Cardiothoracic

Question 1

In patient’s with Marfan’s syndrome, what diameter of the ascending aorta typically necessitates surgery?

Answer 1

5 cm

Question 2

In a normal patient, what diameter of the ascending aorta warrants possible surgical intervention?

Answer 2

5.5 to 6 cm

Question 3

At cardiac MR, what diseases cause transmural enhancement?

Answer 3

• Infarction (most common)
• Myocarditis, severe
• Sarcoidosis, chronic

Question 4

At cardiac MR, what diseases cause mesocardial enhancement?

Answer 4

• Hypertrophic CM
• Dilated CM
• Pulmonary hypertension

Question 5

At cardiac MR, what diseases cause subendocardial enhancement?

Answer 5

• Vascular (infarction)

- Non-vascular (amyloid, hypereosinophilic syndrome, histiocytoid CM, cardiac transplant)

Question 6

At cardiac MR, what diseases cause subepicardial enhancement?

Answer 6

• Myocarditis (most common)

- Sarcoid

Question 7

At cardiac MR, what diseases cause patchy enhancement?

Answer 7

• Sarcoid
• Amyloid
• Myocarditis

Question 8

Thymomas are associated with what clinical conditions?

Answer 8

-Myasthenia gravis
-Pure red cell aplasia
-Hypogammaglobulinemia
(paraneoplastic syndromes)
-(collagen vascular diseases)

Question 9

DDx for pericardial calcification

Answer 9

• Prior surgery (MC in the West)
• TB (MC in the world)
• Pericarditis (infection)
• Radiation
• Lupus
• Metastatic calc secondary to renal failure

Question 10

What is Loeys-Dietz syndrome?

What are its characteristic features?

Answer 10

A rare autosomal dominant disorder with multiple characteristic features: 
arterial aneurysms/dissections
frontal bossing
hypertelorism
craniosynostosis
cleft palate

Question 11

DDx cardiophrenic angle mass

Answer 11

• Fat pad
• Pericardial cyst
• Metastasis
• Lymphoma
• Hernia (Morgagni)
• Aneurysm
• Pericardial lipomatosis

Question 12

DDx for miliary nodules

Answer 12

• Infxn (TB, histo, fungal, healed varicella pneumonia)
• Mets
• Hypersensitivity pneumonitis
• Sarcoidosis
• Pneumoconioses
• Multifocal micronodular pneumocyte hyperplasia (a/w tuberous sclerosis)

Question 13

DDx for chest wall involvement/invasion

Answer 13

"BATMAN" organisms. Batman breaks down barriers
Blastomycosis
Actinomycocis
TB (75% of cases)
Mucormycosis
Aspergillus
Nocardia
-Neoplasm (cancer, lymphoma, mesothelioma)
-Cryptococcus

Question 14

What is the most common cause of coronary artery aneurysm worldwide?

Answer 14

Kawasaki disease

atherosclerosis is the MCC in the USA

Question 15

What percentage of Kawasaki patients will develop coronary artery aneurysms?

Answer 15

When Kawasaki disease is left untreated, about 15-25% will develop coronary artery aneurysms.

Question 16

What is a Blalock-Taussig shunt?

Answer 16

• End-to-end anastomosis of the subclavian artery to the pulmonary artery, performed ipsilateral to innominate artery/opposite to aortic arch
• ToF, tricuspid atresia with pulmonic stenosis

Question 17

What is a Fontan procedure?

Answer 17

1) External conduit from R atrium to pulm trunk (=venous return enter pulmonary artery directly)
2) Closure of ASD: floor constructed from flap of atrial wall and roof from piece of prosthetic material

It is not usually used in isolation, but in combination with other repair procedures in a staged manner in an attempt to correct the underlying cardiac pathology.

-The procedure attempts to bypass the right heart. Systemic circulation is redirected into the pulmonary arteries.
-It can be used in multiple situations, including:
*tricuspid atresia
*hypoplastic left heart (part of the overall repair strategy)
other types of single ventricle physiology

Question 18

What is a Glenn shunt?

Answer 18

• End-to-end shunt between the distal end of the right pulmonary artery and SVC; reserved for pts with cardiac defects in which total correction is not anticipated
• Tricuspid atresia

Question 19

What is a Mustard procedure?

Answer 19

1) Removal of atrial septum
2) Pericardial baffle placed into common atrium such that systemic venous blood is rerouted into the LV and pulmonary venous return into RV and aorta
- Complete transposition

Question 20

What is a Ross procedure?

Answer 20

The Ross procedure (or pulmonary autograft) is where a diseased aortic valve is replaced with the person’s own pulmonary valve. A pulmonary allograft (valve taken from a cadaver) is then used to replace the patient’s own pulmonary valve. Pulmonary autograft replacement of the aortic valve is the operation of choice in infants and children, but its use in adults remains controversial.

Question 21

What is the most common location for a Morgagni hernia?

Answer 21

Anterior at the right cardiophrenic angle
(90% occur on the right side)
(relatively rare; 2% of CDH)

Question 22

What is the most common location for a Bochdalek hernia?

Answer 22

most frequently left posterior diaphragm

Question 23

In what percentage of normal patients is the left hilum located higher than the right on frontal chest radiography?

