CT Depiction of Regional Nodal Stations for Lung Cancer Staging
Jane P. Ko1,
Elizabeth A. Drucker1,
Jo-Anne O. Shepard1,
Clifton F. Mountain2,
Carolyn Dresler3,
Bradley Sabloff1 and
Theresa C. McLoud1
1
Department of Radiology, Founders 202, Massachusetts General Hospital, 55
Fruit St., Boston, MA 02114
2
Division of Cardiothoracic Surgery, University of California, San Diego, 200
W. Arbor Dr., San Diego, CA 92103.
3
SmithKline Beecham Consumer Healthcare, 1500 Littleton Rd., Parsippany, NJ
07054.
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Fig. 1A —Regional nodal stations for lung cancer staging. (Modified and
reprinted with permission from
[1]). Drawings show revised
nodal staging system. Mediastinum is viewed from frontal (A) and left
anterior oblique (B) projections. Heart and proximal great vessels have
been cut away in both drawings. Trachea and bronchi, aortic arch (Ao), and
main pulmonary artery (PA) are anatomic landmarks used to define various nodal
stations. In these diagrams, nodes occupying nodal stations are assigned
colors, and nodes on CT scans have been colored to correspond to assigned
colors. Some colors have been changed from original drawing
[1] for greater contrast on CT
scans.
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Fig. 1B —Regional nodal stations for lung cancer staging. (Modified and
reprinted with permission from
[1]). Drawings show revised
nodal staging system. Mediastinum is viewed from frontal (A) and left
anterior oblique (B) projections. Heart and proximal great vessels have
been cut away in both drawings. Trachea and bronchi, aortic arch (Ao), and
main pulmonary artery (PA) are anatomic landmarks used to define various nodal
stations. In these diagrams, nodes occupying nodal stations are assigned
colors, and nodes on CT scans have been colored to correspond to assigned
colors. Some colors have been changed from original drawing
[1] for greater contrast on CT
scans.
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Fig. 1C —Regional nodal stations for lung cancer staging. (Modified and
reprinted with permission from
[1]). Color legend for A
and B correlates nodal colors with station numbers and descriptors.
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Fig. 1D —Regional nodal stations for lung cancer staging. (Modified and
reprinted with permission from
[1]). Lines placed on drawing
in A reveal cross-sectional levels shown on subsequent figures in this
article.
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Fig. 2A —68-year-old man with small cell lung carcinoma. Contrast-enhanced CT
scan (A) and same scan with nodes colored (B) show station 1
highest mediastinal node (light green, B). Node is in left
paratracheal region between left common carotid artery and left subclavian
artery. This level is cranial to brachiocephalic vein where it crosses
trachea. Note that station 3 prevascular node (bright pink, B)
lies anterior to and left of major arterial vessels. More peripheral part of
brachiocephalic vein is unopacified (arrow), medial to station 3
node.
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Fig. 2B —68-year-old man with small cell lung carcinoma. Contrast-enhanced CT
scan (A) and same scan with nodes colored (B) show station 1
highest mediastinal node (light green, B). Node is in left
paratracheal region between left common carotid artery and left subclavian
artery. This level is cranial to brachiocephalic vein where it crosses
trachea. Note that station 3 prevascular node (bright pink, B)
lies anterior to and left of major arterial vessels. More peripheral part of
brachiocephalic vein is unopacified (arrow), medial to station 3
node.
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Fig. 2C —68-year-old man with small cell lung carcinoma. Contrast-enhanced CT
scan (C) and same scan with nodes colored (D) show station 2
upper paratracheal node (dark purple, D), which is extension
of station 1 node in A. Brachiocephalic vein (arrows) crosses
midline anterior to trachea and demarcates station 1 nodes from station 2
nodes. Station 3 prevascular node (bright pink, D) is again
seen.
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Fig. 2D —68-year-old man with small cell lung carcinoma. Contrast-enhanced CT
scan (C) and same scan with nodes colored (D) show station 2
upper paratracheal node (dark purple, D), which is extension
of station 1 node in A. Brachiocephalic vein (arrows) crosses
midline anterior to trachea and demarcates station 1 nodes from station 2
nodes. Station 3 prevascular node (bright pink, D) is again
seen.
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Fig. 3A —65-year-old man with small cell lung carcinoma and superior vena
cava syndrome. Contrast-enhanced CT scan shows station 2 upper paratracheal
node.
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Fig. 3B —65-year-old man with small cell lung carcinoma and superior vena
cava syndrome. Same scan with node colored dark purple shows station 2 upper
paratracheal node, which is below top of left brachiocephalic vein but above
top of aortic arch. IV contrast injection was made through left
brachiocephalic vein. Note reflux into anterior chest wall collaterals
(curved arrows) and both internal mammary veins (straight
arrows).
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Fig. 4A —38-year-old man with B-cell lymphoma. Contrast-enhanced CT scan
shows 1-cm station 3 retrotracheal node.
