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. Presents the knowledge researchers need to apply computational techniques to immunodeficiencies Provides the most practical material for bioinformatics approaches to the immunology of cancers Gives straightforward and efficient explanations of programming and machine learning approaches in R Includes details of the most useful databases, tools, programming packages and algorithms for immunoinformatics Illuminates clear explanations with practical examples of immunoinformatic approaches to cancer
Therapeutic cancer vaccines represent a type of active cancer immunotherapy. Clinicians, scientists, and researchers working on cancer treatment require evidence-based and up-to-date resources relating to therapeutic cancer vaccines. Vaccines for Cancer Immunotherapy provides a reference for cancer treatment for clinicians and presents a well-organized resource for determining high-potential research areas. The book considers that this promising modality can be made more feasible as a treatment for cancer. Chapters cover cancer immunology, general approaches to cancer immunotherapy, vaccines, tumor antigens, the strategy of allogeneic and autologous cancer vaccines, personalized vaccines, whole-tumor antigen vaccines, protein and peptide vaccines, dendritic cell vaccines, genetic vaccines, candidate cancers for vaccination, obstacles to developing therapeutic cancer vaccines, combination therapy, future perspectives and concluding remarks on therapeutic cancer vaccines. Introduces the feasible immunotherapeutic vaccines for patients with different types of cancer Presents the status of past and current vaccines for cancer treatment Considers advantages and disadvantages of different therapeutic cancer vaccines Looks at the combination of vaccines and other modalities, including immunotherapeutic and conventional methods Analyzes obstacles to development of therapeutic cancer vaccines Gives a view on future perspectives in the application of therapeutic cancer vaccines
Primary immunodeficiency diseases (PIDs) are a heterogeneous group of inherited disorders characterized by different defects in the development and function of the immune system. This book aims to increase the clinical awareness and knowledge of practicing clinicians regarding the diagnosis and management of PIDs. In order to achieve this goal, about 90 cases drawn from real life are presented, along with approximately 300 related questions. The selected case reports are the result of the invaluable cooperation of more than 40 scientists in the field of immunodeficiency. They focus both on the presenting features of patients with PIDs and on the required further investigation and management. Each of the numbered cases is followed by the questions, their answers, and additional discussion. Each question focuses on a particular aspect of the PID under consideration, and the topics covered include clinical diagnosis, laboratory findings, molecular mechanisms, and therapy.
Primary immunodeficiency diseases (PID) are a group of disorders involving defects in one or more components of the immune system, and are characterized by an increased incidence of infections, autoimmunity, and malignancies. Although PID seem to be rare, the number of patients diagnosed has increased in recent years, and more than 150 different forms of PID have been identified. Nevertheless, because of inadequate medical awareness, a significant number of patients with PID are either not recognized as having a PID or are not diagnosed as early as they should be. Such delays lead to a substantial increase in morbidity and mortality among affected individuals. Our understanding of PID is improving rapidly, which will hopefully lead to more accurate diagnosis and efficient disease management. This book contains the most recent advances in the field, as well as a concise and structured review of previously identified PID. Although the book’s primary focus is on practical diagnosis and management, the pathophysiology of PID is also discussed. This book is a comprehensive yet manageable resource for physicians and nurses wishing to learn more about PID, as well as a useful tool for both doctors-in-training and specialists in clinical decision-making and treatment planning.
Asphaltene Deposition Control by Chemical Inhibitors: Theoretical and Practical Prospects is the most advanced reference focused on chemical dispersants and inhibitors from both an experimental and modeling viewpoint. Adequate knowledge of the effective parameters in each treatment method, interactions, mechanisms and economic viewpoints involved in asphaltene treatment are crucial for future development, recovery forecast, and reserve prediction, hence this reference delivers on all these aspects. Sections cover the environmental impacts of asphaltene deposition, prevention methods, and experimental methods, both static and dynamic, to test the effectiveness of inhibitors on restricting asphaltene deposition. Rounding out with modeling methods used to simulate asphaltene-inhibitor interactions and a workflow to select suitable inhibitors by technical, economic and environmental considerations, this book will give today’s engineers and researchers the right tool to mitigate formation damage in a sustainably responsible way. Focuses on inhibitors, mitigators and the interplay between the asphaltene-inhibitors Helps readers learn from experimental models and replicate treatments with screening workflows Includes case studies that help readers make sustainable and economically-sound decisions on treatments
This book focusing on the immunopathology of cancers is published as part of the three-volume Springer series Cancer Immunology, which aims to provide an up-to-date, clinically relevant review of cancer immunology and immunotherapy. Readers will find detailed descriptions of the interactions between cancerous cells and various components of the innate and adaptive immune system. The principal focus, however, is very much on clinical aspects, the aim being to educate clinicians in the clinical implications of the latest research and novel developments in the field. In the new edition of this very well received book, first published in 2015, the original chapters have been significantly updated and additional chapters included on, for example, current knowledge on the roles of T-helper cells and NK cells in tumor immunity, the part played by oncoviruses in the development of various cancers, and the applications of fluorescent in situ hybridization, bioluminescence, and cancer molecular and functional imaging"--Publisher's description.