Answer 23

97%. At the same level as the right in 3%. The right hilum is never higher than the left in normal subjects.

Question 24

What are CT findings that suggest malignant pleural disease (e.g. mesothelioma or metastases)?

Answer 24

1) Circumferential involvement of pleura, including visceral pleura
2) Involvement of mediastinal aspect of pleura
3) Nodularity
4) Thickness greater than 1 cm

Question 25

What percentage of fibrous tumors of the pleura are malignant?

Answer 25

12-37% (STATdx)

Question 26

What paraneoplastic syndromes are associated with localized fibrous tumor of the pleura?

Answer 26

• Hypoglycemia: Doege-Potter syndrome: Postulated production of insulin-like growth factor II
• Hypertrophic osteoarthropathy, 17-35% of cases; Pierre Marie-Bamberger syndrome: Postulated production of growth hormone-like substance
• Digital clubbing

Question 27

What organism is associated with fibrosing mediastinitis?

Answer 27

Most commonly Histoplasma capsulatum.
Multiple etiologies possible: Aspergillosis, Mucormycosis, Blastomycosis, Cryptococcosis, TB, radiation, trauma, drug reaction

Question 28

What other associated disorders may be seen in patients with fibrosing mediastinitis?

Answer 28

Other idiopathic fibroinflammatory disorders: -Retroperitoneal fibrosis

• Sclerosing cholangitis
• Riedel thyroiditis
• Orbital pseudotumor

Question 29

What imaging findings are seen in desquamative interstitial pneumonia/pneumonitis (DIP)?

Answer 29

• Seen in smokers
• Ground-glass opacity (80%): Basilar, peripheral
• Basilar reticular opacities (60%)
• Small, well-defined cysts
• Honeycombing unusual (10%)

Question 30

What is the typical appearance of alpha 1 antitrypsin deficiency in the lungs?

Answer 30

• Panlobular emphysema
• bronchiectasis (up to 40%)
• frank bullae formation
• possibly bronchial wall thickening

Question 31

DDx for bat-wing appearance on CXR

Answer 31

• Pulmonary edema
• Pulmonary hemorrhage
• Bronchopneumonia
• inhalational injury (e.g. noxious gas)
• PCP
• pulmonary alveolar proteinosis

Question 32

What are the CT findings of organizing pneumonia?

Answer 32

-patchy consolidation with a predominantly subpleural and/or peribronchial distribution
-Reverse halo sign or Atoll sign is highly specific, but only present in 20% of cases
-small, ill-defined peribronchial or peribronchiolar nodules
large nodules or masses
-bronchial wall thickening or dilatation in the abnormal lung regions
-a perilobular pattern with ill-defined linear opacities that are thicker than the thickened interlobular septa and have an arcade or polygonal appearance
-ground glass opacity or crazy paving

Question 33

DDx Bilateral GGO (Acute and Chronic)

Answer 33

Acute (PCP, pulm hemorrhage, atypical infection; viral)
Subacute/chronic:
-Subacute HP
-Resp bronchiolitis
-Adenocarcinoma with lepidic pattern
-NSIP (+ fibrosis)

Question 34

What are CT findings of subacute HP?

Answer 34

• GG opacities and ill-defined small centrilobular GG nodules
• heterogeneous or small nodular opacities: with a predominance for the mid to lower lung zones
• Mosaic pattern with air-trapping

Question 35

What are HRCT findings of acute HP?

Answer 35

• dominated by air space abnormality with no features of fibrosis
• homogeneous GG and alveolar opacities which are usually bilateral and symmetric but sometimes patchy and concentrated in the middle part and base of the lungs or in a bronchovascular distribution
• may be a lower zonal predilection in the acute form
• The combination of air trapping, normal lung can ground glass changes can give a HEAD CHEESE appearance.

Question 36

What are CXR findings of chronic HP?

Answer 36

• Findings of fibrosis: Architectural distortion, volume loss
• Mid and upper lung zone predominant
• No pleural disease or lymphadenopathy
• Sparing of or less severe findings in lung bases

Question 37

What are CT findings of chronic HP?

Answer 37

• Fibrosis: Honeycomb lung, traction bronchiectasis, architectural distortion
• Mid and upper lung zone predominance
• Lung bases less severely involved
• Superimposed subacute findings: Ground-glass opacity and small, ill-defined, centrilobular nodules

Question 38

DDx for interstitial pattern (acute and chronic)

Answer 38

Acute:
1) interstitial edema (=transudate/fluid)
2) infection (=exudate or pus: viral, PCP, mycoplasma, TB)
Chronic:
1) lymphangitic carcinomatosis
2) fibrosis
3) sarcoidosis/silicosis

Question 39

DDx crazy-paving pattern

Answer 39

1. alveolar proteinosis
2. infections (PCP, viral)
3. mucinous adenoca (former BAC)
4. pulmonary edema
5. hemorrhage
6. ARDS
7. radiation pneumonitis
8. drug reaction
9. lipoid pneumonia

Question 40

DDx centrilobular nodules

Answer 40

1. infectious bronchiolitis (e.g. TB, mycoplasma, viral)
2. aspiration
3. subacute HP (air trapping)
4. respiratory bronchiolitis
5. vasculitis/hemorrhage
   (last 3 are assoc with GG attenuation)

Question 41

DDx perilymphatic nodules

Answer 41

1. Sarcoidosis
2. Lymphangitic carcinomatosis
3. Silicosis/CWP/pneumoconiosis
4. Rarely follicular bronchiolitis (e.g. sjogren’s or RA)
5. Lymphoma rarely
6. LIP
7. Amyloidosis

Question 42

What are CT findings of silicosis?

