology, and many other disciplines.
This is a professional-level intellectual history of the development of immunology from about 1720 to about 1970. Beginning with the work and insights of the early immunologists in the 18th century, Silverstein traces the development of the major ideas which have formed immunology down to the maturation of the discipline in the decade following the Second World War. Emphasis is placed on the philosophic and sociologic climate of the scientific milieu in which immunology has developed, providing a background to the broad culture of the discipline. A professional-level intellectual history of the development of immunology from about 1720 to 1970, with emphasis placed on the social climate of the scientific milieu in which modern immunology evolved Written by an author very well known both as a historian of medical science and for his substantial research contributions to the immunopathology of the eye The only complete history of immunology available
Vaccines have made it possible to eradicate the scourge of smallpox, promise the same for polio, and have profoundly reduced the threat posed by other diseases such as whooping cough, measles, and meningitis. What is next? There are many pathogens, autoimmune diseases, and cancers that may be promising targets for vaccine research and development. This volume provides an analytic framework and quantitative model for evaluating disease conditions that can be applied by those setting priorities for vaccine development over the coming decades. The committee describes an approach for comparing potential new vaccines based on their impact on morbidity and mortality and on the costs of both health care and vaccine development. The book examines: Lessons to be learned from the polio experience. Scientific advances that set the stage for new vaccines. Factors that affect how vaccines are used in the population. Value judgments and ethical questions raised by comparison of health needs and benefits. The committee provides a way to compare different forms of illness and set vaccine priorities without assigning a monetary value to lives. Their recommendations will be important to anyone involved in science policy and public health planning: policymakers, regulators, health care providers, vaccine manufacturers, and researchers.
A thrilling, fact-packed journey of discovery through the body's immune system The human body is like an exceedingly well-fortified castle, defended by billions of soldiers – some live for less than a day, others remember battles for decades, but all are essential in protecting us from disease. This hidden army is our immune system, and without it we could not survive the eternal war between our microscopic enemies and ourselves. Immune explores the incredible arsenal that lives within us – how it knows what to attack and what to defend, and how it kills everything from the common cold virus to plague bacteria. We see what happens when the immune system turns on us, and how life is impossible without its protection. We learn how diseases try to evade the immune system and exploit its vulnerabilities, and we discover how scientists are designing new drugs to harness the power of the system to fight disease. Do transplants ever reject their new bodies? What is pus? How can your body make more antibodies than there are stars in our galaxy? Why is cancer so hard for our immune system to fight? Why do flu outbreaks cause a spike in sleep disorders? Can we smell someone else's immune system, and does that help us subconsciously decide who we fall in love with? In this book, Catherine Carver answers all of these compelling questions, and many more besides. Drawing on everything from ancient Egyptian medical texts to cutting-edge medical science, Immune will take you on an adventure packed with weird and wonderful revelations about your own internal defensive system.
The present book includes 17 chapters covering different fields of inflammation that can be classified into acute or chronic in response to trauma, infection, and exposure to other noninfectious agents, including allergens and xenobiotics. Inflammation is a self-healing process, upon the clearance of the foreign particle and helps to protect the host. However, when it is not resolved and becomes chronic, it may lead to cancer and autoimmune diseases. This book includes different topics of autoimmune diseases, cancer, and other sterile inflammatory conditions originating in the absence of allergens as well as autoimmune disease and generates inflammatory immune response. Hence, the book will prove beneficial to researchers and scientists involved in inflammation research.