20. a) Usual Interstitial Pneumonia (UIP) : Honeycombing
-Also known as Idiopathic pulmonary fibrosis (IPF)
-Apicobasal gradient is even better seen on high-resolution
CT images
-Together with subpleural reticular opacities and
macrocystic honeycombing combined with traction
bronchiectasis, the apicobasal gradient represents a trio
of signs that is highly suggestive of UIP
-Therefore, UIP should be considered in patients who
present with low lung volumes, subpleural reticular
opacities, macrocystic honeycombing, and traction
bronchiectasis, the extent of which increases from the
apex to the bases of the lungs
21. Distribution of UIP, the distribution is subpleural with an apicobasal
gradient (red area in a), CT shows honeycombing (green areas
in c), reticular opacities (blue areas in c), traction bronchiectasis
(red area in c), and focal ground-glass opacity (gray area in c)
22. Honey combing
-Defined by the presence of small cystic spaces
with irregularly thickened walls composed of
fibrous tissue
-Honeycomb cysts often predominate in the
peripheral and subpleural lung regions
regardless of their cause
-Subpleural honeycomb cysts typically occur in
several contiguous layers, this finding can allow
honeycombing to be distinguished from
paraseptal emphysema in which subpleural
cysts usually occur in a single layer
26. Honeycombing comprises reticular densities caused by the thick walls of the cysts.
Whenever you see a chest film with long standing reticulation with a lower lobe and
peripheral preference
27. A, Unenhanced axial high-resolution CT through left mid (A) and lower (B) lung
show peripheral honeycombing, which is greatest in lower lobe,
accompanied by traction bronchiectasis and scattered peripheral reticular
opacities. Honeycombing is most prominent feature in this patient, typical for
idiopathic pulmonary fibrosis
28. b) Non-specific Interstitial Pneumonia (NSIP) :
Subpleural Ground-glass
-NSIP is less common than UIP
-In non-smokers
-High-resolution CT typically reveals a subpleural and
rather symmetric distribution of lung abnormalities
-The most common manifestation consists of patchy
ground-glass opacities combined with irregular linear or
reticular opacities and scattered micronodules
-In advanced disease, traction bronchiectasis and
consolidation can be seen; however, ground-glass
opacities remain the most obvious high-resolution CT
feature in the typical patient with NSIP
29. Distribution of NSIP, the distribution is subpleural with no obvious
gradient (red area in a), CT shows ground-glass opacity (gray areas
in c), irregular linear and reticular opacities (blue areas in c),
micronodules (red areas in c), and microcystic honeycombing
(green areas in c)
30. NSIP in a 60-year-old woman with mild dyspnea and fatigue, high-
resolution CT image of the lower lungs shows bilateral subpleural
ground-glass opacities (arrowhead) and irregular linear opacities
(arrow)
31. NSIP in a 53-year-old man with mild dyspnea, coronal CT image shows
diffuse lung involvement consisting of peripherally located irregular
linear opacities with ground-glass opacities (arrows), small cystic
lesions are seen (arrowhead)
32. 48-year-old woman with scleroderma, cough, and dyspnea and biopsy-proven
nonspecific interstitial pneumonia, high-resolution CT through lower lungs
shows scattered ground-glass opacities that are relatively symmetric in
distribution, accompanied by bronchiectasis, honeycombing is absent, note
dilated esophagus, finding associated with scleroderma
33. (a) UIP is characterized by heterogeneous lung abnormalities consisting of
subpleural honeycombing (arrowhead), reticular opacities, and traction
bronchiectasis, (b) NSIP demonstrates homogeneous lung involvement with
predominance of ground-glass opacity combined with sub-pleural linear
opacities and micronodules. The microcysts in NSIP (arrowhead) are much
smaller than the honeycombing in UIP
34. c) Cryptogenic Organizing Pneumonia (COP) : Ground-
glass (peribronchial, peripheral not subpleural) &
Consolidation
-The lung abnormalities show a characteristic peripheral or
peribronchial distribution, and the lower lung lobes are
more frequently involved
-In some cases, the outermost subpleural area is spared
-Typically, the appearance of the lung opacities varies from
ground glass to consolidation; in the latter, air
bronchograms and mild cylindrical bronchial dilatation
are a common finding
-In the appropriate clinical context, that is, consolidation
that increases over several weeks despite antibiotics, the
CT features of COP are often suggestive
35. Distribution of COP, the distribution is peripheral or peribronchial with a
basal predominance (red areas in a), CT shows consolidation with
air bronchograms (dark gray areas in c), ground-glass opacities
(light gray areas in c), linear opacities (blue areas in c), and mild
bronchial dilatation (red areas in c)
36. COP in a 54-year-old woman, coronal CT image shows extensive
bilateral peribronchial consolidation and ground-glass opacities