Answer 42

• well-defined small nodules, may calcify
• centrilobular and sub pleural predominance
• confluent subpleural nodules (pseudoplaques)
• upper lobes and posterior distribution; may be diffuse
• can see progressive massive fibrosis
• calcified (egg-shell) nodes are common

Question 43

DDx random nodules

Answer 43

• Acute (infection: military TB, candidiasis, disseminated histoplasmosis)
• Chronic (metastases: thyroid, melanoma)

Question 44

DDx for mosaic perfusion

Answer 44

1) Small airways disease:
- Asthma
- Obliterative bronchiolitis (post transplant, drug, toxic fumes)
- Post infectious

2) Vascular disease (chronic PE)

Question 45

DDx cystic lung disease

Answer 45

1. LAM
2. Langerhans cell histiocytosis (LCH)
3. Lymphocytic interstitial pneumonia (LIP)
4. Birt-Hogg-Dube syndrome (rare)

Question 46

What are CT findings in LAM?

Answer 46

• thin-walled cysts with homogeneous size; throughout the lungs
• normal intervening lung
• young women (childbearing age)

Question 47

What are CT findings in LCH?

Answer 47

• Smoking-related disease
• Cysts variable sizes and shapes, thin or thick walls, bizarre
• abnormal lung parenchyma (+/- nodules)
• upper lobe predominance (relative sparing of lung bases)

Question 48

Which patients get lymphocytic interstitial pneumonia (LIP)?

Answer 48

Sjogren’s

AIDS

Question 49

What are CT findings of lymphocytic interstitial pneumonia (LIP)?

Answer 49

• Patchy bilateral ground glass opacity and consolidation
• Perilymphatic nodules
• Few cysts
• lower lobe predominance

Question 50

DDx for lung fibrosis

Answer 50

• Idiopathic (UIP/NSIP)
• Collagen vascular disease
• Chronic HP
• Drug reaction
• Asbestosis

Question 51

UIP vs. NSIP features

Answer 51

UIP:
-peripheral, lower lung
-honeycomb cysts
-reticulation
NSIP:
-ground glass
-traction bronchiectasis
-subpleural sparing

Question 52

LCH vs. LAM features

Answer 52

LCH:

• bizarre-shaped cysts
• variable wall thickness
• upper lobe (spares bases)
• nodules

LAM:

• similar sized cysts
• thin-walled
• diffuse distribution

Question 53

DDx for progressive massive fibrosis (PMF)

-Bilateral upper lobe masses > 1 cm (with calc)

Answer 53

• Silicosis
• Sarcoidosis
• CWP
• IV talc granulomatosis

Question 54

DDx for upper lobe ILD

Answer 54

• chronic HP
• sarcoidosis
• pneumoconiosis (CWP/silicosis)
• cystic fibrosis
• TB, histoplasmosis

Question 55

DDx cavitary lung lesion

Answer 55

• Cavitary pneumonia
• Pulmonary abscess
• Septic emboli (multiple)
• Tumor necrosis (e.g. SCC)
• Atypical infection (TB, fungal, Nocardia)
• Wegener’s (multiple)
• Necrobiotic nodules (in RA)

Question 56

What is empyema necessitans?

Answer 56

• Empyema necessitans refers to extension of a pleural infection out of the thorax and into the neighbouring chest wall and surrounding soft tissues
• e.g. extension of empyema outside the pleural cavity.
• Etiology: Blasto, Actinomycosis, TB, Mucormycosis, Aspergillus

Question 57

DDx “CT halo sign”

Answer 57

• invasive aspergillosis
• candidiasis
• mucormycosis
• vasculitis (Wegener’s)
• adenocarcinoma spectrum
• hemorrhage around metastasis
• Kaposi sarcoma
• post biopsy

Question 58

What is Fleischner sign?

Answer 58

Fleischner sign is a prominent central artery that can be caused either by pulmonary hypertension that develops or by distension of the vessel by a large pulmonary embolus.

Question 59

What are the most common CT findings in Churg Strauss syndrome?

Answer 59

The most common CT findings in Churg-Strauss syndrome include subpleural consolidation with lobular distribution, centrilobular nodules, bronchial wall thickening, and interlobular septal thickening.
-RadioGraphics 2007;27:617–639

Question 60

DDx “reverse CT halo sign” (aka atoll sign)

Answer 60

• Organizing pneumonia
• TB
• invasive fungal infections (mucor, aspergillus, paracoccidioidomyocosis)
• Wegener granulomatosis
• lymphomatoid granulomatosis
• sarcoid
• pulmonary infarct
• radiofrequency ablation

Question 61

DDx tracheal tumor

Answer 61

MALIGNANT:
-SCC (55%; older adults; invasive; lower third)
-Adenoid cystic carcinoma (40%; young adults; well-marginated; may cause diffuse narrowing; posterolateral)
-Mucoepidermoid (less common)
-Metastasis possible
BENIGN:
-papilloma (common children, rare in adults)
-hamartoma (fat density is diagnostic; often popcorn calc)
-adenoma (rare)

Question 62

DDx bronchial tumor

Answer 62

• Lung cancer (Most common; SCC or small cell)
• Carcinoid tumor (37% calcify)
• Mets (RCC, breast, melanoma)
• Invasion from esophageal cancer

Question 63

DDx for multiple airway masses

Answer 63

• Metastases
• Papillomatosis
• Tracheopathia osteochondroplastica
• Amyloidosis

Question 64

What are typical features of round atelectasis?

