![]() Medical imaging 1.1 Introduction 1.2 Digital radiography 1.2.1 Formation and characteristics of X-rays 1.2.2 Scatter and attenuation of X-rays in tissue 1.2.3 Instrumentation for digital radiography 1.3 Computed tomography 1.3.1 Principles of computed tomography 1.3.2 Spiral and multislice computed tomography 1.4 Nuclear medicine 1.4.1 Radioactive nuclides in nuclear medicine 1.4.2 Nuclear medicine detectors 1.4.3 Single-photon emission-computed tomography 1.4.4 Positron-emission tomography 1.4.5 Combined positron-emission tomography/computed tomography scanners 1.4.6 Combined positron-emission tomography/magnetic resonance scanners 1.5 Ultrasonic imaging 1.5.1 Fundamentals of ultrasound 1.5.2 Transducers and beam characteristics 1.5.3 Image acquisition and display 1.6 Magnetic resonance imaging 1.6.1 Basis of magnetic resonance imaging 1.6.2 Magnetic field gradients 1.6.3 Fourier imaging techniques 1.6.4 Magnetic resonance imaging contrast agents 1.7 Diffuse optical imaging 1.7.1 Propagation of light through tissue 1.7.2 Measurement of blood oxygenation 1.7.3 Image reconstruction 1.7.4 Measurement techniques 1.8 Biosignals 1.8.1 Electroencephalography 1.8.2 Electrocardiograms 1.9 Digital cameras and microscopes Appendix A.1 Fourier transforms A.2 Filtered backprojection A.3 Iterative image reconstruction Exercises Further reading General imaging textbooks X-ray and computed tomography books Nuclear medicine books Ultrasonic imaging Magnetic resonance imaging Diffuse optical imaging books Diffuse optical imaging review papers Biosignals Digital cameras and microscopes TWO. ![]() ![]() Table of contents : Cover Biomedical Information Technology Copyright Contributors Acknowledgements Introduction Part One: Biomedical data technologies ONE. ![]()
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