Thoracic 2 Flashcards

Question 1

Q

Emphysema

Answer

A

Permanent enlargement of the airspaces distal to the terminal bronchioles accompanied by destruction of the alveolar wall without clear fibrosis

Question 2

Q

Chest radiograph findings of emphysema

Answer

A

Flattening of the diaphragm due to hyperinflation
Increased AP diameter due to hyperinflation
Large retrosternal clear space
Paucity/pruning of vessels

Question 3

Q

Definition of flattening of the diaphragm

Answer

A

Diaphragmatic dome less than 1.5 cm above a ling drawn between the costophrenic and cardiophrenic sulci

Question 4

Q

Saber sheath trachea

Answer

A

Diffuse narrowing of the trachea from O -> I on axial slices and chest radiograph

Note: This is fairly specific for COPD.

Question 5

Q

What are the main types of pulmonary emphysema?

Answer

A

Centrilobular
Panlobular
Paraseptal

Question 6

Q

How does centrilobular emphysema appear?

Answer

A

Upper zone predominant centrilobular lucencies with a central dot (representing the bronchovascular bundle within the secondary pulmonary lobule)

Question 7

Q

Lower lobe predominant emphysema…

Answer

A

Think pan lobular emphysema in pts with alpha-1 antitrypsin deficiency or prior IV Ritalin use

Question 8

Q

Subpleural lucencies that look like honeycombing, but is less than 3 bubbles thick…

Answer

A

Think paraseptal emphysema

Note: This can be smoking-related or idiopathic.

Question 9

Q

Which trip of emphysema is most associated with smoking?

Answer

A

Centrilobular emphysema

Question 10

Q

What is asbestosis?

Answer

A

A form of pulmonary fibrosis secondary to exposure to asbestos

Question 11

Q

How can you distinguish asbestosis from usual interstitial pneumonia?

Answer

A

Look for parietal pleural thickening, which suggests asbestosis

Question 12

Q

How long does it usually take between initial exposure to asbestos and development of lung cancer or pleural mesothelioma?

Question 13

Q

Absestos exposure increases the risk of which extra pulmonary cancers?

Answer

A

Peritoneal mesothelioma
GI cancer
Renal cancer
Laryngeal cancer
Leukemia

Question 14

Q

What is the earliest pleural-based finding secondary to asbestos exposure?

Answer

A

Benign pleural effusions

Note: Even these take about 5 years to develop after exposure.

Question 15

Q

Chest radiograph demonstrating “holly-leaf” scattered pleural thickening bilaterally sparing the apices and costophrenic angles…

Answer

A

Think pleural plaques in the setting of asbestosis

Note: Plaques develop about 20-30 years after exposure and may calcify after about 40 years.

Question 16

Q

Rounded consolidation with “comet tail” in an adult adjacent to some pleural thickening…

Answer

A

Think round atelectasis

Note: If there is not adjacent pleural thickening, this is suspicious for cancer and should get a PET/CT and/or biopsy.

Question 17

Q

What is the typical distribution of pneumoconiosis?

Answer

A

Upper lobe predominant and centrilobular (due to pathogenic particles being inhaled)

Note: Perilymphatic nodules are also common, especially in silicosis and coal workers pneumoconiosis.

Question 18

Q

Risk factors for silicosis

Answer

A

Mining
Quarry workers

Question 19

Q

Multiple nodular opacities with upper lobe predominance and hilar nodes with eggshell calcifications in a pt who used to be a miner…

Answer

A

Silicosis

Question 20

Q

Large masses in the bilateral upper lobes with radiating strands in a pt who used to be a miner…

Answer

A

Progressive massive fibrosis (complicated form of silicosis/coal workers pneumoconiosis)

Question 21

Q

Cavitation in the setting of silicosis…

Answer

A

Think tuberculosis

Note: Silicosis triples your risk of TB.

Question 22

Q

How can you differentiate cancer from progressive massive fibrosis

Answer

A

Get an MRI. Progressive massive fibrosis should be T2 dark, whereas cancer would be T2 bright

Question 23

Q

Progressive massive fibrosis

Answer

A

A complicated form of silicosis or coal workers pneumoconiosis resulting in large masses in the upper lobes with radiating strands

Question 24

Q

Multiple nodular opacities with calcifications showing a central nodular dot in a perilymphatic distribution in a pt who used to be a miner…

Answer

A

Think coal workers pneumoconiosis

Question 25

Q

Generalized granulomatous disease with hilar adenopathy and upper lobe predominant reticular opacities in a pt who used to work in aircraft/space manufacturing…

Answer

A

Think berylliosis

Question 26

Q

Risk factors for berylliosis

Answer

A

Exposure to metals used in aircraft and space industries

Question 27

Q

Silo filler’s disease

Answer

A

Pulmonary edema and/or ARDS due to exposure to nitrogen dioxide from silage on farms

Question 28

Q

Acute respiratory distress in a farm worker with extensive pulmonary edema on CT…

Answer

A

Think silo fillers disease (pulmonary edema secondary to nitrogen dioxide exposure from farm silage)

Question 29

Q

Hyperdense pulmonary micronodules with coalescent masses and ground glass opacities in a pt with history of IV drug use…

Answer

A

Think talcosis secondary to IV administration of ground tablets

Question 30

Q

What is at the center of the secondary pulmonary lobule?