Answer 64

• Pleural disease
• Comet tail sign
• Incurving vessels and bronchi
• Peripheral mass
• Volume loss

Question 65

DDx bronchiectasis

Answer 65

Congenital:
-CF
-primary ciliary dyskinesia
-immune deficiency
-Mounier Kuhn (tracheobronchomegaly)
-Williams Campbell
-Yellow nail
Acquired:
-infection
-toxic fume exposure
-central obstruction
-recurrent aspiration
-traction (pulmonary fibrosis)

Question 66

DDx anterior mediastinal mass

Answer 66

(4 T’s)- Teratoma, thymus tumors, thyroid, terrible lymphoma

• Lymph nodes: lymphoma, mets, inflam/infectious
• Thyroid: goiter, malignancy
• Parathyroid: adenoma, carcinoma
• Thymus: thymoma, carcinoma, thymolipoma, thymic cyst
• Germ cell tumors: teratoma, seminoma
• Hematoma

Question 67

DDx middle mediastinal lesion

Answer 67

• Lymphadenopathy- mets, infection, idiopathic
• Airway- adenoid cystic carcinoma, carcinoid, mets
• Vascular- aneurysm, dissection
• Foregut malformation- bronchogenic cyst
• Pericardium- mets, cyst
• Hernias- hiatal, traumatic

Question 68

What is the cervicothoracic sign?

Answer 68

Helps discern anterior vs. posterior mediastinal masses in the superior thorax. As the anterior mediastinum ends at the level of the clavicles the upper border of an anterior mediastinal lesion cannot be visualised extending above the clavicles. Any lesions with a discernible upper border above that level must be located posteriorly in the chest, i.e. apical segments of upper lobes, pleura, or posterior mediastinum

Question 69

DDx posterior mediastinal lesion

Answer 69

• Esophageal lesions- duplication cyst, neoplasm, varices, achalasia, hiatal hernia
• Neurogenictumors-schwannoma, neurofibroma
• Vascular- descending thoracic aortic aneurysm/dissection
• Vertebral/paraspinal- hematoma, parapsinal abscess, metastases, extramedullary hematopoiesis

Question 70

DDx for diffuse mediastinal lesions

Answer 70

• fibrosing mediastinitis (a/w histoplasma infxn)
• lipomatosis
• metastases
• mediastinal infiltration (edema, infection, lymphoma)

Question 71

What is Bland-Garland-White syndrome?

Answer 71

(ALCAPA) Anomalous origin of the left coronary artery from the pulmonary artery

Question 72

DDx airway narrowing

Answer 72

-Neoplasm
Circumferential:
-Amyloidosis (diffuse; ± Ca++)
-Wegener granulomatosis (usually focal) 
-Sarcoid (look for other findings)
-Iatrogenic (focal, post intubation)
Spares membranous portion:
-Relapsing polychondritis (malacia/strictures, ± Ca++)
-Tracheopathia osteochondroplastica (Ca++)

Question 73

What is the CXR staging of sarcoidosis?

Answer 73

• Stage 0- Dx, but no evidence of dz.
• Stage 1- Adenopathy only
• Stage 2- Adenopathy + lung findings
• Stage 3- Lung disease only
• Stage 4- Fibrosis

Question 74

DDx of honeycombing on HRCT

Answer 74

• Idiopathic pulmonary fibrosis
• Connective tissue disease
• drug-related fibrosis
• asbestosis
• hypersensitivity pneumonitis
• sarcoidosis
• NSIP (mild honeycombing)
• Pneumoconioses other than asbestosis
• Post ARDS fibrosis

Question 75

DDx of common causes of a UIP pattern

Answer 75

• IPF
• Connective tissues disease (RA most common)
• drug fibrosis
• asbestosis

Question 76

What diseases have upper lobe predominance at HRCT?

Answer 76

• Sarcoidosis
• TB
• prior fungal infection
• Pneumoconioses (CWP, silicosis. beryllium, talc)
• Radiation fibrosis
• Ankylosing spondylitis

Question 77

What diseases have lower lobe predominance at HRCT?

Answer 77

• IPF
• Connective tissue disease
• drug fibrosis
• asbestosis
• HP
• chronic aspiration

Question 78

What are typical CT findings of Kaposi’s sarcoma?

Answer 78

• earliest manifestation is thickening of the peribronchovascular interstitium
• Most suggestive feature is large (>1 cm), irregular, flame-shaped nodules with a preibronchovascular distribution
• Interlobular septal thickeing
• pleural effusions
• mediastinal lymphadenopathy

Question 79

What infection is closely correlated with development of post-transplant lymphoproliferative disorder (PTLD)?
PTLD occurs with what types of tranplants?
When does PTLD typically occur?

