Book contents
- Frontmatter
- Contents
- List of contributors
- Section 1 Central Nervous System
- Section 2 Thorax, Abdomen and Pelvis
- Chapter 6 The chest
- Chapter 7 The heart and great vessels
- Chapter 8 The breast
- Chapter 9 The anterior abdominal wall and peritoneum
- Chapter 10 The abdomen and retroperitoneum
- Chapter 11 The gastrointestinal tract
- Chapter 12 The kidney and adrenal gland
- Chapter 13 The male pelvis
- Chapter 14 The female pelvis
- Section 3 Upper and Lower Limb
- Section 4 Obstetrics and Neonatology
- Index
Chapter 6 - The chest
from Section 2 - Thorax, Abdomen and Pelvis
Published online by Cambridge University Press: 05 November 2012
- Frontmatter
- Contents
- List of contributors
- Section 1 Central Nervous System
- Section 2 Thorax, Abdomen and Pelvis
- Chapter 6 The chest
- Chapter 7 The heart and great vessels
- Chapter 8 The breast
- Chapter 9 The anterior abdominal wall and peritoneum
- Chapter 10 The abdomen and retroperitoneum
- Chapter 11 The gastrointestinal tract
- Chapter 12 The kidney and adrenal gland
- Chapter 13 The male pelvis
- Chapter 14 The female pelvis
- Section 3 Upper and Lower Limb
- Section 4 Obstetrics and Neonatology
- Index
Summary
Plain radiography
The chest radiograph (CXR) is used for the initial assessment of the lungs, mediastinum and bones.
Posteroanterior (PA) view – patient upright, on full inspiration with the scapulae moved laterally, so that the lungs are not obscured (Fig. 6.1)
Lateral view (Fig. 6.2)
Anteroposterior (AP) view – patient either supine or sitting; on this view there is magnification of the heart and mediastinum and the clavicles obscure the lung apices
Apical lordotic view – the X-ray beam is angled superiorly 15–20° so the clavicles and first ribs are projected above the lung apices
Expiration films are used to assess air trapping.
Cross-sectional imaging
Computed tomography (CT)
CT provides improved spatial resolution because of lack of overlap of structures. The use of intravenous contrast medium improves the demonstration of vessels.
Multidetector CT produces excellent multi planar reformats and other post-processing can be undertaken.
The data are viewed at different windows and levels for air and soft tissue.
Air-containing structures:
WW 1500 HU
WL –600 HU.
Soft tissues and vessels:
WW 300–500 HU
WL 30–50 HU.
High-resolution CT (HRCT) is used mainly to assess diffuse lung disease. Thin sections minimize partial volume effects and the high-resolution reconstruction algorithm provides edge enhancement.
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- Applied Radiological Anatomy , pp. 91 - 108Publisher: Cambridge University PressPrint publication year: 2012