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Practical Neurophysics

Practical Neurophysics

The Physics and Engineering of Neurology

9780197578148
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Description
Practical Neurophysics:: The Physics and Engineering of Neurology explores and explains the physical foundations of neurology with a principal focus on the technologies that we use for diagnosis and management. The physics of biologic systems is also discussed, in the context of interfacing with our technologies and the mechanisms behind abnormalities. With sections on ultrasound, advanced laboratory tests, and neurotherapeutics, this is a unique book that focuses on thescience and engineering rather than on disease processes. This book is intended to give the reader an appreciation of the mechanisms behind our technology and how humans and machines interface. The spectrum of presented information ranges from basic atomic physics to electronics to mechanisms of abnormalities onMRI and EEG. With this book, the reader should have a better understanding of the mechanisms of the technologies we use as well as an understanding of how normal and pathological functioning produces findings we can record.
Product Details
OUP USA
98323
9780197578148
9780197578148

Data sheet

Publication date
2023
Issue number
1
Cover
hard cover
Pages count
352
Dimensions (mm)
156 x 235
Weight (g)
581
  • Preface; Contributors; Abbreviations; Part 1. Basic Physics for Neurology; Chapter 1: Basic Physics, Evan M. Johnson and Karl E. Misulis; Chapter 2: Basic Electronics, Karl E. Misulis and Evan M. Johnson; Chapter 3: Computers, Applications, and Artificial Intelligence, Karl E. Misulis and Eamon Doyle; Chapter 4: Physics of Neurophysiology, Evan M. Johnson and Karl E. Misulis; Part 2. Physics Behind Neurologic Technology; Chapter 5: History of Technology in Neurology, Karl E. Misulis and Evan M. Johnson; Chapter 6: Electroencephalography, Karl E. Misulis and Evan M. Johnson; Chapter 7: Electromyography and Nerve Conduction Studies, Karl E. Misulis and Evan M. Johnson; Chapter 8: Evoked Potentials, Karl E. Misulis; Chapter 9: Ultrasound, Evan M. Johnson; Chapter 10: X-Ray and Computed Tomography, Evan M. Johnson; Chapter 11: Magnetic Resonance Imaging, Eamon Doyle and Evan M. Johnson; Chapter 12: Nuclear Imaging, Evan M. Johnson; Chapter 13: Laboratory Studies, Karl E. Misulis; Chapter 14: Neurologic Therapeutics, Evan M. Johnson and Karl E. Misulis; Notes; Glossary; Index;
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