Answer 79

• EBV infection
• may occur with solid organ or bone marrow transplantation
• Presentation within 1 year of transplantation is most typical.

Question 80

What are HRCT findings of post-transplant lymphoproliverative disorder?

Answer 80

Findings resemble primary or secondary pulmonary lymphoma.

• Single or multiple pulmonary nodules, masses, or areas of consolidation
• Often with mediastinal and/or hilar lymphadenopathy
• DDx includes infections (esp. fungal), organizing pneumonia, graft vs host disease

Question 81

DDx pleural based lesion

Answer 81

• pleural tumours:
• ->solitary fibrous tumour of the pleura (pleural fibroma)
• ->mesothelioma
• ->localised mediastinal malignant mesothelioma,
• metastatic pleural disease, particularly from adenocarcinomas, e.g. bronchogenic adenocarcinoma, breast cancer, ovarian cancer, prostate cancer, gastrointestinal adenocarcinoma, RCC
• lymphoma: pleural lymphoma
• invasive thymoma
• lipoma
• loculated fluid (on plain film): pleural effusion (pseudotumour), empyema, hemothorax
• mass related to ribs or chest wall, e.g. Ewing sarcoma of chest wall, Askin tumour
• mass related to the intercostal nerve; intercostal nerve neurilemmoma
• splenosis
• infection including tuberculosis

Question 82

For a cavitary lesion, what is the significance of the wall thickness (e.g. benign vs. malignant)?

Answer 82

-Wall thickness is indicative of malignancy:
15 mm: 85% of lesions are malignant (most commonly SCC)
-(Primer)

Question 83

What is the risk of tumor seeding with percutaneous lung biopsy?

Answer 83

Extremely uncommon (1:20,000)
-Primer

Question 84

What is the risk of pneumothorax following percutaneous lung biopsy?

Answer 84

-25% risk of PTX.
-5-10% require a chest tube
(Primer)

Question 85

What is the minimum dose required to produce radiation pneumonitis?

Answer 85

30 Gy. Acute phase of radiation pneumonitis usually appear 3 weeks after treatment. Fibrosis usually occurs after 6-12 months.
(Primer)

Question 86

DDx for calcified lung metastases

Answer 86

-Bone tumors mets: osteosarcoma, chondrosarcoma
-Mucinous tumors: ovarian, thyroid, pancreas, colon, stomach
-Metastases after chemotherapy
(Primer)

Question 87

DDx cavitary lung lesions

Answer 87

Abscess:

• pyogenic: Staph > Klebsiella > Strep
• Immunocompromised pt: Nocardia, Legionella

Cavitary tumor:

• SCC (primary SCC > H&N SCC > sarcoma mets)
• Sarcoma
• Lymphoma
• TCC of the bladder

Cavitated granulomatous mass (often multiple)

• Fungus: Aspergillus, coccidio,
• TB
• Sarcoidosis, Wegener’s, rheumatoid nodules
• Necrotizing granulomatous vasculitis

Cavitated post traumatic hematoma

Question 88

How many segments make up the left lower lobe? What are their names?

Answer 88

4 (apical, anteromedial basal, posterior basal, lateral basal)

Question 89

What is a pulmonary sling?

Answer 89

Pulmonary artery sling is a rare condition in which the left pulmonary artery anomalously originates from a normally positioned right pulmonary artery. The left pulmonary artery then progresses posteriorly over the right main bronchus near its origin from the trachea, traverses between the trachea and the esophagus and enters the left hilum. Symptoms include cyanosis, dyspnea and apneic spells. It almost always requires surgical intervention. Rarely it is asymptomatic and is detected incidentally in asymptomatic adults.

Question 90

DDx tracheobronchial thickening

Answer 90

• relapsing polychondritis
• tracheobronchial amyloidosis
• tracheobronchopathia osteochrondroplastica

Question 91

What is scimitar syndrome?

Answer 91

• aka pulmonary venolobar syndrome, is a rare congenital syndrome that is more common girls.
• It consists of PAPVR below the diaphragm, hypoplasia or aplasia of one or more lobes of the right lung, and an absent or small associated pulmonary artery with primarily systemic arterial supply to the lung.

Question 92

What is “shrinking lung” syndrome?

Answer 92

Progressive loss of lung volume. Common manifestation of SLE. Thought to be due to diaphragmatic dysfunction or pleuritic chest pain with restriction of respiration. CXRs show progressive loss of volume in the lower lobes, sometimes a/w linear or focal areas of atelectasis, but obvious parenchymal abnormalities are usually absent.

Question 93

What is “hot tub” lung?

Answer 93

MAC infection with hypersensitivity pneumonitis

• patchy GG centrilobular nodules or small nodules with air trapping
• a/w exposure to contaminated hot tubs

Question 94

What does RECIST stand for?

Answer 94

Response Evaluation Criteria for Solid Tumors (created in 2000 and revised in 2009)

Question 95

By RECIST criteria, what is considered “partial response” to treatment?