Answer

A

Terminal bronchiole and accompanying pulmonary artery

Note: The pulmonary veins and lymphatics are located in the periphery of the secondary lobule.

Question 31

Q

What distribution pattern is most likely if you see many pulmonary nodules without any abutting the pleural surfaces?

Answer

A

Centrilobular

Question 32

Q

Best way to determine the distribution pattern of pulmonary nodules

Answer

A

Look for nodules abutting pleural surfaces (if there aren’t any, the pattern is likely centrilobular)

If there are pleural-based nodules, look for a subpleural/peribronchovascular predominance (perilymphatic distribution) or no clear distribution (random)

Question 33

Q

What is the major differential for perilymphatic pulmonary nodules?

Answer

A

Sarcoidosis (90% of cases)
Lymphangitic carcinomatosis
Silicosis

Question 34

Q

What is the major differential for randomly distributed pulmonary nodules?

Answer

A

Miliary TB
Hematogenous spread of metastases
Fungal infection

Question 35

Q

What is the major differential for centrilobular pulmonary nodules?

Answer

A

Infection
Respiratory bronchiolitis- ILD
Hypersensitivity pneumonitis (if nodules are ground glass)

Question 36

Q

What is the major differential for interlobular septal thickening?

Answer

A

Pulmonary edema (smooth and symmetric)
Lymphangitic carcinomatosis (nodular and asymmetric)

Question 37

Q

Honeycombing

Answer

A

Multiple layers of cysts in a subpleural location, a hallmark of UIP

Note: If there is only one row of cysts, its more likely parasepmtal emphysema.

Question 38

Q

What is the first finding of UIP on chest radiographs?

Answer

A

Reticular opacities in the posterior costophrenic angle

Question 39

Q

Basilar predominant opacities with traction bronchiectasis and honeycombing…

Answer

A

Definite UIP

Note: Do not biopsy if it’s definite UIP.

Question 40

Q

Criteria for “definite” UIP

Answer

A

Honeycombing
Reticular opacities
Subpleural and basal predominant
Absence of inconsistent features (ground glass opacities more pronounced than reticular opacities, air trapping involving 3 or more lobes)

Question 41

Q

Pulmonary fibrosis with biopsy demonstrating “heterogeneous” histology…

Question 42

Q

What are common causes of UIP

Answer

A

Idiopathic (idiopathic pulmonary fibrosis)
Collagen-vascular diseases (e.g. Rheumatoid arthritis, scleroderma)
Sarcoidosis

Question 43

Q

How can you differentiate UIP from chronic hypersensitivity pneumonitis?

Answer

A

Chronic HP should be mid-upper lobe predominant

Air trapping involving 3 or more lobes also favors chronic HP

Question 44

Q

Pulmonary fibrosis greatly increases the risk of lung cancer. Where does lung cancer most often arise in these pts?

Answer

A

Lower lobes
The interface between the fibrotic cysts and normal lung

Question 45

Q

In a pt with pulmonary fibrosis, you identify progressive wall thickening of a pulmonary cyst…

Answer

A

Suspicious for cancer

Note: Enlarging pericystic nodules are likewise very suspicious for cancer.

Question 46

Q

What are the two types of NSIP?

Answer

A

Cellular (ground glass alone) and fibrotic (reticulations and traction bronchiectasis)

Question 47

Q

What is the most common interstitial lung disease in scleroderma?

Question 48

Q

Pulmonary fibrosis with a lower lobe and peripheral predominance that demonstrates subpleural sparing…

Question 49

Q

Respiratory bronchiolitis-ILD

Answer

A

A smoking-related pulmonary disease that appears as apical centrilobular ground glass nodules

Question 50

Q

Desquamative interstitial pneumonia

Answer

A

A severe form of smoking-related respiratory bronchiolitis where there are diffuse ground glass opacities with a patchy/subpleural distribution

Question 51

Q

Peripheral, lower-lobe predominant ground glass opacities with small cystic spaces in a pt with a long extensive history of smoking…

Answer

A

Think desquamative interstitial pneumonia (severe form of respiratory bronchiolitis-ILD)

Question 52

Q

Why are the ground glass nodules of respiratory bronchiolitis in a centrilobular distribution?

