How a coalition of Black health professions schools made health equity a national issue. Racism in the US health care system has been deliberately undermining Black health care professionals and exacerbating health disparities among Black Americans for centuries. These health disparities only became a mainstream issue on the agenda of US health leaders and policy makers because a group of health professions schools at Historically Black Colleges and Universities banded together to fight for health equity. We'll Fight It Out Here tells the story of how the Association of Minority Health Professions Schools (AMHPS) was founded by this coalition and the hard-won influence it built in American politics and health care. David Chanoff and Louis W. Sullivan, former secretary of health & human services, detail how the struggle for equity has been fought in the field of health care, where bias and disparities continue to be volatile national issues. Chanoff and Sullivan outline the history of Black health care, from pre-Emancipation to today, centering on the work of AMHPS, which brought to light health care inequities in 1983 and precipitated virtually all minority health care legislation since then. Based on extensive research in the literature, as well as more than seventy interviews with the people central to this fight for legislative and policy change, We'll Fight It Out Here is the important story of a vital coalition movement, virtually unknown until now, that changed the national understanding of health inequities. The work of this coalition of Black health schools continues, both in supporting the training of more doctors and health professionals from minority backgrounds and in advancing issues related to health equity. By highlighting these endeavors, We'll Fight It Out Here brings attention to a pivotal group in the history of the health equity movement and provides a road map of practical mechanisms that can be used to advance it.

Health Insurance Systems: An International Comparison offers united and synthesized information currently available only in scattered locations - if at all - to students, researchers, and policymakers. The book provides helpful contexts, so people worldwide can understand various healthcare systems. By using it as a guide to the mechanics of different healthcare systems, readers can examine existing systems as frameworks for developing their own. Case examples of countries adopting insurance characteristics from other countries enhance the critical insights offered in the book. If more information about health insurance alternatives can lead to better decisions, this guide can provide an essential service.

Bioinspired and Biomimetic Materials for Drug Delivery delves into the potential of bioinspired materials in drug delivery, detailing each material type and its latest developments. In the last decade, biomimetic and bioinspired materials and technology has garnered increased attention in drug delivery research. Various material types including polymer, small molecular, protein, peptide, cholesterol, polysaccharide, nano-crystal and hybrid materials are widely considered in drug delivery research. However, biomimetic and bioinspired materials and technology have shown promising results for use in therapeutics, due to their high biocompatibility and reduced immunogenicity. Such materials include dopamine, extracellular exosome, bile acids, ionic liquids, and red blood cell. This book covers each of these materials in detail, reviewing their potential and usage in drug delivery. As such, this book will be a great source of information for biomaterials scientists, biomedical engineers and those working in pharmaceutical research.

The Internet of Medical Things (IoMT) allows clinicians to monitor patients remotely via a network of wearable or implantable devices. The devices are embedded with software or sensors to enable them to send and receive data via the internet so that healthcare professionals can monitor health data such as vital statistics, metabolic rates or drug delivery regimens, and can provide advice or treatment plans based on this real-world, real-time data. This edited book discusses key IoT technologies that facilitate and enhance this process, such as computer algorithms, network architecture, wireless communications, and network security. Providing a systemic review of trends, challenges and future directions of IoMT technologies, the book examines applications such as breast cancer monitoring systems, patient-centric systems for handling, tracking and monitoring virus variants, and video-based solutions for monitoring babies. The book discusses machine learning techniques for the management of clinical data and includes security issues such as the use of blockchain technology. Written by a range of international researchers, this book is a great resource for computer engineering researchers and practitioners in the fields of data mining, machine learning, artificial intelligence and the IoT in the healthcare sector.