Answer 95

Partial response: >30% decrease in sum of longest diameters (SLD) of target lesions

Question 96

By RECIST criteria, what is considered “progressive disease”?

Answer 96

Progressive disease:

• > 20% increase in SLD of target lesions with an absolute increase of >=5 mm;
• appearance of new lesions

Question 97

By RECIST criteria, what is considered “complete response” to treatment?

Answer 97

Disappearance of all target lesions or lymph nodes

Question 98

What measurements are diagnostic for tracheobronchomegaly (Mounier-Kuhn disease)?

Answer 98

Trachea > 3 cm
Bronchi >2.4 cm
Often see tracheal diverticula

Question 99

DDx unilateral lucent hemithorax

Answer 99

“CRAWLS”
C: contralateral lung increased density, e.g. supine pleural effusion
R: rotation
A: air, e.g. pneumothorax
W: wall, e.g. chest wall mass, mastectomy, polio, Poland syndrome
L: lungs, e.g. airway obstruction, emphysema, Swyer-James syndrome, unilateral large bullae, large pulmonary embolus
S: scoliosis

Question 100

DDx lucent rib lesion

Answer 100

F: fibrous dysplasia
E: enchondroma
M: metastasis/myeloma
A: ABC
L: lymphoma
E: eosinophilic granuloma

Question 101

What is an Askin tumor?

Answer 101

• Essentially an Ewing sarcoma of the chest wall. It is a type of primitive neuroectodermal tumor.
• Demographics of these chest wall tumors are similar to those of Ewing sarcomas elsewhere, seen predominantly in children and young adults
• On CT these tumors are typically ill-defined with heterogeneous attenuation and multiple areas of cystic degeneration. Solid components demonstrate enhancement following the administration of contrast.

Question 102

Following pneumonectomy, how soon should the pneumonectomy space fill with fluid?

Answer 102

Two thirds of the hemithorax fills with fluid in 4 to 7 days; it is important that successive films demonstrate gradual fill-in and that the residual air bubble does not get bigger; an air bubble increasing in size is suggestive of a bronchopleural fistula.

Question 103

How often does pneumothorax occur following central venous catheter insertion?

Answer 103

About 5% of cases (Case Review Series)

Question 104

How soon after mantle radiation does radiation pneumonitis occur?

Answer 104

Approx 6 to 8 weeks

Question 105

What features make a lung cancer unresectable?

Answer 105

• T4 tumors (invasion of mediastinal structures or vertebral bodies and include tumor nodules in a separate lobe of the same lung)
• N3 lymph nodes (scalene, supraclavicular, contralateral hilar LN)
• Metastatic disease (M1a and M1b) (tumor nodules in the contralateral lung, malignant pleural effusions, pleural mets, distant mets)

Question 106

What features make a superior sulcus tumor unresectable?

Answer 106

• Chest wall invasion does not necessarily make it unresectable.
• invasion of more than 50% of a vertebral body
• brachial plexus invasion above T1 nerve level
• esophageal or tracheal invasion

Question 107

DDx centrilobular ground glass nodules

Answer 107

• subacute HP
• Resp bronchiolitis; RB-ILD
• follicular bronchiolitis
• PCP
• pulmonary LCH

Question 108

Which type of immunologic reaction is associated with hypersensitivity pneumonitis?

Answer 108

Type 4

Question 109

What is the recommended follow-up (Flesicherner guidelines) to evaluate a 4 mm solid nodule incidentally detected in a male with a smoking history?

Answer 109

CT follow-up at 12 months. If unchanged and of solid (soft tissue) attenuation, no further follow-up is necessary.

Question 110

DDx for peripheral consolidation (photographic negative of pulmonary edema aka “reverse bat-wing appearance”)

Answer 110

• chronic eosinophilic pneumonia
• cryptogenic organizing pneumonia (COP)
• pulmonary infarcts with or without infarction
• vasculitides
• Loffler’s syndrome

Question 111

What is the radiologic definition of tracheomegaly?

Answer 111

A coronal tracheal diameter of >25 mm in men and >21 mm in women, as measured 2 cm above the aortic arch on a standard PA erect CXR.

Question 112

Which entity that narrows the airway characteristically spares the posterior wall of the trachea?

Answer 112

Tracheopathia osteochondroplastica

Question 113

How long after coronary stent placement should you wait before performing MRI?

Answer 113

6 weeks in general. This allows endothelialization to occur, which in theory, prevents stent dislodgement.

Question 114

Which procedure/shunt connects the subclavian artery to the pulmonary artery?

Answer 114

Blalock-Taussig shunt: creates a connection b/w the systemic and arterial systems and is a palliative procedure that increases systemic arterial oxygenation by increasing blood flow to the pulmonary artery.

Question 115

Which procedure creates a conduit between the right atrium and the pulmonary artery?

Answer 115

Fontan procedure

Question 116

Which procedure creates an atrial switch using an intra-atrial baffle made of pericardium?

Answer 116

Mustard procedure

Question 117

Which procedure connects the SVC with the pulmonary artery?

Answer 117

Glenn procedure

Question 118

Which of the following is the MOST common complication following surgical repair of tetralogy of Fallot?

Answer 118

Pulmonary regurgitation is the most common complication of transannular or right ventricular outflow patch repair and can lead to right ventricular dysfunction over time.

