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In this issue of Clinics in Laboratory Medicine, guest editors Drs. Daimon P. Simmons and Peter H. Schur bring their considerable expertise to the topic of Detection of SARS-CoV-2 Antibodies in Diagnosis and Treatment of COVID-19. Top experts in the field cover key topics such as performance of central lab assays to detect SARS-COV-2 antibodies; alternative methods to detect SARS-CoV-2 antibodies; the role of antibodies in developing vaccines for COVID-19; SARS-COV-2 antibodies after immunization; and more. - Contains 9 relevant, practice-oriented topics including disease-specific alterations in the cellular bases of the humoral immune response in COVID-19; coronavirus antigens as targets of antibody responses; approaches for SARS-CoV-2 antibody testing in a reference lab; use of IgM, IgA, and IgG in treatment and prognosis of patients with COVID-19; performance of lateral flow assays for COVID-19 serology; and more. - Provides in-depth clinical reviews on detection of SARS-CoV-2 antibodies in diagnosis and treatment of COVID-19, offering actionable insights for clinical practice. - Presents the latest information on this timely, focused topic under the leadership of experienced editors in the field. Authors synthesize and distill the latest research and practice guidelines to create clinically significant, topic-based reviews.
In this issue of Clinics in Laboratory Medicine, guest editors Drs. Daimon P. Simmons and Peter H. Schur bring their considerable expertise to the topic of Detection of SARS-CoV-2 Antibodies in Diagnosis and Treatment of COVID-19. Top experts in the field cover key topics such as performance of central lab assays to detect SARS-COV-2 antibodies; alternative methods to detect SARS-CoV-2 antibodies; the role of antibodies in developing vaccines for COVID-19; SARS-COV-2 antibodies after immunization; and more. Contains 9 relevant, practice-oriented topics including disease-specific alterations in the cellular bases of the humoral immune response in COVID-19; coronavirus antigens as targets of antibody responses; approaches for SARS-CoV-2 antibody testing in a reference lab; use of IgM, IgA, and IgG in treatment and prognosis of patients with COVID-19; performance of lateral flow assays for COVID-19 serology; and more. Provides in-depth clinical reviews on detection of SARS-CoV-2 antibodies in diagnosis and treatment of COVID-19, offering actionable insights for clinical practice. Presents the latest information on this timely, focused topic under the leadership of experienced editors in the field. Authors synthesize and distill the latest research and practice guidelines to create clinically significant, topic-based reviews.
The American Anti-Vivisection Society (AAVS) petitioned the National Institutes of Health (NIH) on April 23, 1997, to prohibit the use of animals in the production of mAb. On September 18, 1997, NIH declined to prohibit the use of mice in mAb production, stating that "the ascites method of mAb production is scientifically appropriate for some research projects and cannot be replaced." On March 26, 1998, AAVS submitted a second petition, stating that "NIH failed to provide valid scientific reasons for not supporting a proposed ban." The office of the NIH director asked the National Research Council to conduct a study of methods of producing mAb. In response to that request, the Research Council appointed the Committee on Methods of Producing Monoclonal Antibodies, to act on behalf of the Institute for Laboratory Animal Research of the Commission on Life Sciences, to conduct the study. The 11 expert members of the committee had extensive experience in biomedical research, laboratory animal medicine, animal welfare, pain research, and patient advocacy (Appendix B). The committee was asked to determine whether there was a scientific necessity for the mouse ascites method; if so, whether the method caused pain or distress; and, if so, what could be done to minimize the pain or distress. The committee was also asked to comment on available in vitro methods; to suggest what acceptable scientific rationale, if any, there was for using the mouse ascites method; and to identify regulatory requirements for the continued use of the mouse ascites method. The committee held an open data-gathering meeting during which its members summarized data bearing on those questions. A 1-day workshop (Appendix A) was attended by 34 participants, 14 of whom made formal presentations. A second meeting was held to finalize the report. The present report was written on the basis of information in the literature and information presented at the meeting and the workshop.
Shanghai COVID-19 Medical Treatment Expert Team edits this timely guide for effective prevention and control of COVID-19. Readers will obtain useful guidance on prevention and control of COVID-19 in different places ranging from homes, outdoors, workplaces, etc. You will know 'What is the purpose and significance of home quarantine?', ' When do you need to wear a mask?', 'How should you wash your hands?', 'Do you need to wear a mask in an elevator?', 'What foods are safe to eat and what are not?', 'How to deal with express parcels from major epidemic areas or other areas?' and many other useful tips.Related Link(s)
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.
Breathborne biomarkers carry information on the state of human health, and their role in aiding clinical diagnosis or in therapeutic monitoring has become increasingly important as advances in the field are made. Breathborne Biomarkers and the Human Volatilome, Second Edition, provides a comprehensive update and reworking of the 2013 book Volatile Biomarkers, by Anton Amann and David Smith. The new editing team has expanded this edition beyond volatile organic compounds to cover the broad field of breath analysis, including the many exciting developments that have occurred since the first edition was published. This thoroughly revised volume includes the latest discoveries and applications in breath research from the world's foremost scientists, and offers insights into related future developments. It is an ideal resource for researchers, scientists, and clinicians with an interest in breath analysis. - Presents recent advances in the field of breath analysis - Includes an extensive overview of established biomarkers, detection tools, disease targets, specific applications, data analytics, and study design - Offers a broad treatise of each topic, from basic concepts to a comprehensive review of discoveries, current consensus of understanding, and prospective future developments - Acts as both a primer for beginners and a reference for seasoned researchers
Medical Biosensors for Point of Care (POC) Applications discusses advances in this important and emerging field which has the potential to transform patient diagnosis and care. Part 1 covers the fundamentals of medical biosensors for point-of-care applications. Chapters in part 2 go on to look at materials and fabrication of medical biosensors while the next part looks at different technologies and operational techniques. The final set of chapters provide an overview of the current applications of this technology. Traditionally medical diagnostics have been dependent on sophisticated technologies which only trained professionals were able to operate. Recent research has focused on creating point-of-care diagnostic tools. These biosensors are miniaturised, portable, and are designed to be used at the point-of-care by untrained individuals, providing real-time and remote health monitoring. - Provides essential knowledge for designers and manufacturers of biosensors for point-of-care applications - Provides comprehensive coverage of the fundamentals, materials, technologies, and applications of medical biosensors for point-of-care applications - Includes contributions from leading international researchers with extensive experience in developing medical biosensors - Discusses advances in this important and emerging field which has the potential to transform patient diagnosis and care
Since the identification of the first cases of the coronavirus in December 2019, there has been a significant amount of confusion regarding the origin and spread of the so-called 'coronavirus', SARS-CoV-2, and the cause of the disease COVID-19. Conflicting messages from the media and officials across different countries and organizations, the abundance of disparate sources of information, unfounded conspiracy theories on the origins of the virus, unproven therapies, and inconsistent public health measures, have all served to increase anxiety in the population. Where did the virus come from? How is it transmitted? How does it cause disease? Is it like flu? What is a pandemic? In this concise and accessible introduction, a leading expert provides answers to these commonly asked questions. This revised and updated edition now also covers how the virus mutates, how important these mutations are, how vaccines work, and what we can expect in the near and long-term future.
Developments and applications of biosensor platforms for analysis of viral infections including Coronavirus, HIV, Hepatitis, Ebola, Zika, Norovirus, Influenza, SARS etc. Embraces properties, fabrication, and recent research regarding optical, electrochemical, piezoelectric, fluorescence, thermal, magnetic and micromechanical sensor families.