Suzanne Amador Kane, Nancy Donaldson, Boris Gelman
April 30, 2009
by CRC Press
Textbook - 448 Pages - 283 B/W Illustrations
ISBN 9781584889434 - CAT# C9438
For Instructors Request an e-inspection copy
A solutions manual is available upon qualified course adoption.
Covering a wide range of applications, Introduction to Physics in Modern Medicine, Second Edition builds on the bestselling original. Based on a course taught by the author, the book provides medical personnel and students with an exploration of the physics-related applications found in state-of-the-art medical centers.
Requiring no previous acquaintance with physics, biology, or chemistry and keeping mathematics to a minimum, the application-dedicated chapters adhere to simple and self-contained qualitative explanations that make use of examples and illustrations. With an enhanced emphasis on digital imaging and computers in medicine, the text gives readers a fundamental understanding of the practical application of each concept and the basic science behind it.
This book provides medical students with an excellent introduction to how physics is applied in medicine, while also providing students in physics with an introduction to medical physics. Each chapter includes worked examples and a complete list of problems and questions.
That so much of the technology discussed in this book was the stuff of dreams just a few years ago, makes this book as fascinating as it is practical, both for those in medicine as well as those in physics who might one day discover that the project they are working on is basis for the next great medical application.
Introduction and Overview
Telescopes for Inner Space
Optics: the science of light
Fiber optics applications in medicine: endoscopes and laparoscopes
Robotic surgery and virtual reality in the operating room
Telemedicine and military applications
Lasers in Medicine
What is a laser?
More on the science of light: beyond the rainbow
How lasers work
How light interacts with body tissues
Laser beams and spatial coherence
Cooking with light: photocoagulation
Trade-offs in photocoagulation: power density and heat flow
Cutting with light: photovaporization
More power: pulsed lasers
Lasers and color
The atomic origins of absorption
How selective absorption is used in laser surgery
Lasers in dermatology
Laser surgery on the eye
New directions: lasers in dentistry
Advantages and drawbacks of lasers for medicine
New directions: photodynamic therapy—killing tumors with light
New directions: Diffusive optical imaging
Seeing with Sound
What is ultrasound?
Ultrasound and energy
How echoes are formed
How to produce ultrasound
Images from echoes
Ultrasound scanner design
Ultrasound is absorbed by the body
Limitations of ultrasound: image quality and artifacts
How safe is ultrasound imaging?
Obstetrical ultrasound imaging
Echocardiography: ultrasound images of the heart
Origins of the Doppler effect
Using the Doppler effect to measure blood flow
Color flow images
Portable ultrasound—appropriate technology for the developing world
Diagnostic x-rays: the body’s x-ray shadow
Types of x-ray interactions with matter
Basic issues in x-ray image formation
Contrast media make soft tissues visible on an x-ray
How x-rays are generated
Mammography: x-ray screening for breast cancer
Computed tomography (CT)
Application: spotting brittle bones—bone mineral scans for osteoporosis
Images from Radioactivity
Nuclear physics basics
Radioactivity fades with time: the concept of half-lives
Gamma camera imaging
Emission tomography with radionuclides: SPECT and PET
Application: emission computer tomography studies of the brain
Radiation Therapy and Radiation Safety in Medicine
Measuring radioactivity and radiation
Origins of the biological effects of ionizing radiation
The two regimes of radiation damage: radiation sickness and cancer risk
Radiation therapy: killing tumors with radiation
New directions in radiation therapy
Magnetic Resonance Imaging
The science of magnetism
Contrast mechanisms for MRI
Listening to spin echoes
How MRI maps the body
How safe is MRI?
Creating better contrast
Sports medicine and MRI
Magnetic resonance breast imaging
Mapping body chemistry with MR spectroscopy
Brain mapping and functional MRI
Each chapter contains an Introduction, Questions, and Problems.
… textbooks introducing this topic to students from non-scientific backgrounds need to present the fundamental theory in a manner that is easily grasped yet sufficiently in depth to enable the reader to appreciate its application to real problems. Introduction to Physics in Modern Medicine manages to tread this fine line admirably. … To make this second edition up to date, the author describes a number of recent advances … the contents are thoroughly grounded in well-explained practical examples. … [a] well-researched book that renders complex subject matter thoroughly understandable and enjoyable.
—Contemporary Physics, Vol. 52, Issue 2, 2011
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