Question 119

What is the MOST common pulmonary vein anatomic variation?

Answer 119

Separate vein draining the right middle lobe. This variation is noted in approximately 30% of patients.

Question 120

What are the findings in LV non-compaction syndrome?

Answer 120

• Ratio of non-compacted to compacted myocardium >2.3 at end diastole
• decreased systolic function
• hypokinesis of the affected walls
• may show DGE on MR

Question 121

What is the most common congenital cardiac malformation?

Answer 121

bicuspid aortic valve (1-2%)

Question 122

What is the most common associated cardiovascular abnormality associated with bicuspid aortic valve?

Answer 122

Coarctation (50-80%)
Aortic interruption (36%)
VSD (20%)

Question 123

Approximately what percentage of patients with acute PE will develop chronic thromboembolic pulmonary hypertension (CTEPH)?

Answer 123

approx 4%

Question 124

DDx for branching/endobronchial lesions

Answer 124

• mucoid impaction (bronchiectasis, proximal obstruction)
• slow growing endobronchial tumor (e.g. carcinoid)
• foreign body
• bronchial atresia (central nodule/mass + distal hyper lucency [air trapping])

Question 125

DDx single cavitary lung lesion

Answer 125

1) Infection
- TB
- fungal infection (Aspergillus)
- necrotizing pneumonia/abscess
- Nocardia
- Echinococcus
2) Neoplasm (SCC)
3) Congenital
- CPAM
- bronchigenic cyst (infected)

Question 126

DDx multiple cavitary lesions

Answer 126

“TIVI”

• Tumour: SCC, multicentric adenoCA, mets (H&N, colon), papillomatosis
• Infection: septic emboli, TB, pyogenic, fungal
• Vascular: septic emboli, vasculitis, PE
• Inflammation: Wegener’s, RA nodules

Question 127

DDx circumferential tracheal wall disease

Answer 127

1. Wegener’s (subglotic)
2. Amyloidosis (Ca+)
3. Sarcoidosis (more stenosis)
4. Papilomatosis (nodules in mucosa)

Question 128

DDx tracheal wall disease sparing the posterior membrane

Answer 128

Relapsing polychondritis

Tracheobronchopathia osteochondroplastica

Question 129

DDx enhancing lymph nodes

Answer 129

• melanoma
• RCC
• thyroid carcinoma
• Castleman’s disease

Question 130

DDx right paratracheal mass

Answer 130

• Vascular (right aortic arch, dilated azygous vein, aberrant R SCA, SVC dilation)
• bronchogenic cyst
• thyroid goitre
• adenopathy
• neurogenic- vagus nerve

Question 131

DDx unilateral pleural thickening

Answer 131

• post TB empyema
• post healed hemothorax
• pleural metastases
• mesothelioma
• pleurodesis

Question 132

DDx bilateral pleural thickening

Answer 132

• Asbestos-related pleural disease
• pleural metastases
• connective tissue diseases (e.g. RA, SLE)
• Uremia

Question 133

DDx low attenuation lymph nodes

Answer 133

• TB
• metastaes- testicular, SCC
• Treat/high grade lymphoma
• Whipple’s disease

Question 134

DDx for central bronchiectasis

Answer 134

• ABPA (allergic bronchopulmonary aspergillosis)
• cystic fibrosis
• Mounier Kuhn syndrome
• Williams-Campbell syndrome

Question 135

DDx for fleeting infiltrates

Answer 135

• eosinophilic pneumonia
• organizing pneumonia
• ABPA
• vasculitis

Question 136

What are the different types of TAPVR?

Answer 136

• Type I: Supracardiac TAPVR
• ->”Vertical” common pulmonary vein carries blood from both lungs and joins left innominate vein
• Type II: Cardiac TAPVR
• ->Common pulmonary vein joins coronary sinus or right atrium directly
• Type III: Infracardiac TAPVR
• ->Common pulmonary vein traverses diaphragm to join portal vein, ductus venosus, or inferior vena cava

Question 137

What diseases are associated with necrobiotic lung nodules?

Answer 137

Rheumatoid and IBD (UC more than CD)

Question 138

DDx for cavitary lung lesions

Answer 138

“CAVITY”
Cancer (SCC, metastases most likely from SCC)
Autoimmune (Wegener, RA)
Vascular (septic emboli, bland emboli)
Infection (pulmonary abscess, TB)
Trauma (pneumatoceles)
Youth (CPAM, pulmonary sequestration, bronchogenic cyst)

Question 139

DDx for lung consolidation

Answer 139

5 things:

1. infection
2. hemorrhage
3. cells (cancer)
4. protein (alveolar proteinosis)
5. fluid (alveolar edema)

Question 140

What is the upper limit of normal for diameter of the right or left main pulmonary arteries?
Inter lobar artery?

Answer 140

• 2 cm

- 1.5 cm on CXR

Question 141

What is a Ghon focus?

What is a Ranke complex?

Answer 141

A Ghon lesion or focus represents a calcified tuberculous caseating granuloma (tuberculoma) and represents the sequelae of primary pulmonary tuberculosis infection.

When associated with a calcified ipsilateral hilar node, it is known as a Ranke complex.

