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Malaria has defeated previous efforts at eradication and remains a massive global public health problem despite being readily preventable and treatable. It is a devastating disease that also extracts huge economic costs from the poorest countries in endemic regions. Starting with an overview of the disease and its current political, financial and technical context, this Milestones in Drug Therapy volume describes the history, chemistry, mechanisms of action and resistance, preclinical and clinical use, pharmacokinetics and safety and tolerability of the current range of antimalarial drugs. There is particular emphasis on artemisinins and related peroxides, as these drugs have now become the frontline treatment for malaria. Next generation antimalarials, molecular markers for detecting resistance, the importance of diagnostics and disease prevention are also covered in detail.
During World War II malaria was one of the most powerful enemies of the Australian troops in the South West Pacific. In 1943 the Australian Army formed a special research team to tackle the problem. This book documents the Australian search for a cure, and the scientific breakthroughs.
For more than 50 years, low-cost antimalarial drugs silently saved millions of lives and cured billions of debilitating infections. Today, however, these drugs no longer work against the deadliest form of malaria that exists throughout the world. Malaria deaths in sub-Saharan Africaâ€"currently just over one million per yearâ€"are rising because of increased resistance to the old, inexpensive drugs. Although effective new drugs called "artemisinins" are available, they are unaffordable for the majority of the affected population, even at a cost of one dollar per course. Saving Lives, Buying Time: Economics of Malaria Drugs in an Age of Resistance examines the history of malaria treatments, provides an overview of the current drug crisis, and offers recommendations on maximizing access to and effectiveness of antimalarial drugs. The book finds that most people in endemic countries will not have access to currently effective combination treatments, which should include an artemisinin, without financing from the global community. Without funding for effective treatment, malaria mortality could double over the next 10 to 20 years and transmission will intensify.
A fascinating and shocking historical exposé, The Malaria Project is the story of America's secret mission to combat malaria during World War II—a campaign modeled after a German project which tested experimental drugs on men gone mad from syphilis. American war planners, foreseeing the tactical need for a malaria drug, recreated the German model, then grew it tenfold. Quickly becoming the biggest and most important medical initiative of the war, the project tasked dozens of the country’s top research scientists and university labs to find a treatment to remedy half a million U.S. troops incapacitated by malaria. Spearheading the new U.S. effort was Dr. Lowell T. Coggeshall, the son of a poor Indiana farmer whose persistent drive and curiosity led him to become one of the most innovative thinkers in solving the malaria problem. He recruited private corporations, such as today's Squibb and Eli Lilly, and the nation’s best chemists out of Harvard and Johns Hopkins to make novel compounds that skilled technicians tested on birds. Giants in the field of clinical research, including the future NIH director James Shannon, then tested the drugs on mental health patients and convicted criminals—including infamous murderer Nathan Leopold. By 1943, a dozen strains of malaria brought home in the veins of sick soldiers were injected into these human guinea pigs for drug studies. After hundreds of trials and many deaths, they found their “magic bullet,” but not in a U.S. laboratory. America 's best weapon against malaria, still used today, was captured in battle from the Nazis. Called chloroquine, it went on to save more lives than any other drug in history. Karen M. Masterson, a journalist turned malaria researcher, uncovers the complete story behind this dark tale of science, medicine and war. Illuminating, riveting and surprising, The Malaria Project captures the ethical perils of seeking treatments for disease while ignoring the human condition.
Infectious diseases are the leading cause of death globally, particularly among children and young adults. The spread of new pathogens and the threat of antimicrobial resistance pose particular challenges in combating these diseases. Major Infectious Diseases identifies feasible, cost-effective packages of interventions and strategies across delivery platforms to prevent and treat HIV/AIDS, other sexually transmitted infections, tuberculosis, malaria, adult febrile illness, viral hepatitis, and neglected tropical diseases. The volume emphasizes the need to effectively address emerging antimicrobial resistance, strengthen health systems, and increase access to care. The attainable goals are to reduce incidence, develop innovative approaches, and optimize existing tools in resource-constrained settings.