(arrows). An endotracheal tube is present (arrowhead), indicating
the need for mechanical ventilation
37. COP in a 69-year-old man, high-resolution CT image shows
peripherally located consolidation with air bronchograms and
sparing of the subpleural space (arrow)
38. d) Respiratory Bronchiolitis-Interstitial Lung Disease
(RB-ILD) : Centrilobular nodules + ground-glass
-RB-ILD is a smoking-related interstitial lung disease and is
thought to represent an exaggerated and symptomatic
form of the histologically common and incidental finding
of respiratory bronchiolitis
-Because of the significant overlap in clinical, imaging, and
histologic features between RB-ILD and DIP, these
entities are considered a pathomorphologic continuum,
representing different degrees of severity of the same
disease process
-The key high-resolution CT features of RB-ILD are
centrilobular nodules in combination with ground-glass
opacities and bronchial wall thickening
39. Distribution of RB-ILD, RB-ILD has an upper lung predominance (red
area in a), CT shows ground-glass opacity (gray area in c) and
centrilobular nodules (red areas in c)
40. RB-ILD in a 44-year-old woman with a 20 pack-year smoking history, high-
resolution CT image of the upper lung lobes shows centrilobular nodules
(white arrows) and patchy ground-glass opacities (black arrow), mild
coexisting centrilobular emphysema is seen (arrowhead)
41. 50-year-old man with long-standing history of heavy cigarette smoking,
dyspnea, cough, and smoking-related interstitial lung disease,
proven at biopsy, unenhanced axial CT image through mid to lower
lungs shows diffuse centrilobular ground-glass nodules bilaterally
42. e) Desquamative Interstitial Pneumonia (DIP) : Diffuse
ground-glass
-DIP is strongly associated with cigarette smoking and is
considered to represent the end of a spectrum of RB-ILD
-At high-resolution CT, DIP is characterized by diffuse
ground-glass opacities
-Usually, there is a peripheral and lower lung lobe
predominance
-Other frequent CT findings include spatially limited
irregular linear opacities and small cystic spaces, which
are indicative of fibrotic changes
-Despite differences in the CT appearance of RB-ILD and
DIP, imaging findings may overlap and may be
indistinguishable from each other, to improve diagnostic
accuracy, lung biopsy is required in all cases of
suspected RB-ILD or DIP
43. Distribution of DIP, DIP has a peripheral predominance (red areas
in a), CT shows ground-glass opacity (gray area in c), irregular
linear opacities (blue areas in c), and cysts (green areas in c)
44. DIP in a 55-year-old man, high-resolution CT image of the lower lung
lobes shows extensive bilateral ground-glass opacities (arrowhead),
coexisting moderate bronchial wall thickening is present (arrow)
45. DIP in a 43-year-old man with a history of smoking, high-resolution CT
image of the lower lung zones shows patchy ground-glass opacities
in both lungs, predominantly in the subpleural region (arrowheads),
small cystic spaces are present in these areas (arrow)
46. 49-year-old woman with persistent and progressive cough, dyspnea, and hypoxemia,
prompting biopsy of her lungs, which revealed chronic desquamative interstitial
pneumonia (DIP) related to extensive cigarette smoking history, CT images through
mid and lower lungs show patchy ground-glass opacities in all lobes of both lungs
with peripheral predilection accompanied by lower lobe bronchial wall thickening, note
small cysts scattered mostly in right lung in regions of ground-glass attenuation,
finding that can occur in DIP
47. f) Lymphocytic Interstitial Pneumonia (LIP) : Female +
Sjogren syndrome + ground-glass + perivascular cysts
-As an idiopathic disease, LIP is exceedingly rare
-It is far more common as a secondary disease in
association with systemic disorders, most notably
Sjögren syndrome, human immunodeficiency virus
infection, and variable immunodeficiency syndromes
-More common in women than in men
-The dominant high-resolution CT feature in patients with
LIP is ground-glass attenuation
-Another frequent finding is thin-walled perivascular cysts,
in contrast to the subpleural, lower lung cystic changes
in UIP, the cysts of LIP are usually within the lung
parenchyma throughout the mid lung zones and
presumably result from air trapping due to
peribronchiolar cellular infiltration
-In combination with ground-glass opacities, these cysts
are highly suggestive of LIP
48. Distribution of LIP, the distribution is diffuse (red area in a), CT shows
ground-glass opacity (gray area in c) and perivascular cysts (green
areas in c)
49. LIP in a 47-year-old woman, high-resolution CT image shows diffuse
ground-glass opacity (arrow) with multiple perivascular cysts
(arrowheads) and reticular abnormalities (*)
50. 58-year-old woman with Sj??gren syndrome, persistent dyspnea, and
biopsy-proven lymphoid interstitial pneumonia, unenhanced axial
CT image through mid lungs reveals centrilobular ground-glass
nodule
51. 73-year-old woman with Sjogren syndrome symptoms, including dyspnea and
