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Transcript 
Back to Basics: Lateral Chest Radiograph
Society of Thoracic Radiology
SUNDAY
Christopher Lee, MD
Disclosures
Annual Meeting and Postgraduate Course
• None
Back to Basics: Lateral Chest Radiograph
March 11, 2012
Huntington Beach, California
Christopher Lee, M.D.
Cardiothoracic Imaging
Department of Radiology
Keck School of Medicine of USC
Acknowledgements
Introduction
• Robert Suh, M.D. (UCLA Medical Center)
• Education and clinical importance of the lateral
chest radiograph have diminished as CT has
become more popular
– Ease of requesting (and recommending) a chest CT
when questionable abnormality seen on frontal CXR
• Radiology trainees, in particular, have
considerable difficulty in recognizing and
interpreting the subtleties of the lateral
Learning objectives
Outline
• Review fundamental anatomy, variations, and
spaces routinely revealed on the lateral CXR
•
•
•
•
•
•
• Correlate the perspective the lateral view
provides with that provided by multiplanar CT
• Reinforce an appreciation of the value of the
lateral chest radiograph
Trachea
Retrotracheal space (Raider triangle)
Large airways
A t i and
Arteries
d veins
i
“Three clear spaces”
Inferior hilar window
93
SUNDAY
Trachea
Trachea
• Easily recognizable
• Posterior tracheal stripe
• Anterior tracheal stripe
– Appreciated only on occasion
• Mediastinal fat
• Air/lung
– May not be visibly altered even in the presence of
extensive pretracheal pathology
Trachea
Trachea
• Posterior tracheal stripe
• Posterior tracheal stripe
– Outlined posteriorly by air in right lung or esophageal
lumen and anteriorly by air in tracheal lumen
– Abnormal appearance
• > 5.5 mm
• Persistently thickened on serial radiographs
– Outlined posteriorly by air in right lung or esophageal
lumen and anteriorly by air in tracheal lumen
– Abnormal appearance
• > 5.5 mm
• Persistently thickened on serial radiographs
Trachea
Retrotracheal space
• Posterior tracheal stripe
• Retrotracheal space (“Raider triangle”)
– Outlined posteriorly by air in right lung or esophageal
lumen and anteriorly by air in tracheal lumen
– Abnormal appearance
• > 5.5 mm
• Persistently thickened on serial radiographs
94
– Outlined posteriorly by air in right lung or esophageal
lumen and anteriorly by air in tracheal lumen
– Variable appearance, 1-5 mm
• Posterior tracheal wall only: thin line
• Posterior tracheal wall, intervening tissue,
collapsed esophagus: thicker stripe or band
– Boundaries
• Anterior
posterior tracheal wall-right lung
• Posterior thoracic vertebral bodies
• Superior thoracic inlet
• Inferior
aortic arch-left lung
– Size varies with age, body habitus, and lung inflation
Retrotracheal space
Retrotracheal space
Retrotracheal space
• Retrotracheal space (“Raider triangle”)
• Retrotracheal space (“Raider triangle”)
– Boundaries
– Contents
à Esophagus
à Left recurrent laryngeal nerve
à Thoracic duct
à Lymph nodes
à Lungs
SUNDAY
Retrotracheal space
– Boundaries
– Contents
– Pathology
à Congenital vascular lesions
à Acquired vascular lesions
à Esophageal abnormalities
à Mediastinal masses
à Infections
Retrotracheal space
congenital vascular lesions
left aortic arch with aberrant right subclavian artery
right aortic arch with aberrant left subclavian artery
double aortic arch
acquired
i d vascular
l llesions
i
aneurysm of aberrant subclavian artery
aortic aneurysm
infections
tuberculous/pyogenic mediastinitis
abscess
Franquet et al. Radiographics 2002; 22:S231-246
esophageal abnormalities
Zenker diverticulum
achalasia
esophageal atresia
duplication cyst
esophageal
esop
agea leiomyoma
y
esophageal carcinoma
mediastinal masses
intrathoracic goiter
schwannoma /neurofibroma
hemangioma
lymphatic malformation
hematoma
Retrotracheal Space
95
SUNDAY
Large airways
Large airways
McComb. J Thorac Imaging 2002; 17:58-69
Large airways
Large airways
• Right upper lobe bronchus (RUL)
– Projects between aortic arch and left pulmonary
artery
Courtesy of Robert Suh, M.D.
