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 book focuses on immune reactions and interactions of humans with Helicobacter pylori - a human pathogen connected to gastritis, peptic ulcers and even gastric cancer. With nearly half of the world's population colonized, it has been characterized as one of the most successful pathogens for more than 100,000 years of co-evolution with its host. The respective chapters discuss not only how H. pylori infection is considered a paradigm for persistent bacterial infection and chronic inflammation, but also how the infection might be connected to host protection against gastro-esophageal diseases, asthma, and other allergic disease manifestations. Readers will gain essential insights into the roles of specific factors in the immune response and learn about the impact of genetic polymorphisms on the risk of gastric carcinogenesis. In addition, the book discusses the strategies used by this bacterium, which allow it to colonize specific sites in the stomach, interact with the microbiome, evade immune surveillance and undermine the resolution of inflammation during persistent infection. This volume presents a concise summary of recent advances in the areas of induction, resolution and escape of inflammation, innate and adaptive immunity, gastric disease development, as well as treatment and vaccination against H. pylori. Accordingly, it offers a valuable asset for scientists and clinicians alike.

Papillomaviruses are oncogenic DNA tumor viruses that infect humans and animals. Human papillomavirus is one of the most common causes of sexually transmitted infection in the world and can also cause cancer. Papillomavirus research has been revolutionized in recent years with the advent of new technologies such as organotypic raft cultures, virus-like particles, and transgenic mice. New facets of virion structure, life cycle, immunology, and oncogenicity have recently emerged. In this timely book, leading scientists review current aspect of papillomavirus research providing a fascinating insight into papillomavirus molecular biology, interactions with the host, immunology, and vaccine development. Topics covered include epidemiology and taxonomy, phylogenetic analysis, gene expression, regulation of DNA replication, transcription factor proteins, organotypic raft cultures, virus-like particles, and much more. Essential reading for scientists and researchers working on papillomavirus a

"Human Retroviruses: Methods and Protocols" collects key experimental protocols that have provided the basis of the major discoveries of the field. Split into five sections, this detailed volume covers mapping of the HIV life cycle, isolation, co-receptor use, and cell tropism of HIV-1, in vivo quantification of HIV-1, biological aspects of HIV-1, as well as HTLVs. Some articles explore assay and function of accessory genes, largely involving the interface between retroviral and host factors, the extracellular role of Tat and Tax, resembling the function of cytokines, and the biotechnological exploitation of HIV as lentiviral vector to carry foreign genes with therapeutic value. 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.

Comprehensive and authoritative, "Human Retroviruses: Methods and Protocols" provides state-of-art methodological protocols from world leaders in human retrovirology, essential for any lab working this vital field."

Fish lymphocystis disease virus (FLDV) has been tentatively classified as a separate genus of the iridovirus family. Iridoviruses were previously called icosahedral cytoplasmic deoxyriboviruses (ICDV). The Iridoviridae family contains four genera including lymphocystis disease virus (proposed name Lymphocystivirus, Willis, 1989 (1". FLDV is a causative agent of lymphocystis disease (LD) which frequently appears in Pleuronectidae (flatfish) such as Pleuronectes platessa (plaice), Platichtys flesus (flounder), Limanda limanda (dab), and Trigla gurnardus (gurnard). Fish lymphocystis disease is characterized by papilloma-like lesions, which can be induced experimentally in Lepomis macrochirus (bluegill) (2) and by subdermal injection of plaice and flounder (3). The mechanisms of this nonmalignant tumor induction are unknown. Since the discovery of LD in 1874 by Lowe (4), attempts have been made to isolate and propagate FLDV in vitro with limited success (5-7). As a first step towards understanding of the underlying mechanisms of this infectious disease the structure and properties of the causal virus must be eluciated. These basical molecular biological studies provide new facilities for investigation of virus host interactions which is necessary for understanding the molecular mechanisms of the viral pathogenesis. MATERIALS AND METHODS A total of 30 fish with LD lesions caught near the Doggerbank areas were analyzed individually, including 20 flounders, six dabs, and four plaice. Virions of FLDV from LD lesions of each species of fish were isolated, purified, and examined by electron microscopy as 205 described previously (8). Fig.