arthralgias, and biopsy-proven lymphoid interstitial pneumonia (LIP),
contrast-enhanced coronal reformatted image through lungs shows
numerous thin-walled cysts mostly located adjacent to blood vessels, these
perivascular cysts are identified in most patients with LIP
52. 71-year-old woman with Sjogren syndrome, chest pain, cough,
dyspnea, and biopsy-proven lymphoid interstitial pneumonia (LIP).,
contrast-enhanced axial CT image shows both perivascular cysts
and lower lobe ground-glass opacities, combination of findings that
strongly supports diagnosis of LIP
53. g) Acute Interstitial Pneumonia (AIP) : Acute onset +
early (ground-glass), late (fibrosis)
-AIP is the only entity among the IIPs with acute onset of
symptoms, in most cases of AIP, the clinical and imaging
criteria for acute respiratory distress syndrome are
fulfilled
-High-resolution CT features of AIP are similar to those of
acute respiratory distress syndrome; however, patients
with AIP are more likely to have a symmetric, bilateral
distribution with a lower lobe predominance
-The costophrenic angles are often spared
-In the early phase of AIP (Exudative phase), ground-glass
opacities are the dominant CT pattern
-In the late phase of AIP (Fibrotic phase), architectural
distortion, traction bronchiectasis, and honeycombing
are the most striking CT features and are more severe in
the nondependent areas of the lung
54. Distribution of AIP, AIP has a basal predominance (red area in a), CT
shows airspace consolidation (dark gray areas in c), ground-glass
opacities (light gray areas in c), and bronchial dilatation (red areas
in c)
55. Exudative phase of AIP in a 22-year-old man, high-resolution CT image
shows bilateral ground-glass opacities (arrowheads) and
consolidation (arrow) in the dependent areas of the lungs, the
anterior zones of the lungs are relatively spared
56. Fibrotic phase of AIP in a 53-year-old woman who survived the acute
phase of the disease, CT image shows fibrotic changes with traction
bronchiectasis and architectural distortion predominantly in the
nondependent areas of the lungs (arrow), a coexisting right pleural
effusion is seen (arrowhead)
57. 2-Interstitial Fibrosis (Asbestosis) :
-Asbestosis refers exclusively to asbestos-related interstitial
pulmonary fibrosis
-The changes of asbestosis are more pronounced in the
lower lobes and subpleurally but often extend to involve
the middle lobe and lingula, upper lobes can be involved
in advanced cases
-Honeycombing, as in other fibrotic lung diseases, can
occur in advanced disease
-Features on chest radiographs include ground-glass
opacification, small nodular opacities, “shaggy” cardiac
silhouette, and ill-defined diaphragmatic contours, it has
been reported that 80% of patients with asbestosis have
coexistent pleural disease at chest radiography, fibrous
bands are sometimes seen to radiate inward from the
pleura
58. (a) PA radiograph of a patient with asbestosis shows “shaggy”
mediastinal and diaphragmatic contours, (b) Localized view of the
lung bases of the same patient further illustrates the diffuse
interstitial opacification
59. PA radiograph shows diffuse fine nodular and reticular opacification
with irregularity of mediastinal and diaphragmatic contours, the
costophrenic angles are blunted because of pleural thickening
60. PA radiograph of an asbestos-exposed person shows parenchymal
bands radiating in from the pleura in both mid zones (arrows),
diffuse pleural thickening is predominantly left-sided
61. -HRCT :
*An early feature is a subpleural curvilinear opacity, this
finding represents peribronchiolar fibrosis
*Parenchymal band-shaped opacities project in from the
pleura and represent fibrosis along bronchovascular
sheaths or interlobular septa
*Other features that have been reported include ground-
glass opacification (due to mild alveolar wall fibrosis
beyond the resolving power of CT, subpleural nodular or
dotlike opacities, thickening of interlobular septa, and
honeycombing
62. Axial high-resolution CT scan shows a subpleural curvilinear opacity
(arrows) thought to represent peribronchiolar fibrosis
63. High-resolution CT scan obtained with the patient in a prone position
shows early subpleural curvilinear opacity (arrows)
65. HRCT scan shows subpleural areas of ground-glass attenuation
(arrows)
66. HRCT scan shows subpleural nodular and dotlike opacities (solid wide
arrows) that coalesce to form subpleural curvilinear lines (open
arrows), there are also interlobular (solid thin arrows) and
intralobular (arrowheads) interstitial lines
70. -N.B. :
Asbestos exposure causes a variety of
manifestations :
a) Pleura :
1-Pleural plaques (hyalinized collagen)
2-Diffuse thickening
3-Benign pleural effusion (most common
manifestation)
4-Pleural calcification
71. PA radiograph shows extensive calcified pleural plaques (arrows) that
affect the chest wall, diaphragm, and pericardium, the costophrenic
angles and apices are spared
72. PA radiograph of an asbestos-exposed patient shows a
right-sided pleural effusion (arrows)
73. (a) Axial CT scan of an asbestos-exposed person shows a left-sided pleural