Large airways
Large airways
• Right upper lobe bronchus (RUL)
• Right upper lobe bronchus (RUL)
– Anterior margin closely related to RUL artery
– Superior margin closely related to azygous vein
96
– Inconsistently visualized
– Increasing conspicuity Æ contiguous pathology
Large airways
• Left main-upper lobe continuum (LULC)
• Left main-upper lobe continuum (LULC)
– Consistently visualized distinct landmark
– Projects below left pulmonary artery
– Projects below left pulmonary artery (LPA)
• LPA (superior and posterior)
• Left superior pulmonary vein (inferior and anterior)
Large airways
Large airways
• Left main-upper lobe continuum (LULC)
• Left main-upper lobe continuum (LULC)
– Continuum along left mainstem into LUL bronchus
• Variable in size and shape
• Occasionally, round lucency within round lucency
– Continuum along left mainstem into LUL bronchus
• Variable in size and shape
• Occasionally, round lucency within round lucency
Large airways
Large airways
• Left main-upper lobe continuum (LULC)
• Posterior wall of bronchus intermedius
– Continuum along left mainstem into LUL bronchus
• Variable in size and shape
• Occasionally, round lucency within round lucency
SUNDAY
Large airways
– Intermediate stem line
– Continuous with right mainstem bronchus, terminating
at origin of RLL superior segmental bronchus
– Approximated posteriorly by azygoesophageal recess
– Typically projects over LULC
• Foretells rotation
97
SUNDAY
Large airways
Large airways
• Posterior wall of bronchus intermedius
• Posterior wall of bronchus intermedius
– Intermediate stem line
– Continuous with right mainstem bronchus, terminating
at origin of RLL superior segmental bronchus
– Approximated posteriorly by azygoesophageal recess
– Typically projects over LULC
• Foretells rotation
Large airways
Large airways
• Posterior wall of bronchus intermedius
• Posterior wall of bronchus intermedius
– Intermediate stem line
– Continuous with right mainstem bronchus, terminating
at origin of RLL superior segmental bronchus
– Approximated posteriorly by azygoesophageal recess
– Abnormal > 3 mm
Large airways
Large airways
• Posterior wall of bronchus intermedius
• Posterior wall of bronchus intermedius
– Abnormal > 3 mm
98
– Intermediate stem line
– Continuous with right mainstem bronchus, terminating
at origin of RLL superior segmental bronchus
– Approximated posteriorly by azygoesophageal recess
– Typically projects over LULC
• Foretells rotation
– Abnormal > 3 mm
Arteries and veins
• Posterior wall of bronchus intermedius
• Left pulmonary artery (LPA)
– Abnormal > 3 mm
– Short posterosuperior and lateral mediastinal course
– When outlined superiorly by air, resembles “miniature
aortic arch”
Arteries and veins
Arteries and veins
• Left pulmonary artery (LPA)
• Left pulmonary artery (LPA)
– Short posterosuperior and lateral mediastinal course
– When outlined superiorly by air, resembles “miniature
aortic arch”
– Obscured superior border
• AP window lymphadenopathy
– Lobulated posterior border
• Hilar lymphadenopathy
Arteries and veins
Arteries and veins
• Left pulmonary artery (LPA)
• Left pulmonary artery (LPA)
– Obscured superior border
• AP window lymphadenopathy
– Lobulated posterior border
• Hilar lymphadenopathy
SUNDAY
Large airways
– Obscured superior border
• AP window lymphadenopathy
– Lobulated posterior border
• Hilar lymphadenopathy
99
SUNDAY
Arteries and veins
Arteries and veins
• Right pulmonary artery (RPA)
• Right pulmonary artery (RPA)
– In actuality, “right hilar vascular opacity”
– Conglomerate of pulmonary arteries and veins
–
–
–
–
–
Longer lateral mediastinal course than LPA
Divides at the edge of the mediastinum
RPA = upper aspect of right hilar vascular opacity
Interlobar artery = lower aspect of rt hilar vasc opacity
Poorly marginated secondary to branching and lack of
adjacent lung
Arteries and veins
Arteries and veins
• Right pulmonary artery (RPA)
• Right pulmonary artery (RPA)
–
–
–
–
–
Longer lateral mediastinal course than LPA
Divides at the edge of the mediastinum
RPA = upper aspect of right hilar vascular opacity
Interlobar artery = lower aspect of rt hilar vasc opacity
Poorly marginated secondary to branching and lack of
adjacent lung
–
–
–
–
–
Longer lateral mediastinal course than LPA
Divides at the edge of the mediastinum
RPA = upper aspect of right hilar vascular opacity
Interlobar artery = lower aspect of rt hilar vasc opacity
Poorly marginated secondary to branching and lack of
adjacent lung
Arteries and veins
Arteries and veins
• Right pulmonary artery (RPA)
• Right ventricular outflow tract
• Ascending thoracic aorta
– Enlargement of right hilar vascular opacity with
lobulated contour
• Hilar lymphadenopathy
• Variable visibility
– Approximation of lung and fat to anterior borders
– Alignment with path of x-ray beam
100
Arteries and veins
• Right ventricular outflow tract
• Ascending thoracic aorta
• Right ventricular outflow tract
• Ascending thoracic aorta
Arteries and veins
Arteries and veins
• Inferior vena cava (IVC)
• Inferior vena cava (IVC)
– Occasionally, anterior wall also outlined by lung
– Occasionally, anterior wall also outlined by lung
Arteries and veins