Antimicrobial resistance (AMR) is a global public health threat that needs immediate attention and action from the scientific community. This book compiles and presents the latest and most important aspects of AMR, including the biology involved, its persistence and spread, and novel approaches to tackle this threat. The book first describes the mechanisms and spread of AMR, and then discusses the various approaches and strategies for combating it. Important topics include, microbial pathogenesis, AMR traits and major mechanisms underlying drug-resistance and the emerging strategies and technologies for combating AMR. Emphasis has been given on current developments about natural products including potent phyto-molecules, antimicrobial peptides and endophytes effective against the drug-resistant microbes and target the main drug-resistance determinants (efflux pumps, biofilms, quorum sensing, plasmids, etc.) in these bacterial pathogens. Other exciting topics include applications of nanomaterials in tackling AMR and CRISPR-Cas based precise sequence-specific antimicrobials. This informative book is meant for students and researchers in basic and medical microbiology and biotechnology. It is also useful to public health professionals and industry experts involved in AMR research and related drug-designing.

As stated many times before the purpose of Orchid Biology, Reviews and Perspectives (OB) is to present reviews on all aspects of orchids. The aim is not to balance every volume, but to make a balanced and wide ranging presentation of orchids in the series as a whole. The chapters in this, the last volume of the series, range over a number of topics which were not covered before. Singapore is justly famed for its orchids. They can be seen on arrival (or dep- ture) in its modern, highly efficient and comfortable Changi Airport and on the way from it to town. Vanda Miss Joaquim, the first hybrid to come from Singapore became its National Flower. This natural hybrid can be seen on its currency, stamps, and public and private decorations. Many excellent breeders, starting with Prof. Eric Holttum who bred the first man made hybrid (Spathoglottis Primrose), produced numerous magnificent hybrids and won countless awards in Singapore and elsewhere. These hybrids served to enrich the country's orchid mystique. In the opening chapter of this volume Dr. Teoh Eng Soon (Western style: Eng Soon Teoh), himself a prize winning orchid breeder, grower and author writes about some of the breeders who contributed to the Singapore orchid fame. Prof. Hans Fitting was one of the best known plant physiologists of his time. As a young man he studied the effects of pollen on orchid flowers.

The emergence of bacteria resistant to multiple antibiotics has become a serious threat to public health and is considered one of the greatest challenges for contemporary medicine. Phage therapy - the use of bacteriophages as anti-bacterial agents - may offer an alternative treatment for bacterial infections. Phages have many potential applications in human medicine, as well as in dentistry, veterinary science, agriculture, and food protection. Written by internationally recognized experts from leading centers involved in phage research and phage therapy, this book provides comprehensive coverage of the topic with a focus on current research and emerging applications. The book opens with chapters covering the general characteristics of bacteriophages and the basic concepts of phage therapy. Further topics include: the pharmacology of phage therapy * bacterial resistance * non-bactericidal effects of phages * main applications of bacteriophages in clinical medicine * plant pathosystems * animal production * food protection * biofilm control * regulatory and intellectual property aspects of phage therapy. Although the book focuses on applications of virulent bacteriophages, it also discusses genetically-engineered phages, phages as delivery vehicles for other antimicrobials, as well as phage lysins. It will be an essential reference for anyone interested in phage therapy, antibacterial resistance, antimicrobial development, bacteriophage research, biocontrol, and biodetection.

Head and neck squamous cell carcinoma (HNSCC), the sixth most prevalent cancer worldwide, remains a very difficult disease to treat and cure despite intensive investigation into molecular etiologies and tumor progression pathways. Due to public health efforts encouraging smoking cessation, the overall incidence of HNSCC has decreased in recent years in many countries. In contrast, the incidence of oropharyngeal squamous cell carcinoma (OPSCC) has increased significantly, and this subtype of HNSCC is commonly associated with human papillomavirus (HPV) infection. Moreover, individuals with HPV-positive OPSCC are generally younger and are frequently non-smokers, suggesting that HPV-associated OPSCC represents a distinct biologic entity. This volume summarizes the spectrum of current HPV-associated OPSCC research from the fundamental basic science to translational surgery and treatment approaches. Chapters are contributed by authoritative leaders in the fields of research and clinical care. Initial chapters address epidemiology, behavioral correlates of HPV infection, and racial disparities in oropharyngeal cancer. This is followed by chapters detailing HPV virology with focus on viral transformation, viral replication, and host response to viral infection. The molecular biology of HPV-associated OPSCC is investigated in chapters detailing alterations in signaling networks and unique mutational profiles of human tumors. Clinical presentation, surgical perspectives, and treatment paradigms specific to HPV-associated OPSCC conclude the volume. This comprehensive volume provides an up-to-date overview of both scientific discovery and clinical management of this emerging public health problem.

