Bushong's Radiologic Science for Technologists: Physics, Biology, and Protection
Autor Stewart C. Bushong, Elizabeth Shieldsen Limba Engleză Hardback – 7 mai 2025
Develop the skills you need to produce diagnostic-quality medical images! Bushong’s Radiologic Science for Technologists, 13th Edition, provides a solid foundation in the concepts of medical imaging and digital radiography. Featuring hundreds of radiographs and illustrations, this comprehensive text helps you learn how to make informed decisions regarding technical factors, image quality, and radiation safety for both patients and providers. With updates reflecting the latest ARRT® guidelines, including shielding practices and streamlined physics and math sections focused on key concepts, this edition equips you with the knowledge needed to succeed on the certification exam and excel in clinical settings.
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Specificații
ISBN-13: 9780323765367
ISBN-10: 032376536X
Pagini: 608
Dimensiuni: 216 x 276 x 38 mm
Greutate: 1.86 kg
Ediția:13
Editura: Elsevier
ISBN-10: 032376536X
Pagini: 608
Dimensiuni: 216 x 276 x 38 mm
Greutate: 1.86 kg
Ediția:13
Editura: Elsevier
Cuprins
PART I: RADIOLOGIC PHYSICS
1. Essential Concepts of Radiologic Science
2. Basic Physics Primer
3. The Structure of Matter
4. Electromagnetic Energy
5. Electricity, Magnetism, and Electromagnetism
PART II: X-RADIATION
6. The X-ray Imaging System
7. The X-ray Tube
8. X-ray Production
9. X-ray Emission
10. X-ray Interaction With Matter
PART III: X-RAY IMAGING
11. Computed Radiography
12. Digital Radiography
13. Digital Radiographic Technique
14. Image Acquisition
15. Scatter Radiation
16. Digital Image Descriptors and Evaluation
17. Radiographic Artifacts
PART IV: ADVANCED MEDICAL IMAGING
18. Mammography
19. Fluoroscopy
20. Interventional Radiology
21. Computed Tomography
22. Tomosynthesis
PART V: MEDICAL IMAGE DISPLAY
23. Patient-Image Optimization
24. Viewing the Medical Image
25. Medical Image Informatics
26. Digital Display Device
PART VI: THE MEDICAL IMAGE
27. Imaging Science
28. Artificial Intelligence
29. Quantum Computing
30. Image Perception
PART VII: RADIOBIOLOGY
31. Human Biology
32. Fundamental Principles of Radiobiology
33. Molecular Radiobiology
34. Cellular Radiobiology
35. Deterministic Effects of Radiation
36. Stochastic Effects of Radiation
PART VIII: RADIATION PROTECTION
37. Health Physics
38. Designing for Radiation Protection
39. Radiography/Fluoroscopy Patient Radiation Dose
40. Computed Tomography Patient Radiation Dose
41. Patient Radiation Dose Management
42. Occupational Radiation Dose Management
1. Essential Concepts of Radiologic Science
2. Basic Physics Primer
3. The Structure of Matter
4. Electromagnetic Energy
5. Electricity, Magnetism, and Electromagnetism
PART II: X-RADIATION
6. The X-ray Imaging System
7. The X-ray Tube
8. X-ray Production
9. X-ray Emission
10. X-ray Interaction With Matter
PART III: X-RAY IMAGING
11. Computed Radiography
12. Digital Radiography
13. Digital Radiographic Technique
14. Image Acquisition
15. Scatter Radiation
16. Digital Image Descriptors and Evaluation
17. Radiographic Artifacts
PART IV: ADVANCED MEDICAL IMAGING
18. Mammography
19. Fluoroscopy
20. Interventional Radiology
21. Computed Tomography
22. Tomosynthesis
PART V: MEDICAL IMAGE DISPLAY
23. Patient-Image Optimization
24. Viewing the Medical Image
25. Medical Image Informatics
26. Digital Display Device
PART VI: THE MEDICAL IMAGE
27. Imaging Science
28. Artificial Intelligence
29. Quantum Computing
30. Image Perception
PART VII: RADIOBIOLOGY
31. Human Biology
32. Fundamental Principles of Radiobiology
33. Molecular Radiobiology
34. Cellular Radiobiology
35. Deterministic Effects of Radiation
36. Stochastic Effects of Radiation
PART VIII: RADIATION PROTECTION
37. Health Physics
38. Designing for Radiation Protection
39. Radiography/Fluoroscopy Patient Radiation Dose
40. Computed Tomography Patient Radiation Dose
41. Patient Radiation Dose Management
42. Occupational Radiation Dose Management