effusion (arrow), (b) Axial CT scan obtained 2 years later shows
circumferential pleural thickening that extends into the major fissure (straight
arrow) and contains flecks of calcification (curved arrow)
74. (a) PA radiograph shows pleural thickening with obliteration of the left
costophrenic angle (arrows), there are also some associated linear
parenchymal opacities (arrowheads), (b) Axial CT scan of the same
patient shows circumferential pleural thickening (arrows)
75. CT scans obtained with soft-tissue window settings show
calcified anterior and paravertebral plaques (arrows)
76. b) Lung :
1-Interstitial fibrosis (asbestosis)
2-Rounded atelectasis with comet tail sign of
vessel leading to atelectatic lung
3-Fibrous masses
c) Malignancy :
1-Malignant mesothelioma
2-Bronchogenic carcinoma
3-Carcinoma of the larynx
4-GI malignancies
77. Round atelectasis, (a) PA radiograph shows an opacity in the right
middle zone (arrows), (b) Axial CT scan of the same patient shows
a peripheral mass that abuts thickened pleura, with comet tail
distortion of the vascular structures (arrows)
78. Axial CT scan shows an ovoid mass, pleural thickening, and linear
comet tail of rounded atelectasis
79. PA radiograph shows left-sided lobulated thickening (arrowheads) and
pleural effusion (arrow), findings characteristic of malignant
mesothelioma
80. Axial CT scan of a patient with a right-sided mesothelioma shows a
benign pleural plaque (arrow) engulfed by tumor tissue
81. Axial CT scan shows a right-sided mesothelioma with extension along
the major fissure (arrow) and chest wall invasion (arrowhead)
82. Axial CT scan of a patient with a left-sided malignant mesothelioma
shows contraction of the hemithorax and chest wall invasion (arrow)
83. Axial CT scan of a patient with a right-sided mesothelioma shows
invasion and encasement of the pericardium (arrowheads)
84. Axial CT scan shows a left-sided mesothelioma with mediastinal encasement
and lymphadenopathy (arrowheads)
85. Axial CT scan shows a large left lower lobe carcinoma in a
patient with asbestos-related plaques (arrows)
86. **N.B. : Fibrotic changes
D.D. of lower lobe fibrotic changes :
1-Idiopathic pulmonary fibrosis
2-End-stage asbestosis
3-NSIP (nonspecific interstitial pneumonia)
D.D. of upper lobe fibrotic changes :
Although IPF is the most common cause of pulmonary
fibrosis, fibrosis is primarily affecting the upper lobe
should raise concern for an alternative diagnosis, such
as :
1-End-stage sarcoidosis
2-Chronic hypersensitivity pneumonitis
3-End-stage silicosis
88. Increased hydrostatic pressure edema in a 33-year-old man with acute myelocytic
leukemia who was admitted for fluid overload with renal and cardiac failure,
successive chest radiographs demonstrate progressive lobar vessel enlargement,
peribronchial cuffing (arrows in b), bilateral Kerley lines (arrowheads in c), and late
alveolar edema with nodular areas of increased opacity, the fluid overload is
confirmed by the increasing size of the azygos vein
89. 4-Drug Induced Interstitial Disease :
-Radiographic Features : as before
5-Collagen Vascular Disease :
-The two thoracic manifestations with the greatest
clinical importance in patients with collagen
vascular diseases are :
1-Interstitial Lung Disease
2-Pulmonary Arterial Hypertension
92. a) Definition :
-Pulmonary arterial hypertension is defined
by a mean resting pulmonary artery
pressure of ≥25 mm Hg and a pulmonary
capillary wedge pressure of ≤15 mm Hg
93. b) Incidence :
-Patients with collagen vascular diseases are
considered to have a higher risk for pulmonary
arterial hypertension which may occur in
isolation or in combination with interstitial lung
disease
-Pulmonary arterial hypertension is more common
in patients with progressive systemic sclerosis
and mixed connective tissue disease, it is less
common in systemic lupus erythematosus and
even rarer in patients with rheumatoid arthritis,
polymyositis or dermatomyositis or Sjögren
syndrome
94. c) Radiographic Features :
-Increased diameter of the pulmonary arterial trunk
(>2.9 cm), the main pulmonary arteries and their
segments and in more advanced cases , the
right heart chambers and azygos-hemiazygos
venous system
-Contrast material reflux into the inferior vena cava
and hepatic veins , a result of elevated right
heart pressures also may be seen
-Associated pericardial effusion is a common
finding that portends a poor prognosis
95. (a) Frontal chest radiograph shows a prominent main pulmonary artery (arrow) , dilated
right interlobar artery (arrowhead) and pruning of peripheral pulmonary vascularity ,
(b) Lateral chest radiograph shows filling of the retrosternal airspace (arrow) a result
of right ventricular dilatation , the right ventricle is in contact with more than one-third
of the distance from the sternodiaphragmatic angle (black arrowhead) to the point
where the trachea meets the sternum (white arrowhead)
96. Yellow arrow shows enlarged right main pulmonary artery ,
red arrow shows the enlarged left pulmonary artery
97.