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Fig. 4B —38-year-old man with B-cell lymphoma. Same scan as A with
node colored bright pink shows station 3 retrotracheal node, which is
posterior to trachea at midline between esophagus (straight arrow)
and azygos vein and arch (curved arrow). Azygos vein is opacified by
retrograde contrast material from superior vena cava.
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Fig. 4C —38-year-old man with B-cell lymphoma. Unenhanced CT scan 4 months
later than A shows decrease in size of lymph node (arrow) as
result of therapy.
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Fig. 5A —65-year-old man with small cell lung carcinoma and superior vena
cava syndrome. Contrast-enhanced CT scan (A) and same scan with nodes
colored (B) show station 4 lower paratracheal nodes (bright
orange, B). Station 4 lower paratracheal nodes can be separated
into superior and inferior subsets. Nodes shown are in superior subset,
meaning they are inferior to top of aortic arch and above azygos vein. Along
with other mediastinal nodes, these station 4 superior lower paratracheal
nodes can be separated into those to right (4R) (curved arrow) or
left (4L) (straight thick arrow) of midline, as seen in Figures
1B and
1D, Midline nodes (thin
arrow) are considered to be on same side as primary lung tumor.
Therefore, in this patient with right lower lobe mass, midline nodes anterior
to trachea are categorized as station 4 superior lower paratracheal nodes.
Enhancing chest wall venous collaterals are again shown.
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Fig. 5B —65-year-old man with small cell lung carcinoma and superior vena
cava syndrome. Contrast-enhanced CT scan (A) and same scan with nodes
colored (B) show station 4 lower paratracheal nodes (bright
orange, B). Station 4 lower paratracheal nodes can be separated
into superior and inferior subsets. Nodes shown are in superior subset,
meaning they are inferior to top of aortic arch and above azygos vein. Along
with other mediastinal nodes, these station 4 superior lower paratracheal
nodes can be separated into those to right (4R) (curved arrow) or
left (4L) (straight thick arrow) of midline, as seen in Figures
1B and
1D, Midline nodes (thin
arrow) are considered to be on same side as primary lung tumor.
Therefore, in this patient with right lower lobe mass, midline nodes anterior
to trachea are categorized as station 4 superior lower paratracheal nodes.
Enhancing chest wall venous collaterals are again shown.
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Fig. 5C —65-year-old man with small cell lung carcinoma and superior vena
cava syndrome. Contrast-enhanced scan (C) and same scan with nodes
colored (D) illustrate station 4 inferior lower paratracheal nodes
(bright orange, D), which are below horizontal line drawn at
superior aspect of azygos vein. Nodes are contiguous with station 4 superior
lower paratracheal nodes in A and B.
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Fig. 5D —65-year-old man with small cell lung carcinoma and superior vena
cava syndrome. Contrast-enhanced scan (C) and same scan with nodes
colored (D) illustrate station 4 inferior lower paratracheal nodes
(bright orange, D), which are below horizontal line drawn at
superior aspect of azygos vein. Nodes are contiguous with station 4 superior
lower paratracheal nodes in A and B.
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Fig. 6A —66-year-old woman with lymphadenopathy. Contrast-enhanced CT scan
reveals station 5 subaortic or aorticopulmonary (AP) window nodes and station
4 superior lower paratracheal nodes.
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Fig. 6B —66-year-old woman with lymphadenopathy. Same scan as A, with
nodes colored light purple shows station 5 AP window nodes. AP window nodes
are lateral to, and station 4 superior lower paratracheal nodes (bright
orange) are medial to, ligamentum arteriosum.
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Fig. 7. —32-year-old healthy man. Unenhanced CT scan shows calcified
ligamentum arteriosum (arrow) that extends from inferior and
posterior aspect of aortic arch to top of main pulmonary artery.
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Fig. 8A —41-year-old woman with poorly differentiated adenocarcinoma of left
lower lobe. Contrast-enhanced CT scan shows station 6 paraaortic (ascending
aortic or phrenic) nodes and station 5 nodes.
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Fig. 8B —41-year-old woman with poorly differentiated adenocarcinoma of left
lower lobe. Same scan with nodes colored shows red station 6 paraaortic nodes
anterior to superior vena cava on right and anterior to aorta and main
pulmonary artery to left of midline. Station 5 node is light purple.
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Fig. 9A —65-year-old man with small cell lung carcinoma and superior vena
cava syndrome. Contrast-enhanced CT scan shows station 7 subcarinal nodes and
station 4 lower paratracheal, station 8 paraesophageal, station 10 hilar, and
station 13 segmental nodes.
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Fig. 9B —65-year-old man with small cell lung carcinoma and superior vena
cava syndrome. Same scan with nodes colored shows teal blue station 7
subcarinal adenopathy extending anterior and posterior to main bronchi.
Anterior aspect of subcarinal nodes can be reached by cervical mediastinoscopy
via approach anterior to trachea and carina. Station 8 paraesophageal
(tan) node lies posterolateral to esophagus (white arrow)
between azygos vein (black arrow) and aorta. Station 13 segmental
nodes are light pink, station 10 hilar nodes are yellow, and station 4
inferior lower paratracheal nodes are bright orange.
