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Immunotherapies Against Infectious Diseases
Infectious diseases have jeopardized human health significantly as evidenced by the ongoing Covid-19 pandemic. In recent years, the world has witnessed outbreaks of many emerging and re-emerging infections such as SARS (most recent by SARS-CoV-2), Ebola, Zika, MERS, dengue which in addition to taking millions of lives, have posed major health issues in recovered individuals. Moreover, several infectious agents like hepatitis B and C viruses, human papillomavirus, human immunodeficiency virus type 1, Epstein-Barr virus, human T-cell leukemia/lymphoma virus type 1, Kaposi sarcoma-associated herpesvirus, Helicobacter pylori and Streptococcus bovis have been found to cause different types of can...
Transgenesis and Targeted Mutagenesis in Immunology
Investigations into the field of immunology are rapidly expanding with the use of genetically altered mice at the embryonic stage. This breakthrough laboratory guide provides a complete study of transgenesis and targeted mutagenesis in laboratory mice that will be valued by researchers looking for fresh observations and interpretations when designing future experiments.Special Features Include:Contributions of two Nobel Prize winnersAddresses the use of mouse models in studying the immune systemTargets gene distribution in embryonic stem cells and their introduction into blastocyte mice modelsAnalyzes the in vivo functional loss of embryonic cellsA practical, useful guidebook for individual researchers, laboratories, and libraries
Current Topics in Malaria
Malaria causes hundreds of thousands of human deaths every year, and the World Health Assembly has made it a priority. To help eliminate this disease, there is a pressing need for the development and implementation of new strategies to improve the prevention and treatment, due in part to antimalarial drug resistances. This chapter focuses on two strategies to inactivate the malaria parasite in blood, which are photodynamic therapy (PDT) and inhibition of hemozoin formation. The PDT strategy permits either a control of the proliferation of mosquito larvae to develop some photolarvicides for the prevention or a photoinactivation of the malaria parasite in red blood cells (RBCs) to minimize infection transmission by transfusion. The inhibition of hemozoin formation strategy is used for the development of new antimalarial drug by understanding its formation mechanism.
Immunity to Malaria and Vaccine Strategies
Malaria, caused by infection with protozoan parasites belonging to the genus Plasmodium, is a highly prevalent and lethal infectious disease, responsible for 435,000 deaths in 2017. Optimism that malaria was gradually being controlled and eliminated has been tempered by recent evidence that malaria control measures are beginning to stall and that Plasmodium parasites are developing resistance to front-line anti-malarial drugs. An important milestone has been the recent development of a malaria vaccine (Mosquirix) for use in humans, the very first against a parasitic infection. Unfortunately, this vaccine has modest and short-lived efficacy, with vaccinated individuals possibly being at incre...
Monoclonal Antibodies
This book is a printed edition of the Special Issue "Monoclonal Antibodies" that was published in Antibodies
Malaria
Currently, malaria kills more than 300,000 people per year, making it a top priority of world leaders and international organizations, who are working towards implementing and coordinating efforts to eradicate this disease. An effective malaria vaccine is recognized as the key element that will decide between success and failure in this fight. At present, despite intensive research efforts, such a vaccine is not yet available for use. However, there are a number of advanced candidate vaccines with high chances of success in the short term. Malaria: Immune Response to Infection and Vaccination provides a comprehensive view on the immune response to malaria and to the different vaccines under development. The book offers the following: - Contributions by top research leaders in the field, - Comparisons of the immune responses to both malaria infection and malaria vaccines, which are traditionally treated separately, - Coverage of the immune responses to the different stages of malaria, which are frequently treated as separate fields of research.
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