Answer

A

The ground glass nodules are due to macrophages filling up the terminal bronchioles

Question 53

Q

African American female in her 30s…

Answer

A

Think sarcoidosis

Question 54

Q

Epidemiology of sarcoidosis

Answer

A

Usually presents in 20s or 30s
More common in black females

Question 55

Q

What laboratory abnormalities are associated with sarcoidosis?

Answer

A

Elevated angiotensin-converting enzyme (ACE)
Hypercalcemia

Question 56

Q

Bilateral hila and right paratracheal lymphadenopathy where the lymph nodes do not abut the cardiac border…

Answer

A

Think sarcoidosis (1-2-3 sign, Garland triad)

Note: This is equivalent to the lambda sign on Gallium scans. If the lymph nodes abut the cardiac border, consider lymphoma.

Question 57

Q

Bilateral hilar lymph node enlargement, arthritis, and erythema nodosum…

Answer

A

Acute sarcoidosis (AKA Lofgren syndrome)

Question 58

Q

Perilymphatic nodules with an upper lobe predominance and associated lymphadenopathy…

Answer

A

Think sarcoidosis

Question 59

Q

Upper lobe conglomerate masses with satellite nodules…

Answer

A

Think sarcoidosis (CT galaxy sign)

Note: Can also be seen with tuberculosis.

Question 60

Q

What are the stages of sarcoidosis?

Answer

A

0 (normal CXR)
1 (hilar/mediastinal lymph nodes)
2 (nodal and pulmonary parenchymal disease)
3 (parenchymal disease only)
4 (end stage fibrosis)

Question 61

Q

What are the two classic signs of sarcoidosis on Gallium scans?

Answer

A

Lambda sign (gallium uptake resembling lambda symbol due to bilateral hilar and right paratracheal lymphadenopathy)
Panda sign (gallium uptake in the lacrimal glands, nasopharynx, and parotid glands giving the appearance of a panda face)

Question 62

Q

Immediate complications of lung transplant (<24 hours)

Answer

A

Donor-recipient size mismatch
Hyperacute rejection

Question 63

Q

Donor-recipient size mismatch complication following lung transplant

Answer

A

When there is a mismatch between the size of the donor lung and the recipients thoracic cavity (a mismatch of up to 25% is considered fine)

Question 64

Q

Pathophysiology of hyper acute rejection following lung transplant

Answer

A

HLA or ABO antigen incompatibility

Note: This is rapid and often fatal.

Answer 61

A

Hyperacute rejection secondary to HLA/ABO antigen incompatability

Answer 62

A

Repercussion injury
Air leak/persistent pneumothorax

Answer 63

A

Reperfusion injury (noncardiogenic pulmonary edema secondary to reperfusion ischemia)

Answer 64

A

Acute rejection (+/- cryptogenic organizing pneumonia)
Bronchial anastomotic complications (leaks in first month, stenoses later in months 2-4)

Answer 65

A

Acute rejection

Note: Should improve with steroids.

Answer 66

A

Bronchial anastomotic leak (usually occurs in the first month)
Bronchial anastomotic stenosis (usually develops 2-4 months s/p transplant)

Answer 67

A

Think cytomegalovirus infection

Answer 68

A

Cytomegalovirus infection

Note: This is rare in the first 2 weeks s/p transplant.

Answer 69

A

Chronic rejection
Cryptogenic organizing pneumonia
Post-transplant lymphoproliferative disorder (PTLD)
Upper lobe fibrosis

Answer 70

A

Chronic rejection (bronchiolitis obliterans)

Answer 71

A

Epstein Barr virus infection (90% of cases)

Answer 72

A

50% at 5 years s/p transplant

Answer 73

A

Think chronic rejection/bronchiolitis obliterans

Answer 74

A

Sarcoidosis (approximately 35% of cases recur following transplant)

Answer 75

A

Pulmonary disease caused by surfactant accumulation in the alveoli and terminal bronchioles leading to a crazy paving appearance

Note: Associated with smoking.

Answer 76

A

Interlobular septal thickening with ground glass opacities, classically seen with pulmonary alveolar proteinosis on multiple choice tests

Note: In real life, crazy paving is also seen with pulmonary edema/hemorrhage, bronchoalveolar carcinoma, acute interstitial pneumonia, and COVID.

