- ホーム
- > 洋書
- > 英文書
- > Science / Mathematics
Description
This book presents cutting-edge papers and perspectives on the transport of oxygen to tissues by scientists in a multitude of disciplines such as biochemistry, engineering, mathematics, medicine, physics, physiology, veterinary and complementary medicine. The book is composed of the following 8 parts: Honorary Lectures, Measuring Tissue Oxygen in vivo, Membrane-Level Transport, Hypoxia and Metabolic Regulation, Hemodynamic Physiology, Brain Functional Dynamics, Cerebral Hemodynamics, and Peripheral Oxygen Monitoring. The articles in this book have been presented at the 51st annual meeting of the International Society on Oxygen Transport to Tissue (ISOTT 2024). Academics, clinical and industry researchers, engineers, as well as graduate students who are interested in oxygen transport to tissue will find this book a great reference and a useful learning resource.
Role of mitochondrial optical redox imaging in modern cancer research.- Mind the individual physiological reactions to long term colored light exposure assessed by SPA.- A novel approach to in vivo EPR spectroscopy for repeatable assessments of oxygenation levels in tumors at any depth preliminary feasibility studies utilizing a multisite oxygen sensor inside HDR brachytherapy needles.- What is the information content of EPR oximetry.- Letting biology validate the EPR imaging of tumor.- Random acquisition of spectral projections in four dimensional spectral spatial EPR imaging a feasibility study toward oxygen imaging.- A portable broadband near infrared spectroscopy device for in vivo oxygenation and metabolism measurements.- Non contact oxygenation assessment of biological tissues based on a time of flight method.- Dependence of reflectance on optical properties at short distance.- Dependence of reflectance on optical properties at short distance.- Influence of breast tumor associated lipids on oxygen transport across model cell membranes.- Simulating gas permeation through the central pore of AQP5.- Role of the dual specificity phosphatase signaling by hypoxia or acidosis in tumor cells.- Blood flow regulates metabolism in hematopoietic development.- Erythrocytes as active regulators of blood flow a brief overview.- Capillary red blood cell velocity is decreased in skeletal muscle of septic rats in vivo imaging using videocapillaroscopy.- The role of nitric oxide in regulating microvascular oxygen pressure during diaphragm contraction in rats.- Influence of arterial occlusion at various cuff positions on systemic circulation measured by remote photoplethymography.- Physiological effects of photobiomodulation therapy in the treatment of multiple concussions.- Photobiomodulation increases eye movement conjugation in healthy volunteers.- Brain synchronization when sharing positive emotions based on memories hyperscanning study.- Unlocking unique physiological reactions novel insights into four cerebral and systemic physiological responses to colored light.- Long term modulation of brain tissue oxygenation and electrophysiological activity following neonatal anesthesia expo
Sally C. Pias, PhD, is an Associate Professor in the Department of Chemistry at the New Mexico Institute of Mining and Technology (New Mexico Tech) in Socorro, New Mexico, USA. She specializes in the biophysics of molecular transport processes important in energy metabolism, tumor cell survival, and cell death.
Qi Wang, PhD, is an Assistant Professor of Biochemistry in the Department of Chemistry and Biochemistry at Presbyterian College in Clinton, South Carolina, USA. Her research uses molecular dynamics simulations to explore how biomolecular systems interact and change, with focus on membranes and proteins.
Joseph C. LaManna, PhD, is Jeannette M. and Joseph S. Silber Professor for the Study of Brain Sciences, affiliated with the Departments of Physiology and Biophysics; Neurology; and Neuroscience at Case Western Reserve University Medical School, Cleveland, Ohio, USA. His research focuses on physiological adaptations to mild hypoxia and on brain metabolism of ketones as an alternate fuel to glucose.