Antimalarial Agents: Design and Mechanism of Action seeks to support medicinal chemists in their work toward antimalarial solutions, providing practical guidance on past and current developments and highlighting promising leads for the future. Malaria is a deadly disease which threatens half of the world's population. Advances over several decades have seen vast improvements in the eff ectiveness of both preventative measures and treatments, but the rapid adaptability of the disease means that the ongoing search for improved and novel antimalarial drugs is essential. Beginning with a historical overview of malaria and antimalarial research, this book goes on to describe the biological aspects of malaria, highlighting the lifecycle of the parasite responsible for malaria, the problem of resistance, genetic mapping of the parasite's genome, established drug targets, and potential drug targets for the future. This sets the scene for the following chapters which provide a detailed study of the medicinal chemistry of antimalarial agents, with a focus on the design of antimalarial drugs. Drawing on the knowledge of its experienced authors, and coupling historic research with current fi ndings to provide a full picture of both past and current milestones, Antimalarial Agents: Design and Mechanism of Action is a comprehensive yet accessible guide for all those involved in the design, development, and administration of antimalarial drugs, including student academic researchers, medicinal chemists, malaria researchers, and pharmaceutical scientists. - Consolidates both past and current developments in the discovery and design of antimalarial drugs - Presents content in a style that is both thorough and engaging, providing a supportive and guiding reference to students and researchers from interdisciplinary backgrounds - Highlights drug targets currently considered to be the most promising for future therapies, and the classes of compounds that are currently being studied and perfected
Malaria is making a dramatic comeback in the world. The disease is the foremost health challenge in Africa south of the Sahara, and people traveling to malarious areas are at increased risk of malaria-related sickness and death. This book examines the prospects for bringing malaria under control, with specific recommendations for U.S. policy, directions for research and program funding, and appropriate roles for federal and international agencies and the medical and public health communities. The volume reports on the current status of malaria research, prevention, and control efforts worldwide. The authors present study results and commentary on the: Nature, clinical manifestations, diagnosis, and epidemiology of malaria. Biology of the malaria parasite and its vector. Prospects for developing malaria vaccines and improved treatments. Economic, social, and behavioral factors in malaria control.
The World Health Organization's Global Technical Strategy for Malaria 2016- 2030 has been developed with the aim to help countries to reduce the human suffering caused by the world's deadliest mosquito-borne disease. Adopted by the World Health Assembly in May 2015 it provides comprehensive technical guidance to countries and development partners for the next 15 years emphasizing the importance of scaling up malaria responses and moving towards elimination. It also highlights the urgent need to increase investments across all interventions - including preventive measures diagnostic testing treatment and disease surveillance- as well as in harnessing innovation and expanding research. By adopting this strategy WHO Member States have endorsed the bold vision of a world free of malaria and set the ambitious new target of reducing the global malaria burden by 90% by 2030. They also agreed to strengthen health systems address emerging multi-drug and insecticide resistance and intensify national cross-border and regional efforts to scale up malaria responses to protect everyone at risk.
The year 2012 marks the tenth anniversary of the announcement of the genome sequence of the human malaria parasite Plasmodium falciparum and that of its mosquito vector Anopheles. The genome sequences were a result of the Plasmodium falciparum Genome Project. This book covers in detail the biology of malaria parasites and the mosquitoes that transmit the disease, how the Genome Project came into being, the people who created it, and the cadre of scientists who are attempting to see the promise of the Project realized. The promise was: a more complete understanding of the genes of the parasite (and its vector) would provide a rational basis for the development of antimalarial drugs and vaccines, allow a better understanding of the regulation of the complex life cycle in the red blood and liver cells of the human, identify the genes the parasite uses to thwart the host immune response and the ways in which the parasite evades cure by drug treatments, as well as leading to more effective measures of control transmission. The hope was that cracking the genetic code of Plasmodium and Anopheles would reveal the biochemical Achilles heel of the parasite and its vector, leading to the development of novel drugs and better methods of control, and by finding the targets of protective immunity could result in the manufacture of effective vaccines. Through a historic approach, this book will allow for those new to the field, or those with insufficient background in the sciences, to have an easier entry point. Even scientists already working in the field may better appreciate how discoveries made in the past can impact the direction of future research.
Malaria continues to be a major health problem in many parts of the world, with over 2,400 million people in 100 countries at risk of infection. This handbook is an updated edition of 'Management of severe and complicated malaria', providing practical guidance on the diagnosis and management of severe falciparum malaria, a form of the disease that can have life-threatening complications if treatment is delayed.