Arteries and veins
• Left brachiocephalic vein
•
•
•
•
– Retromanubrial opacity
SUNDAY
Arteries and veins
Superior vena cava
Right brachiocephalic vein
Innominate artery
Right subclavian artery
• Composite S-shaped opacity on lateral
radiograph
McComb. J Thorac Imaging 2002; 17:58-69
101
SUNDAY
Arteries and veins
Three clear spaces
•
•
•
•
• “Spine sign”
Superior vena cava
Right brachiocephalic vein
Innominate artery
Right subclavian artery
– Increasing lucency as progress
down thoracic vertebral bodies
• Less soft tissue attenuation in
l
lower
chest
h t wallll compared
d tto
upper chest wall/shoulders
McComb. J Thorac Imaging 2002; 17:58-69
Three clear spaces
Three clear spaces
• “Spine sign”
• “Spine sign”
– Two types of abnormalities
• Localized opacity with discrete edge
– Lung mass or consolidation
– Mediastinal mass
• Increased density without edge
– Pleural thickening/disease
– Lower lobe collapse
Three clear spaces
Three clear spaces
• “Spine sign”
• Anterior clear space
– Two types of abnormalities
• Localized opacity with discrete edge
– Lung mass or consolidation
– Mediastinal mass
• Increased density without edge
– Pleural thickening/disease
– Lower lobe collapse
102
– Two types of abnormalities
• Localized opacity with discrete edge
– Lung mass or consolidation
– Mediastinal mass
• Increased density without edge
– Pleural thickening/disease
– Lower lobe collapse
– Increasing lucency as progress superiorly from the
densest portion of the heart
• Decreasing width of anterior mediastinum,
b i i att PA/
beginning
PA/ascending
di aorta
t llevell tto
SVC/brachocephalic veins
– Variable degree of lucency
• Amount of lung protruding behind manubrium
• Women have decreased retrosternal lucency
Three clear spaces
• Anterior clear space
• Anterior clear space
– Increasing lucency as progress superiorly from the
densest portion of the heart
• Decreasing width of anterior mediastinum,
b i i att PA/
beginning
PA/ascending
di aorta
t llevell tto
SVC/brachocephalic veins
– Variable degree of lucency
• Amount of lung protruding behind manubrium
• Women have decreased retrosternal lucency
– Increasing lucency as progress superiorly from the
densest portion of the heart
• Decreasing width of anterior mediastinum,
b i i att PA/
beginning
PA/ascending
di aorta
t llevell tto
SVC/brachocephalic veins
– Variable degree of lucency
• Amount of lung protruding behind manubrium
• Women have decreased retrosternal lucency
Three clear spaces
Three clear spaces
• Anterior clear space
• Retrocardiac clear space
– Opacification with our without discrete edge
• Anterior mediastinal mass
• Lung mass or consolidation
– Increasing lucency as progress inferiorly from
between the posterior border of heart and anterior
vertebral bodies (infrahilar)
• Decreasing
D
i width
idth off mediastinum
di ti
– Esophagus and azygous vein
– Air-filled right lower lobe (azygoesophageal
recess)
Three clear spaces
Three clear spaces
• Retrocardiac clear space
• Retrocardiac clear space
– Increasing lucency as progress inferiorly from
between the posterior border of heart and anterior
vertebral bodies (infrahilar)
• Decreasing
D
i width
idth off mediastinum
di ti
– Esophagus and azygous vein
– Air-filled right lower lobe (azygoesophageal
recess)
SUNDAY
Three clear spaces
– Opacification with or without discrete edge
• Lung or mediastinal mass (m. common hiatal hernia)
• Lung consolidation (edge represents major fissure)
103
SUNDAY
Inferior hilar window
Inferior hilar window
• Sub-area of retrocardiac clear space
• Sub-area of retrocardiac clear space
– Avascular area along anteroinferior hilar composite
– Boundaries
• Right middle lobe bronchus
• Left lower lobe bronchus
– Devoid of nodular opacities > 1 cm
104
– Avascular area along anteroinferior hilar composite
Inferior hilar window
Inferior hilar window
Inferior hilar window
Inferior hilar window
SUNDAY
Inferior hilar window
Inferior hilar window
Courtesy of Robert Suh, M.D.
Courtesy of Robert Suh, M.D.
Conclusions
Inferior hilar window
• The lateral chest radiograph provides a
perspective that significantly enhances the
evaluation for thoracic disease
• Awareness of routinely visualized anatomic
structures and spaces should facilitate improved
interpretation of conventional chest radiographs
Courtesy of Robert Suh, M.D.
Posttest question
References
• On a properly positioned (i.e. non-rotated) lateral
radiograph, the posterior wall of the bronchus
intermedius projects over which structure?
1) Franquet T, Erasmus JJ, Gimenez A, et al. The retrotracheal space: normal
anatomic and pathologic appearances. Radiographics 2002; 22:S231-S246.
2) McComb BL. The chest in profile. J Thorac Imaging 2002; 17:58-69.
3) Park CK, Webb WR, Klein JS. Inferior hilar window. Radiology 1991;
178:163-168.
g D. Lateral chest radiograph:
g p a systematic
y
approach.
pp
Acad Radiol
4)) Feigin
2010; 17:1560-1566.
5) Landay MJ. Anterior clear space: how clear? How often? How come?
Radiology 1994; 192:165-169.
a)
b)
c)
d)
Right upper lobe bronchus
Right hilar vascular opacity
Left main-upper lobe continuum
Left pulmonary artery
105
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