LungRadiology

Question 1

Differentiate: nodule vs mass

Answer 1

Nodule < 3 cm Mass > 3 cm

Question 2

Lesions greater than 3 cm in diameter have a greater than _% probability of being malignant.

Answer 2

75

Question 3

Why are smaller lesions on CXR likely to be benign?

Answer 3

To be visible on a CXR, they must be highly dense: a property usually associated with calcification.

Question 4

_ calcification on CXR, although usually benign, may represent malignancy.

Answer 4

_ calcification on CXR, although usually benign, may represent malignancy

Question 5

Ddx nodules

Answer 5

Infection Primary or lung metastasis Granulomata Rheumatoid nodules Wegener granulomatosis Vascular malformations Bronchogenic cysts Hamartoma

Question 6

DDx lung masses

Answer 6

Ddx lung nodules + sarcomas, fibromas, and progressive massive fibrosis (

Question 7

DDx anterior mediastinal masses

Answer 7

Teratoma Thymus derived masses: cyst, lipoma, cancer Thoracic thyroid Lymphoma

Question 8

The _ _ is that portion of the mediastinum anterior to the pericardium and below the thoracic plane.

Answer 8

anterior mediastinum

Question 9

Opacification of air spaces, caused by the filling of alveoli with blood, pus, or fluid.

Seen on the CXR as patchy areas of increased density, often surrounding air bronchograms.

Answer 9

alveolar infiltrate

Question 10

marked by their homogeneity, their irregular and often fluffy appearance, and the presence of air bronchograms

Answer 10

Alveolar infiltrate

Question 11

Differentiate alveolar from interstitial infiltrates

(Hard in practice, patterns are different)

Answer 11

Alveolar Interstitial pattern

Fluffy Small nodules

Ill-defined margins Linear/reticular

Coalescing septal lines

Segmental/lobar Reticulo-nodular

Question 12

Alveolar infiltrate contents

Answer 12

1. Water
2. Blood
3. Pus
4. Protein
5. Calcium: rare

Question 13

Interstitial infiltrates: type basis

Answer 13

Morphology

1. Reticular
2. Nodular
3. Reticulo-nodular
4. Honeycombing
5. Ground glass

Question 14

Alveolar infiltrates with pus

Answer 14

Pneumonia

Question 15

Alveolar infiltrate with blood

Answer 15

1. Goodpasture syndrome
2. Idiopathic pulmonary hemosiderosis
3. Systemic lupus erythematosus (SLE)

Question 16

_ infiltrate —implies scarring and end-stage disease and is usually seen with idiopathic pulmonary fibrosis (IPF)

Answer 16

Honeycomb

Question 17

Causes of

Answer 17

1. Consolidation,
2. Edema
3. Atelectasis
4. Severe interstitial disease
5. Neoplasm
6. Normal expiration.

Question 18

Tubular outline of an airway made visible by filling of the surrounding alveoli by fluid or inflammatory exudates

Answer 18

Air bronchogram

Question 19

Differentiate between right and left ribs on lateral CXR

Answer 19

Size: right ribs (red arrows below) are larger due to magnification

Position: posterior to the left ribs if the patient was examined in a true lateral position.

This can be very helpful if there is a unilateral pleural effusion seen only on the lateral view.

https://www.med-ed.virginia.edu/courses/rad/cxr/technique2chest.html

Question 20

Differentiate right from left hemidiaphragm on lateral CXR

Answer 20

1. Lower: left
2. Visibility: anterior part of right hemidiaphragm remains visible.

Question 21

Why does the anterior part of the left hemidiaphragm disappear?

Answer 21

Since the heart lies predominantly on the left hemidiaphragm the result on a lateral film is silouhetting out of the anterior portion of the hemidiaphragm, whereas the anterior right hemidiaphragm remains visible.

Question 22

Why is the X-ray tube 6 feet away for a PA film?

Answer 22

Diminishes the effect of magnification of structures closer to the x-ray tube.

Question 23

Why does the heart look larger on AP views?

Answer 23

1. In the supine AP the x-ray tube is 40 inches from the patient vs 72 inches for PA view causing magnification of closer structures.
2. The heart is anterior: therefore closer.