Answer 77

A

Nocardia infections (including Nocardia brain abscesses)

Answer 78

A

Alymphoplasia

Answer 79

A

Pulmonary fibrosis

Answer 80

A

Bronchoalveolar lavage

Answer 81

A

Central, symmetric crazy paving that spares the apices and costophrenic angles

Answer 82

A

Endogenous (due to a post obstructive process leading to a buildup of lipid-laden macrophages)
Exogenous (aspiration of oils/hydrocarbons)

Answer 83

A

Aspiration of oils/hydrocarbons:

Mineral oil laxative use
Vegetable/animal oil aspirations
Hydrocarbon exposure
Fire eating/blowing oils

Answer 84

A

Think lipoid pneumonia due to mineral oil (laxative) aspiration

Answer 85

A

Soft tissue windows are usually used to demonstrate fat within a pulmonary opacity, so think hamartoma or lipoid pneumonia

Answer 86

A

Fibroblast proliferation leading to deposition of granulation tissue within the alveolar spaces

Answer 87

A

Idiopathic (cryptogenic OP)
Post-infectious
Certain drugs (e.g. Amiodarone)
Collagen vascular diseases
Fumes

Answer 88

A

Think post-infectious organizing pneumonia

Note: Treatment is with steroids.

Answer 89

A

A crescent of consolidation surrounding a ground glass opacity, classically seen in organizing pneumonia

Answer 90

A

Think chronic eosinophilic pneumonia

Note: Organizing pneumonia looks the same, but labwork should show eosinophilia.

Answer 91

A

Asthma (50% of cases)

Answer 92

A

Organizing pneumonia (classic)
Tuberculosis
Pulmonary infarction
Invasive fungal disease
Granulomatosis with polyangiitis
COVID

Answer 93

A

Invasive aspergillosis (classic)
Other invasive fungal infections
Hemorrhagic metastases
Adenocarcinoma in situ (bronchoalveolar carcinoma)
Granulomatosis with polyangiitis

Answer 94

A

Ill-defined centrilobular ground glass opacities with mosaic perfusion and air trapping

Answer 95

A

Ground glass opacities, air trapping, and normal lung parenchyma mixed together, classically seen in chronic hypersensitivity pneumonitis

Answer 96

A

Think chronic hypersensitivity pneumonitis

Answer 97

A

UIP with air trapping
Headcheese sign (ground glass, air trapping, and normal lung)

Answer 98

A

Narrowed trachea (TV diameter < 2/3 the AP diameter), seen in COPD

Answer 99

A

2.5 cm (no more than the transverse diameter of an adjacent vertebral body)

Answer 100

A

Relapsing polychondritis

Answer 101

A

Granulomatosis with polyangiitis

Answer 102

A

Tracheobronchopathia osteochondroplastica (TBO)

Answer 103

A

Amyloidosis

Answer 104

A

Relapsing polychondritis (diffuse tracheal thickening)
Tracheobronchopathia osteochondroplastica (nodular thickening)

Answer 105

A

Amyloidosis (calcifications common)
Post intubation (focal in the subglottic region)
Granulomatosis with polyangiitis (sub glottic location is the most commonly involved)

Answer 106

A

Granulomatosis with polyangiitis

Answer 107

A

Yes, bronchial carcinoid tumors tend to metastasize to the uveal tract (inside eyeball) and GI carcinoid tumors tend to metastasize to the extraoccular muscles (outside eyeball)

Answer 108

A

Think bronchial carcinoid tumor with carcinoid syndrome leading to left-sided valve degradation

Note: In GI carcinoid, valvular degradation tends to be right-sided (tricuspid, pulmonic valves)

Answer 109

A

Soft tissue nodule (<3 cm) located centrally (e.g. tracheal bifurcation) within the airway lumen +/- calcifications

Note: These are low-grade malignant and NOT associated with smoking.

Answer 110

A

Soft tissue mass (>3 cm) in a peripheral pulmonary location that may be partially endobronchial or not appear to be associated with a bronchiole at all without calcifications

Note: These are intermediate-grade malignant.

Answer 111

A

Squamous cell carcinoma (followed by adenoid cystic carcinoma)

Answer 112

A

Slow growing and locally invasive (only 10% of cases have nodal metastases)

Answer 113

A

No

Note: There may be an association between smoking and atypical pulmonary carcinoid.

Answer 114

A

Octreotide scan (neuroendocrine tumor)

Note: 25% of carcinoid tumors will be PET negative, so octreotide is better.

Answer 115

A

Left-sided valves (mitral and aortic)

Note: GI carcinoid tumors are more likely to result in right-sided valve degradation (tricuspid and pulmonic).

Answer 116

A

Submucosa of the upper trachea

Answer 117

A

Lower trachea/proximal main bronchus

Answer 118

A

Squamous cell carcinoma

Answer 119

A

Carcinoid
Squamous cell carcinoma
Adenoid cystic carcinoma
Metastases
Squamous cell papilloma

Answer 120

A

Squamous cell papilloma

Answer 121

A

Smoking (usually single papilloma)
HPV infection (usually multiple papillomas)

Answer 122

A

Post intubation stenosis

Answer 123

A

Post intubation stenosis (adult)
Croup/acute laryngotracheobronchitis (child)

Note: If you see this in an adult, but the pt has never been intubated before it could be a rare case of adult croup.

