Impedance Neurography: Nerve Stimulation and Membrane Biophysics discusses research elucidating the nature of nerve simulation via externally applied electrical fields, and how that has led to an entirely new understanding of neuronal cell membrane biophysics and defined a novel nerve imaging technology. It details how these discoveries came about and the nature of research that derives from unexplained clinical observations. It addresses why controlled current nerve stimulation devices are suboptimal, especially for deep lying nerves. The primary technology, impedance neurography, is a wholly new way of nerve-specific visualization in 2-D or 3-D, with the ability to define both normal and abnormal functioning of nerves, heretofore unavailable from techniques such as MRI neurography, with orders of magnitude less energy exposure and cost. This is of particular importance with respect to the obesity epidemic where physicians performing nerve-related procedures cannot use ultrasound visualization due to the depth limitations of that technology. Focuses on nerve stimulation mechanics and neuronal cell membrane biophysicsDefines a nerve-specific imaging technology and issues with current nerve stimulation devicesAddresses inaccuracies in the understanding of nerve stimulation and provides a new understanding of neuronal cell membrane biophysicsProvides for nerve-specific visualization in 2-D or 3-D, with the novel ability to define both normal and abnormal functioning of nerves INDICE: 1. Initial Impedance Neurography Findings: The TENS Technique and Nerve Stimulation Observations 2. Skin Surface Impedance 3. The Varieties of Neuronal Cell Membrane Reactance: Nerves as RLC circuits 4. Anisotropicity 5. Depth Determination of Peripheral Nerves using Impedance Neurography
- ISBN: 978-0-12-814176-2
- Editorial: Academic Press
- Encuadernacion: Rústica
- Páginas: 160
- Fecha Publicación: 01/09/2017
- Nº Volúmenes: 1
- Idioma: Inglés