Drug resistance is a fundamental factor in treatment failure in diseases like leishmaniasis, although additional factors also play a role in this phenomenon. This volume is the second edition of a well-received book that provides a comprehensive update on the pathology of the disease, as well as on the concept of parasitic drug resistance, its molecular basis, consequences and possible treatments. A valuable resource for scientists both from academia and industry involved in biomedical research and drug design, the book provides the knowledge needed to understand leishmaniasis and to contibute to combatting this disease worldwide.

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Immunoinformatics of Cancers: Practical Machine Learning Approaches Using R takes a bioinformatics approach to understanding and researching the immunological aspects of malignancies. It details biological and computational principles and the current applications of bioinformatic approaches in the study of human malignancies. Three sections cover the role of immunology in cancers and bioinformatics, including databases and tools, R programming and useful packages, and present the foundations of machine learning. The book then gives practical examples to illuminate the application of immunoinformatics to cancer, along with practical details on how computational and biological approaches can best be integrated. This book provides readers with practical computational knowledge and techniques, including programming, and machine learning, enabling them to understand and pursue the immunological aspects of malignancies.

Written by world-renowned experts, this book addresses immunological and molecular methodologies of diagnosis as well as clinical aspects of diseases. It book discusses DNA and RNA amplification methods, explains ELISA approaches, and introduces rapid diagnosis techniques, biosensors, and flow cytometry. The book examines bacterial and parasitic infections, including M. tuberculosis, Borrelia burgdorferi, Streptococcus pyogenes, chlamydia and schistosomes, and describe viral infections such as hantaviruses, hepatitis C., cytomegalovirus, herpes virus, and HIV. It also covers syndromes with infections origins, including prions, chronic fatigue syndrome, and superantigens, and much more.

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Managing Treatment-Resistant Depression: Road to Novel Therapeutics defines TRD for readers, discussing the clinical and epidemiological predictors, economic burden and neurobiological factors. In addition, staging methods for treatment resistance are fully covered in this book, including serotonin specific reuptake inhibitors, serotonin norepinephrine reuptake inhibitors, other classes of antidepressants, including tricyclic antidepressants and monoamine oxidase inhibitors, augmentation strategies, and newer antidepressant treatments like ketamine and esketamine. In addition, evidence supporting the use of psychotherapies and neuromodulation strategies are also reviewed. Written by top experts in the field, this book is the first of its kind to review all methods of treatment for TRD.

This volume provides comprehensive explanations and detailed examples of different antibody libraries, along with novel approaches for antibody discovery. The chapters in this book are divided into four sections: 1) construction of antibody libraries; 2) selection strategies for antibodies; 3) complementary approaches for antibody selection; and 4) phage display for epitope mapping and biomarker identification. The chapters also provide a list of antibody phage display technologies and applications. 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, Phage Display: Methods and Protocols will provide technical assistance to new start-ups venturing into the field of antibody phage display. This volume will also aid in stirring interest and ideas among researchers in this ever-expanding subject.

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.

Clinical Applications of Immunogenetics: Immunogenetics: A Molecular and Clinical Overview, Volume II provides readers with an exclusive, updated overview of scientific knowledge, achievements and findings in the field of immunogenetics. In thirteen chapters, the book gives insights in new advancements and approaches in viral and autoimmune diseases. Specific chapters are dedicated to immunogenetic mechanisms in the treatment of immune disorders, cancer, neurological and neurodegenerative disorders. In addition, other chapters cover immunogenomics in precision medicine, clinical medicine and transplantation. Finally, a special chapter, COVID-19: A novel challenge to human immune-genetic machinery, updates on thoughts surrounding the pandemic.

The Lung in Autoimmune Diseases, Volume Seventeen identifies and describes the role of the lung in the most common systemic autoimmune diseases. From disease patterns, prognosis and risks to treatment, this book provides a comprehensive approach for the role of the lung in autoimmune diseases and the influence of autoimmune disease on the lung's functionality. In recent years, there is increasing knowledge in the field, including lung infection in early disease stages, mechanisms involved in lung damage, and new treatments. Recognition of lung involvement and implementation of some specific therapies is an important issue for clinicians dealing with systemic autoimmune diseases.

The endothelium is an excellent example of where biology meets physics and engineering. It must convert mechanical forces into chemical signals to maintain homeostasis. It also controls the immune response, drug delivery through the vasculature, and cancer metastasis. Basic understanding of these processes is starting to emerge and the knowledge gained from research is now being used in applications from drug delivery to imaging modalities. This book reviews current knowledge in mechanobiology of the endothelium and its implications for the development of theranostic devices.

