Electrotherapeutic Devices: Principles, Design, and ApplicationsArtech House, 2007 - 236 páginas This scientifically rigorous guide gives healthcare professionals and engineers essential technical, biological, and clinical background together with hands-on guidelines to design the most effective electrotherapeutic devices and treatment protocols for today's expanding list of clinical applications. This definitive one-stop resource introduces electrotherapeutic fundamentals and discusses how the body's cells, tissues, and organs respond to electrotherapy. |
Termos e frases comuns
activity appear applications approximately associated BCEC Becker Bioelectromagnetics Biologically Closed Electric cancer patients cell membrane cellular Chapter charge chemical clinical study clinical trial Closed Electric Circuits components current density current levels cytoplasm device and protocol direct current double-blind effects electric current electric field Electrical Stimulation Electrochemical electrode electromagnetic electron electrotherapeutic device electrotherapy endogenous energy equations exogenous field intensity Figure flow frequency hydrogen ions iatrogenic IEEE impedance indicate injury interaction interface involving ion channels Jarding Journal mA/cm² macular degeneration magnetic field magnetic flux density magnetotherapeutic magnetotherapy malignant cell mechanisms Medicine microcurrent molecules NEAT-ECHT Nordenström occur Orthomolecular Medicine Parkinson's disease pathway plasma membrane polarity potential problems processes produce proliferation pulse range receptors resistance retinal significant spikes statistical structure surface techniques therapeutic efficacy therapy tion tissue transport treated treatment tumor ulcers V₁ velocity visual disease waveform wound healing