Question 24

AP vs PA

Answer 24

Left: PA Right: AP supine film

Explanation: AP shows magnification of the heart and widening of the mediastinum. Whenever possible the patient should be imaged in an upright PA position. AP views are less useful and should be reserved for very ill patients who cannot stand erect.

https://www.med-ed.virginia.edu/courses/rad/cxr/technique3chest.html

Question 25

Utility of lateral decubitus film

Answer 25

1. Volume of pleural effusion
2. Mobile or loculated.
3. Pneumothorax assessment: Look at the nondependent hemithorax to confirm a pneumothorax in patient who cannot be erect.
4. Atelectasis: Dependant lung should increase in density due to atelectasis from the weight of the mediastinum putting pressure on it.

Question 26

The diaphragm should be found at about the level of the _ to _ th posterior rib or _th - _th anterior rib on good inspiration.

Answer 26

The diaphragm should be found at about the level of the 8th - 10th posterior rib or 5th - 6th anterior rib on good inspiration.

Question 27

What accounts for loss of cardiac silhoutte in the two films of the same patient, at the same time?

Answer 27

Poor inspiration

On the first film, the loss of the right heart border silhouette suggests pneumonia. However, the patient had taken a poor inspiration. With improved inspiration (second film), the right heart border is normal.

Question 28

Adequacy of penetration PA view

Answer 28

1. Thoracic spine disc spaces: barely visible through the heart
2. Bony details of the spine: not visible.
3. Bronchovascular structures: visible through the heart

Question 29

Adequacy of penetration lateral view

Answer 29

1. Lower spine should be darker than upper spine.
2. The sternum should be seen edge on
3. Posteriorly: Two sets of ribs should be visible

Question 30

Why does the spine appear to be darken as you move caudally?

Answer 30

More air in lung in the lower lobes and less chest wall

Question 31

Patient rotation

Answer 31

Clavicular heads should be equidistant from spinous processes

Explanation: If there is rotation of the patient, the mediastinum may look very unusual. Observe the clavicular heads and determe whether they are equal distance from the spinous process of the thoracic vertebral bodies.

Question 32

What does the position of the clavicular heads tell us?

Answer 32

Correctly positioned patient

Magnification of clavicular head and spinous process alignment demonstrating a straight film.

Question 33

What is wrong with this film?

Answer 33

In this rotated film skin folds can be mistaken for a tension pneumothorax (blue arrows).
Notice the skewed positioning of the heads of the clavicles (red arrows) and the spinous processes.

Question 34

Why is the opacity on the left upper lobe described as a mass?

Answer 34

Left: well defined therefore mass.

In each of the cases above, there is an abnormal opacity in the left upper lobe. In the case on the left, the opacity would best be described as a mass because it is well-defined. The case on the right has an opacity that is poorly defined. This is airspace disease such as pneumonia.

Question 35

By reference to parenchyma and pleura

Answer 35

A = intraparenchymal 
B = pleural
C = extrapleural

Question 36

Describe

Answer 36

Bone destruction indicative of an extrapleural mass.

Question 37

Why is the major fissure not well visualized on a PA film?

Answer 37

Because it is at an oblique angle to the view.

Question 38

The patient above has a pleural effusion extending into the fissure. Which fissure is which?
What is the bright loop near the center of the films?

Answer 38

Right minor fissure

Mitral valve ring

Question 39

What structure is being shown?

Answer 39

Major fissure

1. Area of paucity of vessels in the region of the capillaries near the fissure.
2. If a very thin slice is taken, the pleura can actually be seen as a line (arrows).

Question 40

The left pulmonary artery arches over the left _ _ _ and the right pulmonary artery passes posterior to the _ aorta to divide into the truncus anterior and the descending RPA.

Except in the right upper lobe, the pulmonary veins are generally _ to the pulmonary arteries.

Answer 40

The left pulmonary artery arches over the left upper lobe bronchus and the right pulmonary artery passes posterior to the ascending aorta to divide into the truncus anterior and the descending RPA.

Except in the right upper lobe, the pulmonary veins are generally anterior to the pulmonary arteries.