98. -Vascular signs of
pulmonary hypertension
-Axial multidetector CT
angiogram shows
dilatation (29 mm or
more) of the main
pulmonary artery
-The ratio of the main
pulmonary arterial
diameter to that of the
ascending aorta is also
greater than or equal to 1,
another useful sign of
pulmonary hypertension
99. -(A) Markedly enlarged
pulmonary arteries with
tiny branching smaller
vessels
-(B) Enlarged right ventricle
and the smaller left
ventricle , the septum is
pushed towards the left
ventricle due to very high
pressure inside the right
ventricle
100.
101. Cardiac features of pulmonary hypertension. (a) CTA shows that the right ventricular myocardium
(white arrow) is more than 4 mm thick , a finding consistent with right ventricular hypertrophy.
Straightening of the interventricular septum (black arrow) also is seen. (b) CTA shows right
ventricular dilatation which is defined as a diameter ratio (the ratio of the right ventricular diameter
[black arrow] to the left ventricular diameter [white arrow]) greater than 1:1 at the midventricular
level , Leftward bowing of the interventricular septum also is seen. (c) CTA shows reflux of
contrast material into the inferior vena cava which is dilated and hepatic veins (arrow)
103. 7-With Adenopathy (Sarcoidosis or
Lymphangitis Carcinomatosis) :
a) Sarcoidosis :
1-Incidence
2-Classification
3-Radiographic Features
104. 1-Incidence :
-Pulmonary manifestations are present in
approximately 90% of patients
-Pulmonary sarcoidosis most commonly
affects patients between 20 and 40 years
of age although it is seen essentially at
any age
-There is a slight female predominance
105. 2-Classification :
-May be classified on a chest radiograph into 5
stages :
Stage 0 : normal chest radiograph
Stage I : hilar or mediastinal nodal enlargement
only
Stage II : nodal enlargement and parenchymal
disease
Stage III : parenchymal disease only
Stage IV : end-stage lung (pulmonary fibrosis)
111. 3-Radiographic Features :
1-Lymph Node Enlargement
2-Reticulonodular Opacities
3-Air Space Like Opacities (Alveolar
Sarcoidosis)
4-Peripheral Cavitation , atelectasis &
effusion
5-End Stage Fibrosis
112. 1-Lymph Node Enlargement :
-The most common manifestation is bilateral
hilar and mediastinal nodal enlargement
-Classically the distribution is of bilateral
hilar and right paratracheal nodal
enlargement which is known as the 1-2-3
sign or Garland triad
- calcification of intrathoracic nodes is seen
in 20% of cases after 10 years
113. 2-Reticulonodular Opacities :
-Most common : 75-90% of stage II and III
cases
-Middle and upper zone distribution
-Bilateral and symmetric
-Nodularity may be prominent and appear
as miliary opacities
115. 3-Air Space Like Opacities (Alveolar
Sarcoidosis) :
-Simulating acute inflammatory disease
4-Peripheral Cavitation , Atelectasis & Effusion:
-Rare
5-End Stage Fibrosis :
-Permanent coarse linear opacities
-Typically radiating laterally from the hilum into the
adjacent upper and middle zones
123. 1-Incidence :
-Is the term given to tumor spread through the
lymphatics of the lung and is most commonly
seen secondary to adenocarcinoma such as :
1-Breast cancer , most common
2-Lung cancer (bronchogenic adenocarcinoma)
3-Colon cancer
4-Stomach cancer
5-Prostate cancer
6-Cervical cancer
7-Thyroid cancer
124. 2-Radiographic Features :
-Typically the appearance is that
of interlobular septal thickening most
often nodular and irregular although
smooth thickening may also sometimes be
seen
-Mediastinal and/or hilar lymphadenopathy
-Peribronchovascular thickening
-Pleural effusions
125. A central bronchogenic carcinoma (blue arrow) is producing unilateral interstitial edema
(blue circles) characteristic of lymphangitic carcinomatosis with a pleural effusion
(red arrow) , thickening and irregularity of the bronchovascular bundles (yellow
arrow) and thickening of the interlobular septa (light blue arrow)
126.
