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Quinolones constitute a large class of synthetic antimicrobial agents that are highly effective in the treatment of many types of infectious diseases, particularly those caused by bacteria. New quinolones are continually being developed as bacterial species develop resistance to existing quinolones. This book presents the most current information available in our continual struggle to conquer disease. Over time, bacteria become resistant to medicines that are used to combat them. Because of this, the medical world is always in search of new and improved ways to battle these disease-causing bacteria. Quinolones are at the forefront of this research. Edited by one of the world's foremost authorities on the subject, the third edition of this highly successful title will serve as a valuable tool for primary care physicians and researchers interested in a comprehensive, up-to-date reference on the chemistry, mechanisms of action, development of resistance, and clinical efficacy of both currently available and newer quinolone compounds under investigation. This is the eagerly anticipated fully revised edition of the standard reference in the field. - Eagerly anticipated updated edition of noted title covering synthetic microbial agents that are useful against infectious disease, particularly those caused by bacteria - Edited by one of the foremost experts in the field of quinolone research and infectious disease - History of quinolones, chemistry & mechanisms of action, pharmacology, safety aspects - Role of quinolones in treating various types of infections, including respiratory infections, gastrointestinal infections, urinary tract infections, prostatitis, STDs and bacterial meningitis as well as their use in immunocompromised patients
Quinolones remain the most important class of antimicrobial agents discovered in recent years – over 1000 have been synthesized and evaluated. Since the publication of the original edition, considerable strides have been made in the research on structure–activity relationships, mechanism of action, resistance, pharmacodynamics and drug interactions. This edition consolidates and substantially updates our current state of knowledge of quinolones, with thirteen new chapters having been added.
Drug-Induced Liver Injury, Volume 85, the newest volume in the Advances in Pharmacology series, presents a variety of chapters from the best authors in the field. Chapters in this new release include Cell death mechanisms in DILI, Mitochondria in DILI, Primary hepatocytes and their cultures for the testing of drug-induced liver injury, MetaHeps an alternate approach to identify IDILI, Autophagy and DILI, Biomarkers and DILI, Regeneration and DILI, Drug-induced liver injury in obesity and nonalcoholic fatty liver disease, Mechanisms of Idiosyncratic Drug-Induced Liver Injury, the Evaluation and Treatment of Acetaminophen Toxicity, and much more. - Includes the authority and expertise of leading contributors in pharmacology - Presents the latest release in the Advances in Pharmacology series
The international symposium "New Trends in Allergy", held in Munich from July 13 to 15, 1990, brought together for the third time since 1980 some of the most experienced researchers working in the field of allergy. This volume comprises the papers presented at this meeting. All over the world, and not merely in the industrialized countries, allergy is becoming a cause of evermore serious diseases. In recent years, research in the field of allergy has provided numerous impor tant and fascinating results extending our knowledge considerably. Despite the new insights into basic mechanisms of allergic reactions, improved diagnostic methods, and new therapeutic approaches, how ever, many questions remain to be answered, including: Are allergies really increasing in frequency? If so, what are the reasons? Especially, does environmental pollution playa role? Which factors influence IgE synthesis? Can the IgE immune response be switched off? Does the nervous system interact with allergic reactions? If so, what are the mechanisms? Are new approaches in allergy prophylaxis and allergy therapy effi cient? What measures have proven useful and deserve to be employed in daily practice? In this volume, these questions and other current topics are dealt with. As each issue is covered by authors competent in the respective fields, the result is an extensive and critical review of the state of the art. Going through these papers, one comes to the conviction that allergy research is a multifacetted, explosively expanding, most stimulating field of work.
Written by the foremost authority in the field, this volume is a comprehensive review of the multifaceted phenomenon of hepatotoxicity. Dr. Zimmerman examines the interface between chemicals and the liver; the latest research in experimental hepatotoxicology; the hepatotoxic risks of household, industrial, and environmental chemicals; and the adverse effects of drugs on the liver. This thoroughly revised, updated Second Edition features a greatly expanded section on the wide variety of drugs that can cause liver injury. For quick reference, an appendix lists these medications and their associated hepatic injuries. Also included are in-depth discussions of drug metabolism and factors affecting susceptibility to liver injury.
This book presents a thorough and authoritative overview of the multifaceted field of antibiotic science – offering guidance to translate research into tools for prevention, diagnosis, and treatment of infectious diseases. Provides readers with knowledge about the broad field of drug resistance Offers guidance to translate research into tools for prevention, diagnosis, and treatment of infectious diseases Links strategies to analyze microbes to the development of new drugs, socioeconomic impacts to therapeutic strategies, and public policies to antibiotic-resistance-prevention strategies
Development and Implications of Antimicrobial Resistance One of the most ominous trends in the field of antimicrobial chemotherapy over the past decade has been the increasing pace of development of antimicrobial resistance among microbial pathogens. The hypothesis that man can discover a magic bullet to always cure a particular infection has proved false. Physicians are now seeing and treating patients for which there are few therapeutic alternatives, and in some cases, none at all. Until recently there was little concern that physicians might be losing the war in our ability to compete with the evolving resistance patterns of microbial pathogens. Now the general public is very aware of the threat to them if they become infected, thanks to cover story articles in major magazines such as Time, Newsweek, newspapers, and other news sources. Antimicrobial resistance is not a novel problem. Shortly after the widespread introduction of penicillin in the early 1940s, the first strains of penicillin-resistant staphylococci were described. Today it is an uncommon event for a clinical laboratory to isolate an S. aureus that is sensitive to penicillin. Other gram-positive strains of bacteria have become resistant, including the exquisitely sensitive Streptococcus pneumoniae. Sensitivity to vancomycin was once so uniform that it was used in routine clinical laboratories as a surrogate marker for whether an organism should be classified as a gram-positive. That criterion can no longer be relied upon because of emerging resistance among some species. Gram-negative bacteria, viruses, fungi, and parasites all have succeeded in developing resistance.
Antimicrobial Resistance in Agriculture: Perspective, Policy and Mitigation is a valuable industrial resource that addresses complex, multi-factorial topics regarding farm, wild, companion animals, fish, and how the environment plays an important role in amplification and transmission of resistant bugs into the human food chain. Information of phenotypical and genotypical properties of each bacterial genus associated with antimicrobial resistance, transmission dynamics from different reservoirs (food animals, poultry, fishes) and control measures with alternative therapy, such as phytobiotics and nanomaterials are provided. Researchers, scientists and practitioners will find this an essential resource on the judicial use of antibiotics in animals and humans. - Explores all the genera of livestock and fish originated pathogenic bacteria associated with antimicrobial resistance - Presents cutting-edge research on epigenetics, nanotechnology and intervention technologies - Discusses transmission dynamics of resistance gene pools from different reservoirs, including food animals, poultry, fishes and the environment
The Quinolones covers reviews on the history, chemistry and mechanism of action, in vitro properties, pharmacokinetics, clinical overview, toxicity, adverse effects and drug interactions, and future prospects of the 4-quinolones. The book discusses the microbiology of quinolones, particularly with consideration of the development of resistance, pharmacology, toxicology, and clinical uses. Chemists, microbiologists, pharmacologists and clinicians will find the book useful.