The discovery of toll-like receptors (TLRs) spurred the field of innate immunity into a renaissance after many years of neglect. Since then, TLR research has grown at an exponential rate. Taking an integrated methodological approach, Signaling by Toll-Like Receptors offers a comprehensive review of important techniques in molecular biology, cell biology, biochemistry, genetics, and immunology and their critical application to the study of toll-like receptor structure, biological function, and the intracellular signaling triggered by these receptors.

A Molecular Approach to Immunogenetics, Immunogenetics: A Molecular and Clinical Overview, Volume One provides readers with an exclusive, updated overview on the scientific knowledge, achievements and findings in the field of immunogenetics. The book presents readily available, updated information on the molecular and clinical aspects of immunogenetics, from origin and development to clinical applications and future prospects. The breadth of information goes from basics to developments, clinical applications and future prospects. The book's most attractive attribute is its academic and clinical amalgamation that covers both the theoretical and practical aspects of immunogenetics. An additional feature of the book is a special chapter on viral genetics that covers COVID-19. Above all, the book contains chapters that discuss immunogenetics in relation to pharmaco-genomics and immune-toxicology.

Start strengthening your immunity for good. In this ground-breaking book, expert immunologist Dr Jenna Macciochi unravels the new science around immunity. Immunity decodes exactly what it takes to be well in the modern day and reveals tips and tricks you can start putting into practice immediately, including chapters on: * Immunity-nourishing nutrition and the best foods to eat * The importance of movement and how often to exercise * How immunity and sleep are deeply linked * Why mental health matters when it comes to your immunity Offering simple, clear and expert advice, debunking popular myths along the way, this fascinating book explores the secrets of people who never seem to get ill, how to protect yourself against viruses and why some germs are actually good for us. Learn how to cultivate your long term health today.

In the age of digitization our society is transformed into a new state. In particular, machine intelligence dramatically elevates our capability to create and digest information. Naturally, healthcare is also impacted by this trend and will even be more transformed into a informatic driven discipline in the future. In the most important area of histo-pathology, the interpretation of tissue slices from cancer patients, informatics will have an early and huge impact on treatment decisions and probably will act as the leading discipline for this transformation in medicine. Tissue Phenomics provides a comprehensive methodology aiming at the discovery of the most accurate tissue-based decision support algorithm by close integration of assay development, image analysis and bioinformatics, and optimization feedback loops. In this book the methodology of Tissue Phenomics and its benefits and wealth's are described. The different components of Tissue Phenomics are explained in the different chapters. In the chapters 2 to 4 of this book different authors describe various approaches on how to convert the wealth of tissue slide pixel data into mineable information using knowledge-based and data-driven image analysis methods. Subsequently, the datafication of images and the bioinformatics part plays a crucial role in generating prognostic and predictive models for disease progression. The integration of other data sources such as genomics, radiomics and patient related information is also important and is described as well. As discussed in chapters 5 and 6, these models may classify patients in distinct groups such as those responding to a given therapy. Since Tissue Phenomics provides a huge set of potentially prognostic features (phenes), one focus of both chapters is robust feature selection methods by advanced Monte-Carlo cross validation algorithms. In chapter 7 we discuss multiple application examples of Tissue Phenomics in academic and commercial settings and its tremendous impact to advances in biomedical sciences. Building on the successes in research, chapters 8 and 9 discuss applications in clinical environments and provide a flavor to the future envision in chapter 10, where tissue datafication and subsequent patient profiling is part of every routine examination, with the goal to best match patients with the most successful therapy, as predicted by tissue phenes.

Assuming that the complex phenomena underlying the operation of the immune system may be better understood through the collaborative efforts of theorists and experimentalists viewing the same phenomena in different ways, the "Sante Fe Institute" and the Theoretical Division of "Los Alamos National Laboratory" cosponsored a workshop entitled"Theoretical Immunology." The workshop focused on themes spanning the field of immunology, with emphasis on areas where the theorists have made the most progress. This book covers the discussions a that workshop on the topics of immune surveillance, mathematical models of HIV infection, complexities of antigen-antibody systems, immune suppression and tolerance, and idiotypie networks. In each of these areas there is reason to believe that advances can be made either through interactions among experimentalists and theorists or through the critical look experimentalists and theorists will bring to bear upon one another's work.