127. b) Ground Glass Pattern :
1-Definition
2-Description
3-Etiology
128. 1-Definition :
-Air space filling disease
-A hazy area of increased attenuation in the lung with
preserved bronchial and vascular markings
-Filling of the alveolar spaces with pus , edema ,
hemorrhage , inflammation or tumor cells
-Ground glass in itself is very unspecific , may be
diagnostic in ;
a) AIDS + ground glass = Pneumocystitis cranii pneumonia
b) Lung transplant + ground glass = CMV pneumonia or
rejection
129. 2-Description :
-Three presentations :
a) Ground glass density
b) Nodules (few mm-1 cm)
c) Confluent opacities ,frank consolidation
with air bronchogram
130. 3-Etiology :
a) Pneumonia
b) Pulmonary Edema
c) Pulmonary Hemorrhage
d) Bronchoalveolar Carcinoma
e) Alveolar Proteinosis
136. Bat wing edema in a 71-year-old woman with fluid overload and cardiac
failure, chest radiograph (a) and high-resolution CT
scan (b) demonstrate bat wing alveolar edema with a central
distribution and sparing of the lung cortex, the infiltrates resolved
within 32 hours
138. 1-Incidence :
-Diagnosed when there are :
1-Hemoptysis
2-Anaemia
3-Air space opacities on imaging
-Divided into :
1-Diffuse pulmonary hemorrhage
2-Localized pulmonary hemorrhage
140. 2-Radiographic Features :
-Appears rapidly and clear within few days
-Spare the lung apex & peripheral zones
-Looks like pulmonary edema but heart is
normal and no pleural effusion
144. 1-Incidence :
-Sub-group of adenocarcinomas of the lung
accounting for 2-9% of primary lung
lesions
-A disease presenting in the 6th and 7th
decades with a 3:2 male predominance
145. 2-Clinical Picture :
-Nearly half of patients with BAC are asymptomatic
at presentation with cough , chest pain and
weight loss most common among those with
symptoms
-If the tumor is mucin secreting , a productive
cough with abundant mucoid expectoration can
be seen
-This classic finding of (marked) bronchorrhea is
an uncommon and late finding
146. 3-Radiographic Findings : 3 Patterns
a) Solitary Nodule
b) Consolidated Form
c) Diffuse or Multicentric Form
147. a) Solitary Nodule :
-Usually a well-circumscribed focal mass
located in the periphery of the lung with
spiculated borders
-A pleural tag or "tail sign" is common and
describes linear strands extending from
nodule to pleura
150. b) Consolidated Form :
-May be segmental or involve an entire lobe
-The combination of growth along the air spaces
with the production of mucin may cause the
features of airspace consolidation with air-
bronchograms
-If a large amount of mucin is present it may cause
consolidation of low attenuation and following
the administration of I.V. , the vessels will be
seen within the consolidation , this is referred to
as the CT angiogram sign and is suggestive of
BAC
151. -A characteristic finding of BAC is the
presence of bubble like lucencies or
pseudocavitation which corresponds to
patent small bronchi or air-containing
cystic spaces in papillary tumors
155. c) Diffuse or Multicentric Form :
-Widespread disease in multiple lobes of
both lungs
*N.B. :
-Classic radiographic findings in BAC
include a solitary spiculated mass with
air bronchograms
-Airspace consolidation and a diffuse
multicentric presentation are also common
160. a) Solitary nodule , 2 cm ,
note the bubble like
lucencies inside the
nodule
b) Isolated lobar
consolidation , 15 months
later , note the angiogram
inside the consolidation
c) Contralateral
consolidation , 4 months
later after left lower
lobectomy
162. 1-Etiology :
-Alveoli filled by proteineus material
a) Idiopathic (90%)
b) Occupational
c) Drug induced
d) Immune compromise
163. 2-Radiographic Features :
a) Plain radiography :
-Non-specific
-batwing pulmonary opacities
b) HRCT :
-Crazy Paving :
A combination of ground glass opacity with
superimposed septal thickening
-The distribution is typically central with
sparing of the periphery
170. 2-Description :
-In most cases small nodules can be placed
into one of three categories : (PCR)
a) Random distribution
b) Centrilobular distribution
c) Perilymphatic distribution
171. 1-Random distribution , nodules are
randomly distributed relative to
structures of the lung and secondary
lobule , nodules can usually be seen to
involve the pleural surfaces and
fissures but lack the subpleural
predominance often seen in patients
with a perilymphatic distribution
2-Centrilobular distribution , unlike
perilymphatic and random nodules ,
centrilobular nodules spare the pleural
surfaces , the most peripheral nodules
are centered 5-10mm from fissures or
the pleural surface
3-Perilymphatic distribution , nodules
are seen in relation to pleural
surfaces , interlobular septa and the
peribronchovascular interstitium ,
nodules are almost always visible in a
subpleural location particularly in
relation to the fissures
172.