Question 41

Name the structures

Answer 41

A = Apical segmental bronchus
B = Posterior segmental bronchus
C = Anterior segmental bronchus
D = Bronchus intermedius
E = Truncus anterior
F = Carina
G = Right main pulmonary artery
H = Left main pulmonary artery
I = Right inferior pulmonary artery
J = Right superior pulmonary vein
K = Right middle lobe bronchus
L = Right lower lobe bronchus
M = Right inferior pulmonary vein
N = Left Atrium
O = Left superior pulmonary vein
P = Apicoposterior segmental bronchus
Q = Left upper lobe bronchus
R = Lingular bronchus
S = Left inferior pulmonary artery
T = Left inferior pulmonary vein

Question 42

Silhouette sign

Answer 42

Loss of normal borders between thoracic structures usually caused by a radiopaque mass that touches the border of the heart or aorta.

Loss of lung/soft tissue interface caused by a mass or fluid in the normally air filled lung. If an intrathoracic opacity is in anatomic contact with, for example, the heart border, then the opacity will obscure the border.

The sign is commonly applied to the heart, aorta, chest wall, and diaphragm.

Question 43

What feature is seen in the PA film?

Answer 43

Indistinct right heart border

ght middle lobe atelectasis can be difficult to detect in the AP film. The right heart border is indistinct on the AP film. The lateral shows a marked decrease in the distance between the horizontal and oblique fissures.

Question 44

Why is this RLL atelectasis?

Answer 44

Persistence of the R heart border

Silhouetting of the right hemidiaphragm and a triangular density posteromedially are common signs of right lower lobe atelectasis. Right lower lobe atelectasis can be distinguished from right middle lobe atelectasis by the persistence of the right heart border.

Question 45

Signs of RLL atelectasis

Answer 45

1. Silhouetting of the right hemidiaphragm
2. triangular density posteromedially
3. Right lower lobe atelectasis can be distinguished from right middle lobe atelectasis by the persistance of the right heart border.

Question 46

Horizontal lines less than 2cm long, commonly found in the lower zone periphery.

Answer 46

Kerley B lines

Question 47

Kerley B lines

Answer 47

Thickened, edematous interlobular septa.

Question 48

Locate the pneumonia: Why?

Answer 48

Right upper lobe

Above the major fissure

Question 49

Recognition features

Answer 49

right sided lucency and leftward mediastinal shift

Right sided tension pneumothorax with right sided lucency and leftward mediastinal shift.

Question 50

Unilateral upper lobe infiltrates: Cx

Answer 50

Infections

1. Tuberculosis
2. Histoplasmosis
3. Coccidioidomycosis
4. Klebsiella pneumonia

Primary lung neoplasms

Question 51

Typical location

Answer 51

Right middle and lower lung lobes

Right upper lobe is a common area of consolidation in alcoholics who aspirate in the prone position.

Question 52

Why are the RML and RLL typical sites of aspiration?

Answer 52

due to the larger caliber and more vertical orientation of the right mainstem bronchus.

Question 53

Hamman-Rich syndrome

Answer 53

Acute interstitial pneumonitis: a rare, severe lung disease that usually affects otherwise healthy individuals. There is no known cause or cure.

Acute interstitial pneumonitis is often categorized as both an interstitial lung disease and a form of ARDS.

Question 54

Right sided effusion: Cx other than standard causes

Answer 54

1. Hepatic hydrothorax
2. Meigs syndrome

Question 55

Pleural effusion appearance parameters

Answer 55

Laterality, Size

Question 56

Bilateral pleural effusion with a normally sized heart

Answer 56

1. Tumor
2. Connective tissue disease
3. Viral infection
4. CHF (less common)

Question 57

Massive pleural effusion: Cx

Answer 57

Massive effusion: more than half of hemithorax

1. Malignancy (55%)
2. Parapneumonic or empyema (22%),
3. Tuberculosis (TB) (12%).

If massive effusions are without contralateral displacement of mediastinal structures, the endobronchial obstructions by lung cancer or mediastinum fixation by mesothelioma should be considered

Question 58

sarcoidosis with the triad of hilar adenopathy, acute arthritis, and erythema nodosum

Answer 58

Löfgren syndrome

Question 59

A 50-year-old man has a history of several severe episodes of pneumonia as a child, and the subsequent development of recurrent purulent sputum production. He once again presents with the latter, and a chest x-ray reveals increased bilateral lower lung field markings suggestive of “tram tracks.” The most likely diagnosis is

Asbestosis

Aspiration pneumonia

Bronchiectasis

Dermatomyositis, with Jo-1–associated lung disease

Sarcoidosis

Answer 59

Bronchiectasis