Based on the proceedings of the third international symposium on "Molecular Immunology of Complex Carbohydrates," this text is the latest in a series dedicated to glycotopes, structures and functions of complex carbohydrates, recognition factors of lectins, biomolecular interactions and other glycosciences. Section I of the book pays tribute to three pioneers in the field--Walter T.J. Morgan, Elvin A. Kabat and especially Winifred M. Watkins; it presents advanced concepts concerning the structure and functions of Blood group ABH/Le-related antigens, offering a comprehensive review on human blood group ABH/Ii, Lea, b, x, y and siayl Lea, x glycotopes of human ovarian cyst glycoproteins. Section II covers the interactions of plant, bacterial and animal lectins with carbohydrates and proteins. Section III describes the structures and functions of gangliosides and microbial glycolipids. Section IV covers the physiological roles of other clycocunjugates in humans, animals, sponges and bacteria as well as aging-related alterations of glycosylation profile in humans. Section V discusses the role of carbohydrates as antigens and regulators of the immune response. Section VI addresses some aspects of the glycobiology of cancer. And section VII details new methodologies in glycol-synthesis and lectin-carbohydrate binding assays and strategies for treatment as crucial applications.

This book documents and presents new developments in the study of amebiasis, one of the neglected tropical diseases. Nearly 50 million people worldwide are infected with the pathogen Entamoeba histolytica, causing large-scale morbidity and mortality particularly in developing countries. This book will help clinicians for better diagnosis and management of the disease, researchers for initiating research projects on some of the poorly understood aspects of the disease and the pathogen, and students for updating their knowledge. The subjects covered range from genomics and molecular and cell biology to drug resistance and new drug development, highlighting major advances in recent years in our understanding due to rapid progress in genomic and other biomedical technologies, such as visualization of molecular processes. Most of the chapters provide recent information based on latest publications. A few chapters describe some of the critical methodological issues that will be helpful for students and researchers interested in getting into the field. The contributing authors include almost all the active researchers and clinicians from around the world. This book will be a useful primary material and a valuable source of information for anyone interested in understanding amebiasis, its diagnosis, and treatment. It will also be useful to those who are interested in learning about the biology of early branching eukaryotes and protist pathogens.

The HIV pandemic continues to levy a heavy burden on the human race world-wide. The estimated number of people who became newly infected with HIV in 2009 was 2.6 million; most of these individuals live in Sub-Saharan Africa, followed by India and Southeast Asia. An estimated 370,000 new cases of pediatric infections occurred globally in 2009 (or more than 1,000 new infections every day), practically all of them through mother-to-child transmission. Up to 40% of all new infant HIV infections occur during breastfeeding. While breastfeeding by HIV-infected mothers is not recommended in the U.S. and other resource-rich settings where safe replacement feeding is easily available, the situation is different in many resource-limited settings, where replacement feeding is not safe or available and carries a high risk of infections (diarrhea, pneumonia) and infant malnutrition. Mothers in such settings are faced with a difficult dilemma: to breastfeed their infants in order to provide their infants with its many benefits (nutritional, immunologic, cognitive), but to also risk transmitting HIV. These challenges have prompted an intensive search for new prophylactic and therapeutic strategies in order to prevent infants from acquiring HIV infection through breastfeeding. In this book, expert HIV researchers critically review every aspect of this highly evolving and topical subject. The opening chapters deal with the epidemiology, global magnitude and biologic mechanisms of HIV-1 transmission from mother to child through breastfeeding and include considerations of the virus (quantity, compartments, characteristics) and the host (genetic, immunity-innate, cellular, humoral). The effects of breastfeeding on the HIV-infected mother's health and nutritional status, and the social and cultural issues associated with the practice of breastfeeding are also discussed. The next few chapters provide cutting-edge reviews of the latest approaches to prevention of HIV transmission to the infant through breastfeeding, including antiretroviral strategies, nutritional and immune-based approaches, and treatment of expressed breast milk. The remaining chapters provide a fascinating review of the many iterations this subject has received, as reflected in the several different sets of guidelines for infant feeding by HIV-infected mothers issued by the World Health Organization, and a debate by leading scientists on whether HIV-infected mothers should breastfeed their infants-in resource-limited and in resource-rich settings. A comprehensive overview of the current state of implementing the new evidence for prevention of breastfeeding transmission of HIV all over the world is also presented. Essential reading for the many disciplines of scientists and clinicians working on HIV/AIDS and other retroviruses, pediatricians, obstetricians/gynecologists, as well as all health-care professionals interested in expanding their understanding on the subject.