173. 3-Etiology :
a) Miliary T.B.
b) Fungal Infection
c) Miliary Mets
d) Pneumoconiosis
e) Wegner’s Granulomatosis
f) Pulmonary Alveolar Microlithiasis
174. a) Miliary Pulmonary Tuberculosis :
-It represents hematogenous dissemination
of an uncontrolled tuberculous infection
-It is seen both in primary and post-primary
tuberculosis
-Miliary deposits appear as 1-3 mm
diameter nodules which are uniform in
size and uniformly distributed (no
calcification)
180. b) Fungal Infection :
-Two broad categories :
a) Endemic human mycoses (prevalent
only in certain geographic areas) :
1-Histoplasmosis
2-Coccidioidomycosis
3-Blastomycosis
181. b) Opportunistic mycoses (worldwide in
distribution) occur primarily in
immunocompromised patients (aspergillosis and
cryptococcosis may also occur in
immunocompetent hosts)
1-Aspergillosis (invasive)
2-Candidiasis
3-Cryptococcosis
4-Mucormycosis
187. 1-Etiology :
-Caused by inhalation of inorganic dust
particles that overwhelm the normal
clearance mechanism of the respiratory
tract :
1-Silica >>Silicosis
2-Coal workers' pneumoconiosis (CWP)
3-Asbestose >>Asbestosis
188. 2-Radiographic Features :
a) Nodules
b) Progressive Massive Fibrosis
c) Other features : with asbestosis
Pleural thickening , plaques
Pleural calcification , diffuse
189. a) Nodules :
-Dense multiple nodules sparing the apex
and the base
-Calcification may occur
-Egg shell calcification of lymph nodes
-Hilar lymph nodes
190.
191.
192.
193. b) Progressive Massive Fibrosis :
-Nodules enlarge and coalesce to form
masses >>progressive massive fibrosis
-Bilateral almost symmetrical , almost
always in the upper half of the lung
194.
195. c) Other features : with asbestosis
Pleural thickening, plaques (See before)
200. 1-Incidence :
-Systemic granulomatous process with
destructive angiitis involving lung , upper
respiratory tract and kidney (necrotizing
glomerulonephritis) , Type IV immune
mechanism
206. 1-Incidence :
-Is a rare idiopathic condition characterised
by widespread intra alveolar deposition of
spherical calcium phosphate microliths
207. 2-Radiographic Features :
-Typically demonstrates sand like
calcification distributed throughout the
lungs
-Distribution is bilateral with middle to lower
zone predilection
-Black pleura sign (pleura appear as a
lucent line lying between the pulmonary
infiltrate & the adjacent ribs)
208.
209.
210. Nearly uniform
distribution of typical
fine, sandlike mottling
in the lungs
The tangential shadow
of the pleura is
displayed along the
lateral wall of the
chest as a dark lucent
strip (arrows)
211. Multiple calcific densities in both lungs with thickening and increased density
along the fissure and along the mediastinal margin , a black pleural line is
noted
212. 3-Differential Diagnosis of multiple small (pin
point) micronodules :
1-Post lymphangiography
2-Silicosis
3-Stannosis (inhalation of tin oxide)
4-Barytosis (inhalation of barytes)
5-Limestone & marble workers
6-Alveolar microlithiasis
214. 1-Definition :
-Defined as radiolucent areas with a wall
thickness of less than 4mm
2-Description :
-Multiple thin walled air containing lesions 1
cm or more (Not seen by x-rays except for
bronchiectasis)
215. 3-Etiology :
a) Langerhan’s Cell Histiocytosis (LCH)
b) Lymphangioleiomyomatosis (LAM)
c) Tuberous Sclerosis (TS)
d) Emphysema
e) Cystic Bronchiectasis
f) Lymphocytic Interstitial Pneumonia (LIP)
216. a) Langerhan’s Cell Histiocytosis :
1-Incidence
2-Types
3-Radiographic Features
4-Differential Diagnosis
217. 1-Incidence :
-Is a rare multi-system disease with a wide
and heterogeneous clinical spectrum and
variable extent of involvement
-The disease is more common in the
pediatric population with a peak incidence
between 1 and 3 years of age
218. 2-Types :
-Langerhan’s cell histiocytosis consists of three
clinical syndromes :
a) Letterer-Siwe disease :
-Acute disseminated form
b) Hand-Schuller-Christian disease (HSC) :
-Chronic disseminated form
c) Eosinophilic Granuloma (EG) :
-Solitary bone lesion + small cystic spaces in lung
parenchyma
219. 3-Radiographic Features : EG
-Solitary bone lesion
-Small cystic spaces in lung parenchyma
(spares the lower lung zones)
-3 to 10 mm pulmonary nodules
-Apical reticulonodular pattern
-Pneumothorax , 30 %
226. 2-Radiographic Features :
-Numerous cystic spaces , 90%
Size of cysts usually <5 to 10 mm
Thin walled
Surrounded by normal lung
-Recurrent pneumothorax , 70%
-Chylous pleural effusions , 25%
227.