This book introduces the basics of cellular and molecular biology on a basic level including detailed explanations and examples. It lays the foundation for a systematic understanding of biology, which is essential in order to handle big data in biomedical research. Comprehension of what is measured, how it is measured and how to interpret results is a precondition for the development of novel therapies against diseases.Interdisciplinary research benefits from versatile approaches to generate and test hypotheses, which may lead to new discoveries. Therefore, it requires a new generation of biologists from diverse backgrounds - and they need this introduction.This book helps students and experts from e.g. computer science, informatics, mathematics, physics, and related fields or even if you are in sales and marketing and want to have a better understanding of the biology behind certain products.

Recent advances in immunology and biology have opened new horizons in cancer therapy, included in the expanding array of cancer treatment options, which are immunotherapies, or cancer vaccines, for both solid and blood borne cancers. Cancer Vaccines: Challenges and Opportunities in Translation is the first text in the field to bring immunotherapy treatments from the laboratory trial to the bedside for the practicing oncologist. Cancer Vaccines: Challenges and Opportunities in Translation: Critically analyzes the most promising classes of investigational immunotherapies, integrating their scientific rationale and clinical potential Discusses "theranostics" as pertaining to immunotherapy, i.e., using molecular diagnostics to identify patients that would most likely benefit from a therapy Presents the new paradigm of biomarker guided R&D and clinical development in immunotherapy of cancer Reviews bottlenecks in translational process of immunotherapies and offers strategies to resolve them

Translational Autoimmunity: Etiology of Autoimmune Diseases is the first volume of the Translational Immunology book series. To attain its purpose as a detailed translational step to tackle autoimmunity, this volume sufficiently addresses basic questions on how the immune system is designed to distinguish self from nonself. It discusses the known mechanisms that lead to the maintenance of self-tolerance, presents potential triggers and malfunctions that impede normal immune processes, and demonstrates how the immune system induces an autoreactive state that results in the recognition of self-antigens seen in autoimmune conditions.

This seventh edition of Medical Immunology, now in a full-color presentation, continues to provide a succinct clinical review of the human response to infection while being firmly grounded in science. The authors, distinguished and experienced educators, have been able to anticipate readers' conceptual challenges and use illustrations, diagrams, and algorithms throughout to simplify complex concepts. With an emphasis on clinical applications, methodological advances, immunological diseases, and innovative interventions, this tried and true guide navigates readers through state-of-the-sciences technologies and demonstrates their implementation in the day-to-day clinical practice of immunology. Key Features Stresses both the basic scientific concepts and clinical correlations to medical practice. Progresses logically from normal immune function to abnormalities and clinical diseases. Reviews the diagnosis, pathogenesis, and management of autoimmune diseases in a concise, manageable and visual manner Continues to be the only current medically-focused immunology text available Provides a succinct review of human response to infection with a focus on diagnostic and clinical immunology

Nanotheranostics for Treatment and Diagnosis of Infectious Diseases comprises the latest information on the technological advancements made in the field of nanotechnology for application in therapeutics with diagnostic applications. The book focuses on the theranostic applications of nanomaterials in infectious diseases, highlighting that rapid diagnosis, safe and effective treatment and strong preventive measures like vaccines are urgently needed. It compiles all relevant information to help scientists, researchers and students understand the role of nanomaterials, how nanomaterials could be explored simultaneously for therapeutic and diagnostic applications, and how to ensure safety and efficacy of these nanomaterials. Sections cover fundamental concepts, emerging concerns and challenges to combat infectious diseases, the characterization of nanomaterials for theranostic applications, and the toxicity, biocompatibility and regulatory perspectives in the diagnosis and treatment of infectious diseases.

Delivery Technologies for Immuno-Oncology: Volume 1: Delivery Strategies and Engineering Technologies in Cancer Immunotherapy examines the challenges of delivering immuno-oncology therapies. Immuno-oncology (IO) is a growing field of medicine at the interface of immunology and cancer biology leading to development of novel therapeutic approaches, such as chimeric antigen receptor T-cell (CAR-T) and immune checkpoint blockade antibodies, that are clinically approved approaches for cancer therapy. Although currently approved IO approaches have shown tremendous promise for select types of cancers, broad application of IO strategies could even further improve the clinical success, especially for diseases such as pancreatic cancer, brain tumors where the success of IO so far has been limited. Nanotechnology-based targeted delivery strategies could improve the delivery efficiency of IO agents as well as provide additional avenues for novel therapeutic and vaccination strategies. Additionally, a number of locally-administered immunogenic scaffolds and therapeutic strategies, such as the use of STING agonist, could benefit from rationally designed biomaterials and delivery approaches. Delivery Technologies for Immuno-Oncology: Volume 1: Delivery Strategies and Engineering Technologies in Cancer Immunotherapy creates a comprehensive treaty that engages the scientific and medical community who are involved in the challenges of immunology, cancer biology, and therapeutics with possible solutions from the nanotechnology and drug delivery side.

