The area of molecular imaging has matured over the past decade and is still growing rapidly. Many concepts developed for molecular biology and cellular imaging have been successfully translated to in vivo imaging of intact organisms. Molecular imaging enables the study of processes at a molecular level in their full biological context. Due to the high specificity of the molecular readouts the approach bears a high potential for diagnostics. It is fair to say that molecular imaging has become an indispensable tool for biomedical research and drug discovery and development today.This volume familiarizes the reader with the concepts of imaging and molecular imaging in particular. Basic principles of imaging technologies, reporter moieties for the various imaging modalities, and the design of targeted probes are described in the first part. The second part illustrates how these tools can be used to visualize relevant molecular events in the living organism. Topics covered include the studies of the biodistribution of reporter probes and drugs, visualization of the expression of biomolecules such as receptors and enzymes, and how imaging can be used for analyzing consequences of the interaction of a ligand or a drug with its molecular target by visualizing signal transduction, or assessing the metabolic, physiological, or structural response of the organism studied. The final chapter deals with visualization of cell migration, for example in the context of cell therapies.The second edition covers novel developments over recent years, in particular regarding imaging technologies (hybrid techniques) and novel reporter concepts. Novel biomedical applications have been included, where appropriate. All the chapters have been thoroughly reworked and the artwork updated.

Covering all aspects of oxygen delivery to tissue, including blood flow and its regulation as well as oxygen metabolism, this book is multidisciplinary and designed to bring together experts and students from a range of research fields including biochemical engineering, physiology, microcirculation, and hematology.

The area of molecular imaging has matured over the past decade and is still growing rapidly. Many concepts developed for molecular biology and cellular imaging have been successfully translated to in vivo imaging of intact organisms. Molecular imaging enables the study of processes at a molecular level in their full biological context. Due to the high specificity of the molecular readouts the approach bears a high potential for diagnostics. It is fair to say that molecular imaging has become an indispensable tool for biomedical research and drug discovery and development today.This volume familiarizes the reader with the concepts of imaging and molecular imaging in particular. Basic principles of imaging technologies, reporter moieties for the various imaging modalities, and the design of targeted probes are described in the first part. The second part illustrates how these tools can be used to visualize relevant molecular events in the living organism. Topics covered include the studies of the biodistribution of reporter probes and drugs, visualization of the expression of biomolecules such as receptors and enzymes, and how imaging can be used for analyzing consequences of the interaction of a ligand or a drug with its molecular target by visualizing signal transduction, or assessing the metabolic, physiological, or structural response of the organism studied.The third edition has been extended considerably. This holds for the chapter on imaging modalities, which now includes sections on intravital microscopy and mass spectrometric imaging. All chapters have been updated and a new chapter on the challenges of translating molecular imaging solutions for clinical use has been added.

Based on the 38th annual conference of the International Society on Oxygen Transport to Tissue (ISOTT), held in Ascona, Switzerland in July 2010, this volume covers all aspects of oxygen transport from air to the cells, as well as looking at organs and organism, instrumentation, and methods to sense oxygen and clinical evidence.

Isolated Cells and Perfused Organs 1. O. Kaplan, P.C.M. van Zijl, J.S. Cohen, Washington, DC/USA NMR Studies of Metabolism of Cells and Perfused Organs Individual Nuclei 2. S.R. Williams, London, UK In Vivo Proton Spectroscopy: Experimental Asoects and Potential 3. N. Beckmann, Basel, Switzerland In Vivo 13C Spectroscopy in Humans 4. M.J.W. Prior, R.J. Maxwell, J.R. Griffiths, London, UK Fluorine - 19F NMR Spectroscopy and Imaging In Vivo 5. J.S. Ingwall, Boston, MA/USA Measuring Cation Movements Across the Cell Wall Using NMR Spectroscopy: Sodium Movements in Striated Muscle 6. M. Rudin, A. Sauter, Basel, Switzerland In Vivo Phosphorus-31 NMR: Potential and Limitations