Answer 124

A

Genetic mutation resulting in poorly functioning chloride ion transporters, resulting in too little chloride ions (and subsequently water) in the airway lumen and thick secretions which predispose to recurrent pulmonary infections

Answer 125

A

Bronchiectasis with an apical predominance (cylindrical progressing to varicoid)
Hyperinflation
Pulmonary arterial hypertension
Mucous plugging (finger-in-glove opacities)

Answer 126

A

Think cystic fibrosis

Answer 127

A

Think primary ciliary dyskinesia

Answer 128

A

Bilateral lower lobe bronchiectasis (due to recurrent pulmonary infections)
Chronic sinusitis from an early age
Impaired fertility/ectopic pregnancies
Chronic mastoid effusions
Conductive hearing loss

Answer 129

A

Situs inversus
Chronic sinusitis
Bronchiectasis

Answer 130

A

Kartageners syndrome (situs inversus, chronic sinusitis, and bronchiectasis)

Note: Only 50% of people with PCD actually have Kartageners.

Answer 131

A

Bronchiectasis is upper lobe predominant in CF and lower lobe predominant in PCD

Answer 132

A

Congenital deficiency of cartilage in the 4th-6th order bronchi resulting in congenital cystic bronchiectasis

Answer 133

A

Tracheobronchomegaly (Mounier-Kuhn syndrome), defined by massive dilatation of the tarchea (>3 cm)

Answer 134

A

Small airway disease
Bronchiolitis obliterans (if prior lung transplant)

Answer 135

A

Small branching nodules typically 5-10 mm from the pleural surface, representing dilated and impacted centrilobular airways

Note: This is suggestive of small airways disease, specifically infectious bronchiolitis.

Answer 136

A

A small airway inflammatory disease that can occur in rheumatoid arthritis and Sjogrens related to lymphoid hyperplasia and appearing as centrilobular ground glass nodules with scattered areas of bronchial dilatation

Answer 137

A

Follicular bronchiolitis

Answer 138

A

Rheumatoid arthritis
Sjogrens

Answer 139

A

A small airway inflammatory disease leading to air trapping that can occur following viral infection, lung transplant, drug reactions, or inhalational injury

Answer 140

A

Diffuse idiopathic pulmonary neuroendocrine cell hyperplasia, a pulmonary disorder caused by hyperplastic neuroendocrine cells lining the peripheral airways that can lead to constrictive bronchiolitis

Answer 141

A

Constrictive bronchiolitis leading to air trapping

Answer 142

A

Posterior segment of upper lobes and superior segment of lower lobes (if supine aspiration)
Bilateral basal lower lobes (if upright aspiration)

Note: Right side more common than left.

Answer 143

A

Pneumonia, which can lead to an empyema, which can lead to a bronchopleural fistula

Answer 144

A

Gastric acid aspiration usually results in a persistent airspace opacity and can look like pulmonary edema

Neutralized gastric content aspiration should cause a “fleeting opacity” that resolved in hours

Answer 145

A

Systemic lupus erythematosus
Rheumatoid arthritis
Scleroderma
Sjogrens
Ankylosing spondylitis

Answer 146

A

Pleural effusions
Pericardial effusions

Note: Pulmonary fibrosis is uncommon in SLE.

Answer 147

A

UIP
Organizing pneumonia

Answer 148

A

NSIP

Note: UIP can also occur.

Answer 149

A

Think scleroderma

Answer 150

A

Lymphoid interstitial pneumonia (LIP)

Note: Look for extensive ground glass attenuation with scattered thin-walled cysts.

Answer 151

A

Upper lobe fibrobullous disease (initially unilateral, then progressing to bilateral)

Answer 152

A

Caplan syndrome (AKA rheumatoid pneumoconiosis)

Answer 153

A

“shrinking lung”, which is caused by either diaphragmatic dysfunction or pleuritis chest pain

Note: “S”hrinking “L”ung for SLe.

Answer 154

A

Pleuritis +/- pleural effusion

Answer 155

A

Hepatopulmonary syndrome

Note: The SOB while sitting up is due to vascular dilatation at the pulmonary bases. While sitting up, these dilated vessels engorge and shunt blood away from the lungs.

Answer 156

A

Tc MAA scan demonstrating vascular shunting (radiotracer uptake outside the lungs in the brain)

Answer 157

A

The lungs (95% of cases)

Note: Pulmonary findings have a variable appearance, but pulmonary nodules with cavitation are the most common.