The nucleotide sequence of the gene from which messenger RNA mole cules are transcribed is in a form that can be translated by cellular ribosomes into the amino acid sequence of a particular polypeptide, the product of the gene. The discovery of messenger RNA more than twenty years ago led to a series of studies on its organization and function in cells in the presence of infecting viruses. This volume is devoted to current studies in the field of cellular and viral messenger RNA. The studies presented provide an insight into molecular and genetic aspects of messenger RNA. Special attention was paid by the authors to the molecular organization of mRNA species, to the processing of mRNA molecules, and to the different strategies employed by DNA and RNA viruses in the synthesis of their mRNA. The ability of a virus to take over the protein-synthesizing mechanisms of an infected cell depends on its ability to produce mRNA molecules which can affect the host mRNA or utilize cellular components more efficiently. The differences between, and similarities of, the strategies of mRNA synthesis devised by various DNA and RNA viruses are described herein. This book should be of interest to all students of cellular and viral genes and scientists in the field. It is suitable as a textbook for workshops and courses on mRNA. I wish to thank the authors for their fine contributions and for their interest."

This book discusses the sources, human health hazards and risk prevention strategies associated with aeolian dust particles (fine and ultrafine) in the atmosphere. It covers the challenges of accurately forecasting aeolian dust and the need to raise public awareness on the warning signs and harmful impacts of airborne dust. Also discussed is the presence of microorganisms, heavy metals and other pollutants in dust which contributes to harmful impacts on human health as well as management and treatment options for the various health issues that can result from exposure. The book is a useful resource for scientists, engineers and policymakers interested in dust and health.

'A perfect blend of cutting-edge science and compelling storytelling. Daniel Davis has a rare knack for making complex science comprehensible and thrilling' BILL BRYSON Welcome to a revolution in the science of you. Recent and dramatic breakthroughs in our understanding of the body will profoundly change the experience of being human in the coming century. Already they are opening up boundary-breaking possibilities for intervention at every level, from our brains and genes to our microbiomes and immune systems. These will confer unprecedented powers over health, childhood development, our cognitive and physical abilities, and affect every aspect of how we live our lives and think about ourselves. As the secrets of our bodies are revealed, we all will face previously unthinkable choices with consequences we have yet to understand. Imagine knowing years in advance the precise likelihood of developing specific cancers, thanks to a bespoke understanding of every cell in your body; following a diet and health regime tailored to your microbiome; continuous monitoring of your body's workings and well-being; taking drugs that improve your cognition and help to acquire new skills; manipulating the genes of your unborn children to eliminate disease or even enhance their capabilities. Written by an award-winning scientist at the forefront of this work, The Secret Body shows how these radical and disconcerting possibilities have been made real thanks to the ingenious technologies and decades-long collaborations of scientists worldwide. A gripping drama of discovery and a landmark account of this dawning revolution, it presents a vision of the human body of dizzying complexity, wonder and possibility. 'A beautifully rendered picture of the startling new discoveries in human biology which are radically altering our understanding of how we function and what our future holds' BRIAN COX 'An extraordinary journey that reveals the magnificence, intricacy and beauty of the human body, fundamentally changing the way we see ourselves. Masterful' ALICE ROBERTS

