Effects of High Pressure on Biological Systems [Paperback]

Provided here is an up to date account of how high pressuresaffect cellularprocesses in microorganisms and ineukaryotic cells. Topics include membranetransport, cellactivation, the excitable properties of cells, muscularcontraction, with particular emphasis on cardiac muscle, andthe role of pressure in the physiology of cartilage in loadbearing joints. Additionally there are thorough reviews ofthe effects of pressure on fish and on the central nervoussystem of mammals, including man.Provided here is an up to date account of how high pressuresaffect cellularprocesses in microorganisms and ineukaryotic cells. Topics include membranetransport, cellactivation, the excitable properties of cells, muscularcontraction, with particular emphasis on cardiac muscle, andthe role of pressure in the physiology of cartilage in loadbearing joints. Additionally there are thorough reviews ofthe effects of pressure on fish and on the central nervoussystem of mammals, including man.1 Bacteria.- 1 Introduction.- 2 Examples of Pressure Effects on Specific Microbial Systems.- 3 Effects of High-Pressure Gases on Microbes.- References.- 2 Aspects of Eukaryotic Cells.- 1 Introduction.- 2 Eggs: Genetic Manipulations Using High Pressure.- 3 Cartilage: Effects of Hydrostatic Pressure in Articulating Joints.- 4 Platelets: Receptors and Cell Activation.- 5 Erythrocytes: Membrane Transport.- References.- 3 Ion Channels and Nerve Cell Function.- 1 Introduction.- 2 Ion Channels in Excitable Cells.- 3 Transmitter Release at Synapses.- 4 Excitable Cell Behavior.- 5 Conclusion.- References.- 4 Vertebrate Skeletal and Cardiac Muscle.- I Introduction.- 2 High-Pressure Inotropy in Vertebrate Skeletal Muscle.- 3. Mechanisms of High-Pressure Inotropy in Skeletal Muscle.- 4 High-Pressure Inotropy in Vertebrate Cardiac Muscle.- 5 Mechanisms of High-Pressure Inotropy in Cardiac Muscle.- 6 Conclusions.- References.- 5 Fish.- 1 Introduction.- 2 Shallow Water Fish: Elƒ°