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Fig. 10A —66-year-old woman with adenopathy. Contrast-enhanced CT scan
(A) and same scan with nodes colored (B) show station 10 hilar
nodes (yellow, B), which are anterior and posterior to right
upper lobe bronchus. They are inferior to top of right upper lobe bronchus,
demarcation point between station 4 mediastinal and station 10 hilar nodes.
Note station 7 subcarinal node (teal blue, B). Station 13
segmental node (light pink, B) lies between right upper lobe
anterior and posterior segmental bronchi (arrows).
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Fig. 10B —66-year-old woman with adenopathy. Contrast-enhanced CT scan
(A) and same scan with nodes colored (B) show station 10 hilar
nodes (yellow, B), which are anterior and posterior to right
upper lobe bronchus. They are inferior to top of right upper lobe bronchus,
demarcation point between station 4 mediastinal and station 10 hilar nodes.
Note station 7 subcarinal node (teal blue, B). Station 13
segmental node (light pink, B) lies between right upper lobe
anterior and posterior segmental bronchi (arrows).
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Fig. 10C —66-year-old woman with adenopathy. Contrast-enhanced CT scan
(C) and same scan with nodes colored (D) at level of main
pulmonary artery and proximal bronchus intermedius depict station 11
interlobar nodes (dark green, D). On left, they lie between
lingular and left lower lobe superior segmental bronchi (arrows). On
right, they are lateral to bronchus intermedius and inferior to right upper
lobe bronchus. Subcarinal station 7 nodes (teal blue, D) are
present.
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Fig. 10D —66-year-old woman with adenopathy. Contrast-enhanced CT scan
(C) and same scan with nodes colored (D) at level of main
pulmonary artery and proximal bronchus intermedius depict station 11
interlobar nodes (dark green, D). On left, they lie between
lingular and left lower lobe superior segmental bronchi (arrows). On
right, they are lateral to bronchus intermedius and inferior to right upper
lobe bronchus. Subcarinal station 7 nodes (teal blue, D) are
present.
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Fig. 11A —38-year-old man with lymphoma. Contrast-enhanced CT scan shows
station 8 paraesophageal node.
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Fig. 11B —38-year-old man with lymphoma. Same scan with node colored tan shows
station 8 paraesophageal node, which is anterior to azygos vein (curved
arrow) and lateral to esophagus (straight arrow).
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Fig. 12A —66-year-old woman with adenopathy. Contrast-enhanced CT scan
(A) and same scan with nodes colored (B) show station 12 lobar
nodes (light pink, B) that are adjacent to distal lobar
bronchi. Level is just inferior to right middle lobe bronchus near branching
of medial basal bronchus (arrow) that is bifurcating from truncus
basalis. Station 9 inferior pulmonary ligament node (dark blue,
B) lies medially within inferior pulmonary ligament.
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Fig. 12B —66-year-old woman with adenopathy. Contrast-enhanced CT scan
(A) and same scan with nodes colored (B) show station 12 lobar
nodes (light pink, B) that are adjacent to distal lobar
bronchi. Level is just inferior to right middle lobe bronchus near branching
of medial basal bronchus (arrow) that is bifurcating from truncus
basalis. Station 9 inferior pulmonary ligament node (dark blue,
B) lies medially within inferior pulmonary ligament.
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Fig. 12C —66-year-old woman with adenopathy. Same scan as A and
B viewed with lung window settings shows inferior pulmonary ligament
(white arrows) adjacent to node (black arrow). Pulmonary
ligaments course caudally from inferior hilum to diaphragm. Nodes in inferior
pulmonary ligaments are contained in four pleural reflections and therefore
are in mediastinum.
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Fig. 13A —80-year-old-man with small cell lung carcinoma of right lower lobe.
Lung window CT scan (A) and same scan with nodes colored (B)
show spread of lung cancer to right hilar nodes. Station 13 segmental nodes
(light pink, B) are anterior to lateral basal bronchus.
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Fig. 13B —80-year-old-man with small cell lung carcinoma of right lower lobe.
Lung window CT scan (A) and same scan with nodes colored (B)
show spread of lung cancer to right hilar nodes. Station 13 segmental nodes
(light pink, B) are anterior to lateral basal bronchus.
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Fig. 13C —80-year-old-man with small cell lung carcinoma of right lower lobe.
Lung window CT scan (C) and same scan with nodes colored (D)
show station 14 subsegmental node (light pink, D) adjacent to
subsegmental bronchus (curved arrow). Ground-glass opacity
(straight arrow) in right lower lobe periphery represents top of
primary tumor.
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Fig. 13D —80-year-old-man with small cell lung carcinoma of right lower lobe.
Lung window CT scan (C) and same scan with nodes colored (D)
show station 14 subsegmental node (light pink, D) adjacent to
subsegmental bronchus (curved arrow). Ground-glass opacity
(straight arrow) in right lower lobe periphery represents top of
primary tumor.
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