Autophagy is a fundamental biological process that enables cells to autodigest their own cytosol during starvation and other forms of stress. It has a growing spectrum of acknowledged roles in immunity, aging, development, neurodegeneration, and cancer biology. An immunological role of autophagy was first recognized with the discovery of autophagy's ability to sanitize the cellular interior by killing intracellular microbes. Since then, the repertoire of autophagy's roles in immunity has been vastly expanded to include a diverse but interconnected portfolio of regulatory and effector functions. Autophagy is an effector of Th1/Th2 polarization; it fuels MHC II presentation of cytosolic (self and microbial) antigens; it shapes central tolerance; it affects B and T cell homeostasis; it acts both as an effector and a regulator of Toll-like receptor and other innate immunity receptor signaling; and it may help ward off chronic inflammatory disease in humans. With such a multitude of innate and adaptive immunity functions, the study of autophagy in immunity is one of the most rapidly growing fields of contemporary immunological research. This book introduces the reader to the fundamentals of autophagy, guides a novice and the well-informed reader alike through different immunological aspects of autophagy as well as the countermeasures used by highly adapted pathogens to fight autophagy, and provides the expert with the latest, up-to-date information on the specifics of the leading edge of autophagy research in infection and immunity.

The human immunodeficiency viruses (HIVs), in particular HIV-1, are the causative agent responsible for the current worldwide epidemic of acquired immunodeficiency syndrome (AIDS). A major effort has thus been underway over the past two decades to understand and control this pathogen. During this time, an enormous knowledge base has accumulated regarding the role of viral factors in the HIV-1 life cycle, and the interaction of HIV-1 with the host cell is becoming increasingly understood. Certain features of HIV, for example its ability to infect non-dividing cells, are being exploited in the development of novel gene therapy vehicles. This volume provides an overview of the current information regarding the HIV replication cycle and will serve as an introduction to subsequent chapters that address specific aspects of lentiviral-based gene therapy.

How does a bacterial cell grow during the division cycle? This question is answered by the codeveloper of the Cooper-Helmstetter model of DNA replication. In a unique analysis of the bacterial division cycle, Cooper considers the major cell categories (cytoplasm, DNA, and cell surface) and presents a lucid description of bacterial growth during the division cycle.
The concepts of bacterial physiology from Ole Maaloe's Copenhagen school are presented throughout the book and are applied to such topics as the origin of variability, the pattern of DNA segregation, and the principles underlying growth transitions.
The results of research on "E. coli" are used to explain the division cycles of Caulobacter, Bacilli, Streptococci, and eukaryotes. Insightful reanalysis highlights significant similarities between these cells and "E.coli."
With over 25 years of experience in the study of the bacterial division cycle, Cooper has synthesized his ideas and research into an exciting presentation. He manages to write a comprehensive volume that will be of great interest to microbiologists, cell physiologists, cell and molecular biologists, researchers in cell-cycle studies, and mathematicians and engineering scientists interested in modeling cell growth.
Key Features
* Written by one of the codiscoverers of the Cooper-Helmstetter model
* Applies the results of research on E. coli to other groups, including Caulobacter, Bacilli, Streptococci, and eukaryotes; the Caulobacter reanalysis highlights significant similarities with the E. coli system
* Presents a unified description of the bacterial division cycle with relevance to eukaryotic systems
* Addresses the concepts of the Copenhagen School in a new and original way"

Epstein-Barr virus (EBV) is a human gamma herpes virus that remains one of the most successful viral parasites known to man. It is the etiological agent of infectious mononucleosis and is the major biological cofactor contributing to a number of human cancers including B-cell neoplasms (e.g. Burkitt's lymphoma, Hodgkin's disease and immunoblastic lymphomas), certain forms of T-cell lymphoma, and some epithelial tumors (e.g. nasopharyngeal carcinomas and gastric carcinomas). The virus has the unique ability to persist in the infected, apparently healthy host for life. Understanding the molecular interaction between EBV and its human host, the ability of the virus to modulate the host immune system, its ability to hide in B-memory cells and factors that trigger viral reactivation are fundamental to understanding the cellular and molecular pathogenesis of the virus. This is critical for the development of strategies for the prevention and control of infection and disease. In this book, world renowned EBV experts provide a critical and comprehensive review of every aspect of this important virus. By integrating genetic, immunologic, and cell biologic approaches to elucidate pathogenesis, penetrating new insights into the molecular and cellular interaction between EBV and its human host have emerged. Topics covered include: discovery, history and seroepidemiology, EBV and the immune response, EBV genetics, EBV infection and persistence, latency, lytic proteins and reactivation control, vaccine approaches, animal models, and the future of EBV studies. This is essential reading for all EBV virologists as well as clinical and research scientists working on oncogenic viruses.