Question 142

What is the inversion time in cardiac MR for nulling the myocardium?

Answer 142

• Approx 300 msec for normal myocardium
• IR gradient echo sequence
• Images taken 5-15 min after IV contrast

Question 143

Most common cardiac mass?

Answer 143

thrombus (usually left atrium or LAA, but can be RA or LV apex)

Question 144

Most common benign cardiac tumor?

Answer 144

myxoma

-look for stalk attaching to near fossa ovalis

Question 145

Most common malignant cardiac mass?

Answer 145

metastases

Question 146

Most common primary cardiac malignancy?

Answer 146

angiosarcoma

Question 147

Normal pericardial thickness

Answer 147

2 mm

Question 148

Most common pericardial malignancy?

Answer 148

Mets&raquo_space;> primary (mesothelioma)

Question 149

Pulmonary arterial hypertension pressure?

Answer 149

PAH is regarded as a mean pulmonary artery pressure (mPAP) > 25 mm Hg in the setting of normal or reduced cardiac output and a normal pulmonary capillary wedge pressure

Question 150

DDx for fleeting (migrating) infiltrates

Answer 150

• ABPA
• organizing pneumonia
• eosinophilic pneumonia
• vasculitis

Question 151

DDx hyperdense mass or consolidation in the lung

Answer 151

• amiodarone lung
• talcosis
• round atelectasis (after IV contrast)
• lung cancer is never hyperdense

Question 152

What are the classic radiographic findings of scimitar syndrome?

Answer 152

• small right hilum and small right hemithorax
• dextroposition of the heart as a result of rightward mediastinal shift
• curved vessel that courses inferiorly toward the right hemidiaphragm

Question 153

DDx multiple calcified pulmonary nodules

Answer 153

1) Infection: Histoplasmosis, Tuberculosis, healed varicella
2) Inhalational disease: Silicosis
3) Miscellaneous: Hypercalcemia, Mitral stenosis, Alveolar microlithiasis

Question 154

What makes a lung cancer unresectable?

Answer 154

• extrathoracic or contralateral lung metastases
• malignant pleural or pericardial effusion
• contralateral or scalene/supraclavicular LN
• significant invasion of non-resectable structures

Question 155

What is Williams-Campbell syndrome?

Answer 155

• Rare type of cystic bronchiectasis
• Due to defective cartilage
• CT can show areas of central cystic bronchiectasis with distal regions of air trapping.
• Air fluid levels are a very specific sign of bronchiectasis, and are not usually seen in patients with lung cysts.

Question 156

DDx bubbly lucencies in a pulmonary nodule

Answer 156

Bubbly lucencies may be seen within an SPN in patients with:
-adenocarcinoma, 
-lymphoma
-sarcoidosis
-organizing pneumonia 
(RG 2014)

Question 157

When should Fleischner criteria not be used in evaluating a SPN?

Answer 157

Fleischner Society recommendations do not apply
to patients with a history of malignancy, young patients (those who are less than 35 years old and, thus, have a low risk for lung cancer), and patients with a fever because the nodules may be infectious.
*(RG 2014)

Question 158

DDx upper lung bilateral pulmonary pathologies

Answer 158

“CASSET P”

• Cystic fibrosis
• Ankylosing spondylitis
• Sarcoidosis
• Silicosis
• Eosinophilic granuloma (LCH)
• TB
• PCP

Question 159

DDx lower lung bilateral pulmonary pathologies

Answer 159

“BAD RASH”

• Bronchiolitis obliterates w organizing pneumonia (BOOP)
• Asbestosis
• DIP, Drugs (INH, nitrofurantoin, hydrazine, amiodarone, chemo drugs)
• Rheumatic disease
• Aspiration (chronic)
• Scleroderma
• Hamman Rich (acute interstitial pneumonitis)

Question 160

What percentage of pulmonary AVM are associated with osler Weber rendu syndrome?

Answer 160

70%

Question 161

DDx broncholithiasis

Answer 161

• histoplasmosis
• TB
• actinomycosis
• Coccidioidomycosis, cryptococcosis
• silicosis

Question 162

DDx pleural thickening with calcification

Answer 162

• fibrothorax (e.g. post hemothorax, pyothorax, radiation tx, CVD)
• talc pleurodesis
• asbestos related pleural disease
• TB, histo

Question 163

DDx acyanotic with shunt vascularity

Answer 163

• VSD (LA enlargement, normal AA)
• PDA (LA enlargement, prominent AA)
• ASD (no LAE)
• PAPVC and sinus venosus ASD (no LAE)

Question 164

DDx acyanotic with normal pulmonary vascularity

Answer 164

• Aortic stenosis
• Coarctation
• Pulmonic stenosis
• Mitral stenosis (LA enlargement)

Question 165

DDx cyanotic with increased vascularity

Answer 165

5 T’s

• TGA (most common)
• Truncus arteriosis
• TAPVC
• Tricuspid atresia (if TGA)
• Tingle ventricle

Question 166

DDx cyanotic with normal vascularity

Answer 166

With cardiac enlargement:

• Ebstein’s anomaly
• Pulmonic atresia
• Tricuspid atresia (if no TGA)

Without cardiac enlargement:
*TOF