Answer 158

A

Think granulomatosis with polyangiitis

Answer 159

A

Think Goodpasture syndrome (an autoimmune pulmonary-renal syndrome)

Answer 160

A

Granulomatosis with polyangiitis
Goodpasture syndrome

Answer 161

A

Bilateral coalescent airspace opacities that resolve within weeks (looks like pulmonary edema, but is actually hemorrhage)
Recurrent episodes can lead to fibrosis and pulmonary hemosiderosis (small ill-defined nodules due to iron deposition from recurrent bleeding)

Answer 162

A

Think asbestos-related disease

Answer 163

A

Asbestos-related disease
Old hemothorax/infection
Tuberculosis
Extraskeletal osteosarcoma

Answer 164

A

Mesothelioma (80% are associated with asbestos exposure)

Answer 165

A

Asbestos exposure

Note: This is not dose dependent.

Answer 166

A

30-40 years

Answer 167

A

Highly suggestive of mesothelioma

Answer 168

A

Think post-traumatic pleural thickening and look for prior rib fractures

Answer 169

A

Think mesothelioma

Note: Traumatic pleural thickening is usually lateral.

Answer 170

A

Chest MRI with contrast (to evaluate chest wall, diaphragm, and pericardial invasion)
PET/CT (to evaluate for metastases)

Answer 171

A

SFTP is a usually benign solitary tumor arising from the visceral pleura that is NOT associated with asbestos exposure or smoking. They can get very large and cause chest pain, but are usually benign.

Answer 172

A

Doege-Potter syndrome (episodic hypoglycemia due to secretion of insulin-like growth factor from a solitary fibrous tumor of the pleura)

Answer 173

A

Hypertrophic osteoarthropathy (30% of cases)

Answer 174

A

Episodic hypoglycemia due to tumor secretion of insulin-like growth factor

Answer 175

A

Adenocarcinoma

Answer 176

A

Lung cancer (#1)
Breast cancer (#2)
Lymphoma (#3)

Answer 177

A

Pleural effusion

Answer 178

A

175 cc (frontal view)
75 cc (lateral view)

Answer 179

A

When a pleural effusion accumulates between the lung and the diaphragm (more common on the right)

Answer 180

A

Think subpulmonic effusion

Note: Lateralization of the diaphragmatic peak is sometimes called “ski-slipping”. You can get a lateral decubitus radiograph to confirm.

Answer 181

A

Think subpulmonic effusion

Note: Get a lateral decubitus to confirm.

Answer 182

A

When a pleural effusion collects between the pleural layers of a fissure, appearing as an oval/round mass

Answer 183

A

Pleural enhancement (split-pleura sign)
Gas
Septations
More asymmetric, loculated appearance

Answer 184

A

When an empyema eats through the chest wall into the soft tissues, most commonly seen in TB

Answer 185

A

Empyema necessitans

Note: Most often seen with tuberculosis, but can also be seen in actinomyces infections.

Answer 186

A

Bochdalek hernia

Answer 187

A

Morgagni hernia

Answer 188

A

Left (the liver is protective on the right)

Answer 189

A

Risk of bronchopleural fistula

Answer 190

A

Split pleura sign and lentiform shaped empyemas

Claw sign (acute angle with the pleura) and round shaped pulmonary abscesses

Answer 191

A

Idiopathic, but think about phrenic nerve compression from a lung cancer

Answer 192

A

Diaphragmatic paralysis

Answer 193

A

Think about left diaphragmatic paralysis

Answer 194

A

Hilum overlay sign (if you can see the bifurcation of the pulmonary vessels through the hilar opacity, then there is a hilar mass separate from the vessels)

Answer 195

A

Reactive enlargement of the thyroid gland following stress or chemotherapy

Note: It can be FDG avid on PET.

Answer 196

A

Thymic cyst

Answer 197

A

Thoracotomy
Chemotherapy
HIV

Answer 198

A

Thymoma
Invasive thymoma
Thymic carcinoma

Answer 199

A

Infiltrating appearance
Calcifications suggest more aggressive lesion

Answer 200

A

Myasthenia gravis
Pure red cell aplasia
Hypogammaglobulinemia

Answer 201

A

Think thymolipoma

Answer 202

A

Teratoma (75% of cases)

Note: Mediastinal teratoma is the most common extragonadal germ cell tumor.

Answer 203

A

Kids (<1 y/o)
Adults (20s-30s)

Note: Immature teratomas occur exclusively in men, but M = F for mature teratomas.

Answer 204

A

Klinefelter syndrome

Answer 205

A

Think teratoma

Note: If there is also calcification/teeth, this is pretty specific.