Venezuelan equine encephalitis (VEE) virus was first isolated in 1938 by Kubes and Rios (1) from the brain of a horse which died during an epizootic of a previously unrecognized disease in Venezuela. VEE-related viruses were subsequently isolated during t~e period of 1943-1963 in Venezuela, Colombia, Peru, Trinidad, Brazil, Surinam, Argentina, Panama, Mexico, and the United States (2) * Shope et ~. (3) fi rst defi ned the vi ru ses in the VEE comp 1 ex t-y showing serological relationships between classical VEE, ~lucambo, and Pixuna viruses. Young and Johnson (2) serologically characterized a variety of VEE isolates and proposed that the complex t>e divided into four subtypes (I, II, III, and IV). Viruses in subtype I were divided into five variants designated IA through IE. During 1069-1~71 a VEE epizootic-epidemic occurred in South America, Central America, and the United States involving a subtype lAB virus which caused high mortality among equines and human d i sea se (4). Venezuelan equine encephalitis viruses are alpha-togaviruses w~ic~ contain a positive strand rit>onucleic acid genome enclosed in an icosa~edral nucleocapsid. The virion has an envelope which contains blO glycoproteins: E2 of 5F,000 daltons (gp56) and E1 of ~O,OOO daltons (gp50) (5,6). Viral neutralization (N) and hemagglutiration (HA) sites have been placed on E2 by the use of monospecific rabtdt antisera and monoclonal antibodies specific for purified viral structural proteins (7-10). Only anti-E2 antisera neutralized virus infectivity or blocked virus hemagglutination.

This volume discusses the oral microbiome, and oral and systemic health. The chapters in this book cover topics such as analytical techniques for identifying and measuring oral bacteria; strategies for controlling common sources of variability in oral microbiome methods for viral bacterial and fungal analysis; ways to study oral DNA and RNA samples to identify molecular pathways to disease; approaches to functional assays for oral bacteriophage, antibiotic purging of systemic bacteria; and metaproteomic analysis of various oral samples. 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. Cutting-edge and practical, The Oral Microbiome: Methods and Protocols is a valuable resource for any scientist or researcher looking to further study this exciting and developing field.

Intensive care is a rapidly changing area of medicine, and after four years from the 2nd edition the volume editors and authors have deemed necessary to update it. In the recent years, in fact, five new randomised controlled trials and five new meta-analyses demonstrate that selective decontamination of the digestive tract SDD] is an antimicrobial prophylaxis to prevent severe infections of not only lower airways but also of blood. Additionally, SDD has been shown to reduce inflammation including multiple organ failure and mortality. An intriguing observation is the evidence that SDD using parenteral and enteral antimicrobials reduces rather than increases antimicrobial resistance. Moreover, a new chapter on microcirculation had been added.

The volume will be an invaluable tool for all those requiring in depth knowledge in the ever expanding field of infection control.

This book guides through the fascinating world of viruses and makes readers enjoy science in an accessible way. Virologist and author Professor Van Wilson imparts knowledge about what viruses are, how they work, and how much they impact life on Earth. The book equips the reader with the scientific basics behind virus function and presents the historic milestones of virus research and discovery. Well-known viruses such as HIV or Influenza are tackled alongside novel pathogens like coronavirus SARS-CoV-2. Professor Wilson explores where they come from and how they impact our society. Last but not least the book provides exciting insights into how our immune system reacts to different viruses and how vaccines contribute to conquer pandemics. While scientifically informative, this book makes the field of virology understandable to a lay audience and encourages readers to further thinking. And more importantly, it conveys the wonder, beauty, and mystery of these ubiquitous, microscopic marvels. This book addresses anyone interested in understanding the principles of virology, viral diseases, or the impact of viruses on human societies.

An understanding of virus infection and the underlying role of the immune system in protection against these diseases is vital in today 's medical climate. Previously, only symptoms could be treated, as there were no antiviral therapies. The increasing amounts of research and the huge number of discoveries of immunologic agents and pathways has led to the opportunity to look to the basic physiology of the various disease process as never before. This book is designed to provide the clinician with a thorough and yet approachable textbook describing the relationships between immunology, virology and the disease process.

This concise, comprehensive guide is divided into two sections; nails and the skin. Each section includes information on the types of infections, aetiology, diagnostic procedures, such as sampling techniques, and therapy, including topical, systemic and adjunctive.