Abstract
Wilhelm Roentgen discovered X-rays on 8 November 1895, and was the first to take a radiograph on 22 December 1895 of his wife’s fingers [1]. Roentgen labelled the unknown ray X, and hence the term X-ray was coined. Soon after this the chest radiograph was used and this has become a first line investigation in patients with suspected heart disease. An appreciation of the technique and anatomy, as well as common variants, is vital to the correct interpretation of the chest radiograph. The technique of chest radiography will be described, together with details of the chest radiograph adequacy. Following a description of the normal anatomy and potential pitfalls in interpretation due to normal variants, the clinical applications of the chest radiograph in the assessment of cardiac disease is discussed. Finally, a short discussion on the future trends in chest radiography is given.
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References
Bushberg J, Seibert J, Leidholdt Jr E, Boone J (eds) (2002) Introduction to medical imaging. In The Essential Physics of Medical Imaging. Lippincott Williams and Wilkins, Philadelphia, Ch. 1, p. 4.
Hansell DM (2002) Technical considerations. In: Imaging of Diseases of the Chest, 3rd edn, Armstrong P, Wilson A, Dee P, Hansell D (eds). Mosby, London; Ferris R, White A (1976) The round nipple shadow. Radiology 121:293–294.
Engeler CE (2001) Interpreting the chest radiograph. In: Grainger and Allison (eds) Diagnostic Radiology. A Textbook of Medical Imaging, 4th edn. Churchill Livingstone, London, pp. 303–314.
Simon G (1968) The limitations of the radiograph for detecting early heart enlargement. Br J Radiol 41:862–865.
Woodring JH (1991) Pulmonary artery – bronchus ratios in patients with normal lungs, pulmonary vascular plethora and congestive heart failure. Radiology 179:115–122.
Mckie SJ, Hardwick DJ, Reid JH, Murchison JT (2005) Features of cardiac disease demonstrated on CT pulmonary angiography. Clin Radiol 60:31–38.
Olson MC, PosniakHV, McDonald V, Wisniewski R, Moncada R (1989) Computed tomography and magnetic resonance imaging of the pericardium. Radiographics 9:633–649.
McCarthy J, Palmer F (1974) Incidence and significance of coronary artery calcification. Br Heart J 36:499.
Yamanaka O, Sawano M, Nakayama R et al. (2002) Clinical significance of coronary calcification. Circulation J 66:473–478.
Burney K, Burchard F, Papouchado M, Wilde P (2004) Cardiac pacing systems and implantable cardiac defibrillators: a radiological perspective of equipment, anatomy and complication. Cin Radiol 59:699–708.
Grier D, Cook PG, Hartnell GG (1990) Chest radiographs after permanent pacing. Are they really necessary? Clin Radiol 42:244–249.
(2000) Heart and great vessels. In Radiology Review Manual, 4th edn, Dahnert W (ed.). Lippincott Williams and Wilkins, Philadelphia, pp. 474–575.
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Mulholland, N. (2009). The Plain Chest Radiograph in the Assessment of Cardiac Disease. In: Movahed, A., Gnanasegaran, G., Buscombe, J., Hall, M. (eds) Integrating Cardiology for Nuclear Medicine Physicians. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-78674-0_6
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DOI: https://doi.org/10.1007/978-3-540-78674-0_6
Publisher Name: Springer, Berlin, Heidelberg
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