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This books brings together multi-disciplinary expertise to provide comprehensive information about molecular imaging of infectious diseases. Also described are the development of new imaging technologies for infectious disease and their translation to the clinic. The overall goal of Imaging Infections: From Bench to Bedside is to spur interest and innovation in this emerging field. We anticipate that these technologies will not only allow unique insights into understanding pathogenesis of infections but also expedite bench-to-bedside translation of new therapeutics. While molecular imaging is already in common use in the clinic, this book demonstrates how it could also become a valuable tool for clinical studies, patient care, public health, and for enabling precision medicine for infectious diseases.
This volume aims to help new investigators to the field by providing them with the protocols needed to set up clinically relevant animal models of fungal infection, as well as methods for in vivo immunology.Written in the format of the highly successful Methods in Molecular Biology series, each chapter includes an introduction to the topic, lists necessary materials and methods, includes tips on troubleshooting and known pitfalls, and step-by-step, readily reproducible protocols. Authoritative and cutting-edge, Antifungal Immunity: Methods and Protocols aims to be comprehensive guide for researchers in the field
This volume provides a practical guide providing step-by-step protocol to design and develop vaccines for human diseases. Divided into three volumes, Volume 1: Vaccines for Human Diseases guides readers through an introductory section on future challenges for vaccinologists and the immunological mechanism of vaccines. Chapters focus on design of human vaccines for viral, bacterial, fungal, and parasitic diseases as well as tumor vaccines. Written in the format of the highly successful Methods in Molecular Biology series, each chapter includes an introduction to the topic, lists necessary materials and reagents, includes tips on troubleshooting and known pitfalls, and step-by-step, readily reproducible protocols. Authoritative and practical, Vaccine Design: Methods and Protocols, Second Edition, Volume 1: Vaccines for Human Diseases aims to be a useful practical guide to researchers to help further their study in this field.
Imaging techniques have been used for decades to detect anomalies, study organ function and for diagnostic purposes. Advances in imaging techniques and image processing as well as a wider availability of lung imaging is providing an increasing amount of data and new insights into lung structure and function and their alterations in common lung diseases. Functional imaging biomarkers have the potential to better characterize individual patient phenotypes, predict disease trajectories, and help personalize therapy. The wealth of new data also confronts us with new challenges in terms of identifying, quantifying, deciphering, and standardizing image-based parameters pertaining to regional lung function.
Liposomes are synthetic vesicles consisting of one or more phospholipid bilayers, able to accommodate water- and lipid-soluble molecules. They are used as a delivery system for drugs, genes and vaccines in therapeutics. This collection of reviews and laboratory protocols provides the reader with an excellent introduction to some of the many ways in which liposomes can be labeled and used in both diagnostic and therapeutic applications. Diagnostic uses include attachment of radiolabels to track nanometer-sized liposomes in the body in a quantitative fashion using PET or SPECT imaging. The ability to track the uptake of liposomes in humans and research animals on a whole-body basis provides an...
"Advances in Nanomaterials in Biomedicine" provided a platform for more than 110 researchers from different countries to present their latest investigations in various fields of nanotechnology, new methods and nanomaterials intended for medical applications. Modern achievements in the field of nanoparticle-based diagnostics, drug delivery and the use of various nanomaterials in the treatment of diseases are presented in 11 original articles. The published reviews provide a comprehensive analysis of the current information on the use of nanomedicine in the treatment and diagnosis of cancer and liver fibrosis, in the field of solid tissue engineering and in drug delivery systems.
This book presents a review of recent developments in NMR applications in pharmaceutical research. Consideration is given to consolidated and emerging techniques and methods, many of which are not yet widely applied but are likely to provide new opportunities for drug design. The first part of the book is dedicated to the description of NMR as a tool for the analysis of chemicals and their interactions with targets. The next seven chapters describe NMR approaches to investigate in vivo models of interest in drug discovery and development, with the attention focused on anatomy, function, metabolism and molecular-cellular aspects. Finally, consideration is given to the application of in vivo NMR to the identification and characterization of biomarkers with the aim of monitoring the outcome of therapeutic intervention in selected human diseases, including the study of drug metabolism and toxicity. Aimed at NMR spectroscopists, pharmacologists, imaging researchers and pharmaceutical scientists, this title is invaluable at putting NMR in context within its role in drug discovery and development. This resource is essential reading for those both new and already active in these areas.
Islet transplantation can effectively control the blood glucose of fragile type 1 diabetes patients, thus significantly reducing hyperglycemia and improving HbA1c, and has become one of the ideal options for the treatment of type 1 diabetes patients. However, despite great progress, current islet transplantation is still limited by the isolation process, the culture period, and the rapid decline in islet functional activity after transplantation. Long-term survival and function of islet grafts are affected by non-immune and immune-related factors. To overcome these obstacles, various strategies, including stem cell combination transplantation, have been used for islet transplantation. Stem c...