Answer 206

A

Pericardial cyst

Answer 207

A

Granulomatous (superior mediastinal soft tissue mass with calcifications)
Non-granulomatous (superior mediastinal infiltrating soft tissue mass without calcifications)

Answer 208

A

Histoplasmosis (classic)
Tuberculosis
Sarcoidosis

Answer 209

A

Think fibrosing mediastinitis

Answer 210

A

Autoimmune diseases (SLE, RA, Behcet, etc.)
Radiation therapy
Headache medication methysergide use
Idiopathic (associated with retroperitoneal fibrosis)

Answer 211

A

Superior vena cava syndrome

Answer 212

A

Non-granulomatous fibrosing mediastinitis

Answer 213

A

Think bronchogenic cyst

Answer 214

A

Mediastinal lipomatosis

Answer 215

A

Iatrogenic steroid use
Cushings syndrome
Obesity

Answer 216

A

Neurogenic tumors (schwannomas, neurofibromas, malignant peripheral nerve sheath tumors)

Note: Extramedullary hematopoiesis can also present as a posterior mediastinal mass.

Answer 217

A

Chronic myelogenous leukemia
Polycythemia vera
Myelofibrosis
Sickle cell disease
Thalassemia

Answer 218

A

When one or more of the 4 pulmonary veins drains into the right atrium or SVC rather than the left atrium (a left to right shunt)

Answer 219

A

When all 4 pulmonary veins drain into the right atrium or SVC rather than the left atrium (a complete left to right shunt that results in cyanotic heart disease)

Answer 220

A

Atrial septal defects (most commonly the sinus venosus type)

Answer 221

A

Think Scimitar syndrome

Answer 222

A

Pulmonary hypertension and right sided heart failure (due to the left to right shunting)

Answer 223

A

Partial anomalous pulmonary veinous return

Note: This “vertical vein: is classic for left-sided PAPVR (less common than right-sided).

Answer 224

A

A dilated curvilinear right inferior pulmonary vein draining into the IVC (with associated pulmonary hypoplasia), indicating partial anomalous pulmonary veinous return in Scimitar syndrome

Answer 225

A

Term given to a pulmonary vein that takes a long, meandering course to the left atrium, but does drain correctly into the left atrium (unlike in anomalous pulmonary veinous return)

Note: There is no left to right shunt here.

Answer 226

A

Pulmonary vein aneurysm/varix refer to any dilated pulmonary veins, often due to mitral regurgitation

Answer 227

A

Look for a lower right pulmonary vein varix/aneurysm secondary to mitral regurgitation

Answer 228

A

Proximal interruption of the pulmonary artery

Note: The distal pulmonary arterial tree is still perfused through collateral vessels.

Answer 229

A

The right

Note: Proximal interruption of the pulmonary artery always occurs on the opposite side of the aortic arch (and left-sided arches are far more common).

Answer 230

A

Patent ductus arteriosus

Answer 231

A

Think pulmonary embolism (Hamptons hump)

Answer 232

A

Massive PE is associated with hypotension (SBP<90)

Submassive PE is associated with right heart dysfunction or positive cardiac enzymes

Answer 233

A

Acute PEs tend to be central within the vessel and associated with vascular dilatation

Chronic PEs tend to be more peripheral with shrunken vessels and collateral flow and may have calcifications

Answer 234

A

Right ventricle dilatation (larger than left ventricle)
Leftward bowing of the interventricular septum
Contrast reflux into the hepatic veins

Answer 235

A

Pulmonary infarction
Tuberculosis
Lung cancer

Answer 236

A

Think pulmonary veno-occlusive disease

Answer 237

A

An uncommon variant of primary pulmonary hypertension that affects the post capillary pulmonary vasculature leading to pulmonary hypertension with a normal wedge pressure

Answer 238

A

Iatrogenic from a swan ganz catheter (most common)
Behcet disease
Chronic PEs

Answer 239

A

Behcet disease

Answer 240

A

Hughes-Stovin syndrome

Answer 241

A

Rasmussen aneurysm

Answer 242

A

Pulmonary arterial pressures > 25

Answer 243

A

Chronic PEs
Right heart failure/strain
Pulmonary parenchymal disease (e.g. emphysema, fibrosis, COPD)
Idiopathic (rare, affecting young females)

Answer 244

A

Enlarged pulmonary trunk (larger than aorta)
Enlarged segmental pulmonary arteries (larger than adjacent bronchi)
Mural calcifications of central pulmonary arteries
Visualization of the main pulmonary trunk at the level of the aortic arch (“banana and egg”
Right pulmonary artery crossing over the airways at the level of the carina, rather than more inferiorly (“carina crossover”)

Answer 245

A

Collar sign (waist-like hourglass appearance of herniated organs with the waist being the injured diaphragm)
Dependent viscera sign (herniated organs lying directly against the chest wall without the usual interposition of lung parenchyma on CT)

Answer 246

A

Within 2 cm of the carina, usually at the junction of the cartilaginous and membranous trachea

Note: This will cause pneumomediastinum (not a pneumothorax).