228.
229.
230.
231.
232. c) Tuberous Sclerosis (TS) :
-Pulmonary involvement of TS includes
Lymphangioleiomyomatosis (LAM) and
multifocal micronodular pneumocyte
hyperplasia (MMPH)
-AML of the kidney & liver may help in the
diagnosis
233. Pulmonary LAM in a 29-year-old woman, thin-section CT scan
demonstrates multiple lung cysts with well-defined thin walls, these
cysts are distributed randomly throughout the lung
234. Pulmonary LAM in a 37-year-old woman, thin-section CT image shows
bilateral numerous cysts associated with reticular opacities
235. Pneumothorax associated with pulmonary LAM in a 37-year-old
woman, CT image of the chest demonstrates multiple lung cysts,
suggesting pulmonary LAM, pneumothorax can be seen in the right
thoracic cavity (arrows)
236. MMPH in a 19-year-old man, CT scan demonstrates multiple tiny
nodules (arrows), with random distribution in the lungs
249. b) Congenital : (See congenital pulmonary
lesions)
1-Congenital Pulmonary Adenomatoid
Malformation
2-Bronchogenic cyst
250. c) Post-infective :
-Cysts can appear during the first 2 weeks of the
pneumonia and may resolve over several
months
1-Staphylococcus aureus : a characteristic feature
of childhood staphylococcal pneumonia ,
developing in 40-60 % of cases
2-Streptococcus pneumonia
3-E.Coli
4-Klebsiella pneumonia
5-Haemophilus influenza
251. Post infectious pneumatocele, the initial chest x-ray shows
consolidation in the right lung, follow up chest done, when the
patient was asymptomatic, shows multiple thin walled lucencies in
the right lung
252. (a) Initial CXR shows a dense right upper lobe consolidation, (b) CXR a
week later shows a round cyst with thin walls in the right upper lobe
253. d) Hydatid Cyst :
-See Infection
e) Post-traumatic :
-Lung laceration, cyst measuring up to 5 cm
in diameter, resolution over time
254.
255. Air meniscus in the superior aspect of the lesion as a result of the enlarging
cyst communicating with an adjacent bronchiole
257. f) Neoplastic :
1-Following treatment of pulmonary metastases ,
bladder cancer and germ cell tumors , may be
visible only on CT
2-Hyalinazing Granulomas :
-Rare disorder of unknown etiology but possible
association with infection and autoimmunity
-Multiple ill-defined / well-defined nodules & cysts
3-Metastatic epithelioid sarcoma
259. 1-Definition :
-Used to describe density differences
between affected and non-affected lung
areas , there are patchy areas of black
and white lung
260. 2-Description :
-Is the description given to the appearance
at CT where there is a patchwork of
regions of differing attenuation
-It is a non-specific finding
264. a) Obstructive Small Airway Disease :
-Low attenuation regions are abnormal and
reflect decreased perfusion of the poorly
ventilated regions
-e.g. bronchiectasis ,cystic fibrosis &
constrictive bronchiolitis (See airway
disease)
265. b) Occlusive Vascular Disease :
-Can be termed a mosaic perfusion pattern
in this setting , low attenuation regions are
abnormal and reflect relative
oligaemia , e.g. chronic pulmonary
embolism (See pulmonary embolism)
c) Parenchymal Disease :
-High attenuation regions are abnormal and
represent ground-glass opacity
267. -Occluded contracted left
lower lobe pulmonary
artery (arrowhead) , there
is decrease in lung
attenuation of left lower
and right upper lobes and
more normally perfused
lung contributes to
mosaic pattern of lung
attenuation (arrows) ,
incidental note is made of
centrilobular emphysema