Having authored and published many successful and important textbooks in primary immunodeficiencies and cancer immunology, the editor of Physiology and Pathology of Immunology has ensured the high standard of writing and authenticity of the contents in this publication. The current book covers a spectrum of high-impact knowledge on the complex interplay between the environment, genes, and immunity that culminates in a generation of notorious processes of immune-related disorders. From evolution of regulatory T-cell function, gigantic cytokine networks within the human body to host-pathogen interactions of Chagas disease and Parkinson's disease, the Physiology and Pathology of Immunology goes further to decipher new codes from the immunity enigma, making it essential for experienced and new learners who wish to join the galaxy of modern immunology.
Because genetic factors can impact immune responses, and immunogenetic associations serve as a predictor of disease development and as a biological indicator of disease progression, the study of immunogenetics is important to basic genetics and immunology, as well as to translational and individualized medicine.This book addresses a few but important issues on the subject of immunogenetics. First, it will review the role that human leukocyte antigen molecules play in the immune system and then take into consideration the effectiveness of Western blotting for the detection of immunologic proteins. The book will discuss studies on the immunogenetics of cancer and tuberculosis followed by implications for immunotherapy. Working separately, the book will also provide evidence that the application of immunogenetics has improved our understanding of brain and behavior disorders.
Common Pediatric Diseases: An Updated Review informs the reader about common diseases in children that are encountered by pediatricians and family physicians. Each of the 14 chapters in the volume presents updated information for readers with the aim to give them a current perspective on the topic. This book is a handy and practical compendium for medical students and healthcare professionals involved in general practice and pediatric clinics. The text starts with a quick introduction to pediatric diseases, before progressing towards specific diseases in children. The list of topics in this book includes pediatric rheumatological diseases, common oral diseases, pediatric metabolic syndromes, pediatric epilepsy syndromes, pediatric demyelinating disorder, genetic epileptic encephalopathies (with an algorithmic diagnostic approach), Henoch-Schönlein purpura, atopic dermatitis, childhood-onset systemic lupus erythematosus, Severe Combined Immunodeficiency, PFAPA, aphthous stomatitis, pharyngitis, cervical adenitis syndrome and pediatric hepatoblastoma.
Asphaltene Deposition Control by Chemical Inhibitors: Theoretical and Practical Prospects is the most advanced reference focused on chemical dispersants and inhibitors from both an experimental and modeling viewpoint. Adequate knowledge of the effective parameters in each treatment method, interactions, mechanisms and economic viewpoints involved in asphaltene treatment are crucial for future development, recovery forecast, and reserve prediction, hence this reference delivers on all these aspects. Sections cover the environmental impacts of asphaltene deposition, prevention methods, and experimental methods, both static and dynamic, to test the effectiveness of inhibitors on restricting asphaltene deposition. Rounding out with modeling methods used to simulate asphaltene-inhibitor interactions and a workflow to select suitable inhibitors by technical, economic and environmental considerations, this book will give today’s engineers and researchers the right tool to mitigate formation damage in a sustainably responsible way. Focuses on inhibitors, mitigators and the interplay between the asphaltene-inhibitors Helps readers learn from experimental models and replicate treatments with screening workflows Includes case studies that help readers make sustainable and economically-sound decisions on treatments
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. Presents the knowledge researchers need to apply computational techniques to immunodeficiencies Provides the most practical material for bioinformatics approaches to the immunology of cancers Gives straightforward and efficient explanations of programming and machine learning approaches in R Includes details of the most useful databases, tools, programming packages and algorithms for immunoinformatics Illuminates clear explanations with practical examples of immunoinformatic approaches to cancer
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