Answer 247

A

Pneumomediatinum from blunt trauma due to alveolar rupture and air dissecting along bronchovascular sheaths into the mediastinum

Note: This is probably the most common cause of pneumomediastinum in trauma pts.

Answer 248

A

Get chest X-ray and esophagram with water soluble contrast to evaluate for esophageal rupture (Boerhaave syndrome)

Answer 249

A

Mechanical ventilation (high PEEP)
Thoracic surgery
Penetrating trauma
Infectious pericarditis

Answer 250

A

In pneumopericardium, the air should not extend above the origins of the great vessels

Answer 251

A

3 or more segmental fractures (more than 1 fracture per rib)

OR

More than 5 adjacent rib fractures

Answer 252

A

Think flail chest, look for multiple rib fractures

Answer 253

A

Hemothorax

Answer 254

A

Unusually deep costophrenic angle due to excess air in a pneumothorax

Answer 255

A

Deviation of the trachea/mediastinum
Flattening/inversion of the ipsilateral diaphragm

Answer 256

A

Needle thoracotomy (4G needle inserted at the 2nd intercostal space in the midclavicular line)

Answer 257

A

A hematoma in the chest wall with an intact parietal pleura (i.e. not a hemothorax)

Note: Look for displaced extra pleural fat or a persistent fluid collection following pleural drain placement.

Answer 258

A

Extrapleural hematoma

Answer 259

A

Pulmonary contusion

Answer 260

A

Pulmonary contusion

Note: If consolidative opacities persist >72 hours, think aspiration, pneumonia, or laceration.

Answer 261

A

Pulmonary laceration

Answer 262

A

Fat embolization syndrome (fat emboli to the lungs, brain, and skin following a long bone fracture or intramedullary rod placement)

Answer 263

A

Pts with acute lung injury or COPD

Note: Pts with pulmonary fibrosis are actually protected against barotrauma due to lower pulmonary flexibility.

Answer 264

A

All chest tube side holes should be within the pleural space (if you see a side hole that is not overlying pulmonary parenchyma, then it needs to be repositioned)

Answer 265

A

Suggest blunt cardiac injury and recommend correlation with cardiac enzymes and ECG

Answer 266

A

Tip likely in the azygos vein

Answer 267

A

Either arterial placement or duplicated SVC

Answer 268

A

Think SVC occlusion

Note: Hot quadrate sign is suggestive of SVC occlusion in the setting of a central line (risk factor for SVC occlusion).

Answer 269

A

Between the main pulmonary artery and the interlobular arteries (tip should be no more than 2 cm lateral to the mediastinal shadow)

Answer 270

A

Decrease left ventricular afterload and increase myocardial perfusion

Answer 271

A

Tip in the proximal descending aorta (just below the origin of the left subclavian artery)

Answer 272

A

Aortic dissection during placement
Obstruction of the left subclavian artery from malpositioning

Answer 273

A

Redistribution (cephalization of vessels, big vascular pedicle)
Interstitial edema (Kerley B lines, peribronchial cuffing, less distinct central vessels)
Alveolar edema (airspace fluffy opacities, pleural effusion)

Answer 274

A

Redistribution (cephalization of vessels, big vascular pedicle)
Interstitial edema (Kerley B lines, peribronchial cuffing, less distinct central vessels)
Alveolar edema (airspace fluffy opacities, pleural effusion)

Answer 275

A

Left heart failure

Note: Chronic PEs and tricuspid regurgitation are also causes of right heart failure.

Answer 276

A

Dilatation of azygos vein
Dilatation of right atrium
Dilatation of SVC
Ascites
Hepatomegaly
Contrast reflux into the hepatic veins on CTPA

Answer 277

A

5 cm above the carina (halfway between the clavicles and the carina)

Answer 278

A

ET tube will move up when the chin is up and will move down when the chin is down (“the hose goes where the node goes”)

Answer 279

A

Massive pulmonary hemorrhage with unilateral ventilation to protect the good lung

Answer 280

A

Right atrial appendage
Right ventricular apex
Left ventricle (via coronary sinus)

Answer 281

A

At the level of the clavicle and first rib (rib clavicle crushing)

Answer 282

A

Twiddler syndrome due to the pt twisting the generator in its pocket

Answer 283

A

Pacemaker (thin wires only)
ICDs (shock coils present)
Cardiac resynchronization device (both LV and RV leads present)

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Thoracic 2 Flashcards

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