This is the second edition of the popular textbook Immunology for Life Scientists. Thoroughly updated to reflect the changes both within the subject itself as well as in the curriculum, this is the textbook for anyone studying immunology as past of another degree course. No previous instruction in the subject is assumed, rather a broad and basic knowledge is slowly built up and a sound understanding of the fundamentals of the discipline introduced in a step-by-step logical manner. Readers are encouraged to develop their own learning by reading the recommended review articles and attempting the self-assessment available in the book.

• clearly written chapters
• covers all key aspects of basic immunology
• keywords and concepts highlighted and summarised
• self-assessment multiple choice questions

Trichinella and Trichinellosis provides an up-to-date account of the nematode Trichinella spp., including infections and diseases caused by this parasite in both animals and humans. This book will fill the long gap in time during which an exhaustive monograph on this subject has been missing in the international literature. The chapters have been written by the most prolific researchers in the world on the different aspects of Trichinella and trichinellosis. This book serves as an original resource for research on Trichinella and trichinellosis, exploring cutting-edge advances on such parasites and the infections they cause. This book will be a valuable resource for students, biologists, epidemiologists, veterinarians, physicians, and scientists involved in the study of the parasites of the Trichinella genus and their related diseases. It will be particularly helpful for those who are beginning their research in this fascinating field.

The monograph introduces innate immunity as second authority in the ovary besides the endocrine system. Innate immunity appears to orchestrate follicular atresia, follicle rupture, follicle transformation into a corpus luteum (CL) and CL regression through nonsterile inflammation and tissue repair. The concept is new. It centres on cytokeratin-positive (CK+) cells being recognized as a potential nonlymphoid dendritic cell type (DC). Part I describes morphological aspects of immune privilege starting with active hamster ovary implants into the chicken chorioallantois membrane. Follicular atresia and follicle rupture correspond with mild and moderate tissue damage in ovaries of small rodents and rabbits. Superovulations cause severe tissue damage through intraovarian oocyte release with follicle wall remnants in oedema, rupture of vessel walls and thrombosis. The complement system and neuropeptides might play regulatory roles. Part IIa analyzes intact ovaries (cows, human) for the appearance of CK+ cells. In the foetal ovary, sex cords give rise to CK+ cells in primordial follicles. In the adult ovary, CK+ cells are absent in preantral follicles and reappear in mature and regressing follicles. In the CL of early development, steroidogenic CK+ cells build a peripheral zone in the previous granulosa cell layer, and uniformly distribute in the following stages. A microvessel-associated CK+ cell type is seldom found. Part IIb characterizes the morphology and function of CK+ cells in vitro. Isolated from human preovulatory follicles, the epithelioid CK+ granulosa cell subtype regulates TLR4 and CD14 at 36 h of treatment with oxidized lipoprotein (oxLDL, 150 �mg/ml); nonapoptotic cell death and the increase of reactive oxygen species occur. In contrast, the CK-negative (CK-) granulosa cell type regulates the lectin-like oxLDL receptor 1 (LOX-1) and survival autophagy under oxLDL stimulation. Isolated from bovine CL, the epithelioid CK+ cell type 1 is disclosed as microvascular cell type with a single nonmotile cilium. The microvascular CK+ type strongly upregulates intercellular contacts under treatment with interferon-� (IFN-�). In the CK- cell type 5 of granulosa cell -like appearance, IFN-� treatment supports cell proliferation, N-cadherin upregulation, and the dramatic increase in major histocompatibility complex II peptides (MHC II) by 80-fold compared to basal levels. Type 5 could have been conversed from the steroidogenic CK+ cell type. We summarize and conclude: CK+ granulosa cells express functionally active TLR4, which sense danger signals like oxidative stress in preovulatory follicles and trigger inflammatory and immunoregulatory pathways. The final outcome regulates follicle rupture and transformation into CL. Luteolysis could start by danger-sensing through the microvascular CK+ type 1 cells and the DC-like type 5 cells both sensitive to IFN-�. The future will witness a novel strategy in the therapy of ovarian disorders like anovulations, luteal phase insufficiency, and autoimmune failures