Description
Springer Neurokinetics The Dynamics Of Neurobiology In Vivo 2010 Edition by Albert Gjedde William R. Bauer Dean Wong
This book summarizes 20 years of work on the kinetics of blood-brain transfer and metabolism mechanisms in mammalian brain. The substances affiliated with these mechanisms include glucose amino acids monocarboxylic acids and oxygen. These substances are important to energy metabolism and neurotransmission in the mammalian brain at rest and during activation. To understand the processes addressed by these mechanisms the book examines the kinetics of compartmentation and compartmental analysis particularly as they relate to transporter enzyme and receptor function. Compartments are subsets of substances separated by transporters and receptors in membranes and enzymes in cells. This book is divided in six major chapters covering compartmental analysis kinetic analysis of transport and metabolism blood-brain transfer and metabolism of glucose amino acids and oxygen and amino acid metabolism and interaction of amino acid metabolites with receptors. Table of contents : Part 1 Introduction to Compartmental Analysis: Concept of Compartments.- Single-Compartment Analysis.- Two-Compartment Analysis.- Three-Compartment Analysis.- Glossary.- References.- Part 2 Mechanisms of Compartmental Kinetics: Role of Kinetics.- Definition of Relaxation Constants.- Interpretation of Relaxation Constants.- Determination of Relaxation Constants.- Application of Relaxation Constants.- Glossary.- References.- Part 3 Blood-Brain Transfer and Metabolism of Oxygen: Blood-Brain Transfer of Oxygen.- Oxygen in Brain Tissue.- Flow-Metabolism Coupling of Oxygen.- Limits to Oxygen Supply.- Experimental Results.- References.- Part 4 Blood-Brain Glucose Transfer: Brief History.- Brain Endothelial Glucose Transporter.- Theory of Blood-Brain Glucose Transfer.- Evidence of Blood-Brain Glucose Transfer.- References.- Tables and Figures.- Part 5 Metabolism of Glucose: Basic Principles of Metabolism.- Kinetics of Steady-State Glucose Metabolism.- Kinetics of Deoxyglucose Metabolism.- Operational Equations.- Results.- Legends.- Glossary.- References.- Part 6 Coupling of Brain Function to Metabolism: BrainWork.- Ion Homeostasis.- Brain Energy Metabolism.- Substrate Transport in Brain.- ATP Homeostasis.- Metabolic Compartmentation.- Activation.- Conclusions.- Acknowledgements.- References.