Session 8

Question 1

What is the normal projection on an x-ray?

Answer 1

PA view.

Question 2

When may an AP x-ray be performed?

Answer 2

When a patient is too unwell and cannot stand erect, e.g. ITU, resus, etc.

Question 3

What type of x-ray projection is more useful and why?

Answer 3

PA. The heart is closer to the receptor so there is less divergence which allows analysis of the heart and mediastinum, in AP the heart is enlarged so harder to view and analyse.

Question 4

What anatomical features should be viewable on a good chest x-ray?

Answer 4

1st rib (usually goes higher); lateral margin of the ribs; costophrenic angle.

Question 5

How would rotation be seen on an x-ray?

Answer 5

By looking at the alignment of the spinous processes and clavicles.

Question 6

What might flattened diaphragms on an x-ray suggest?

Answer 6

Exaggerated expansion of the lungs, often due to COPD.

Question 7

How would you assess lung volume on an x-ray?

Answer 7

Lungs should go down to 5-7th anterior ribs at MCL; curved diaphragms present.

Question 8

How is adequate penetration shown on an x-ray?

Answer 8

Vertebrae are just visible through the heart, complete left hemidiaphragm is visible.

Question 9

Where is the aortic knuckle typically seen on x-ray?

Answer 9

to the left of the spine above the heart.

Question 10

What would a lack of sharpness in the costophrenic or cardiophrenic angles suggest?

Answer 10

Fluid buildup.

Question 11

Which of the lung hila is usually more superior?

Answer 11

The left.

Question 12

What are the hila of the lungs?

Answer 12

The location where the vessels enter bronchi leave the lungs.

Question 13

How is a CXR evaluated?

Answer 13

ABCD approach: Airway (trachea deviation/rotation) and Adequacy (rotation, inspiration and penetration); Breathing (asess lungs); Circulation (heart, vessels, aortic knuckle); Diaphragm/Dem bones (angles and shape), then look at review areas.

Question 14

What would a loss of silhouette sign at the right heart border suggest?

Answer 14

Pathology of the right middle lobe of the lung.

Question 15

What would a loss of silhouette sign at the left heart border suggest?

Answer 15

Pathology of the lingula of the left upper lobe of the lung.

Question 16

What would a loss of silhouette sign at the paratracheal stripe suggest?

Answer 16

Mediastinal disease.

Question 17

What would loss of silhouette sign at the chest wall suggest?

Answer 17

Pathology of the lung, pleura or ribs.

Question 18

What would loss of silhouette sign at the aortic knuckle suggest?

Answer 18

Pathology of the anterior mediastinum or upper lobes of the lung.

Question 19

What would loss of silhouette sign at the diaphragm suggest?

Answer 19

pathology of the lower lung lobes.

Question 20

What would loss of silhouette sign at the horizontal fissure of the lungs suggest?

Answer 20

Pathology of the anterior segment of the upper lobes of the lungs.

Question 21

What would cause mediastinal shift?

Answer 21

Pushing due to increased volume or pressure or pulling due to decreased volume or pressure.

Question 22

Give some example pathologies causing mediastinal shift via pushing.

Answer 22

Pleural effusion, tension pneumothorax.

Question 23

Give some example pathologies causing mediastinal shift via pulling.

Answer 23

Fibrosis of the lung, collapsed lung.

Question 24

What is a pneumothorax?

Answer 24

Air trapped in the pleural space.

Question 25

What causes a pneumothorax?

Answer 25

Usually trauma, may be spontaneous due to asthma, bullous emphysema, Marfans syndrome, etc.

Question 26

How would tension be diagnosed in a pneumothorax?

Answer 26

Tracheal/mediastinal shift away from pneumothorax and depressed hemidiaphragm.

Question 27

What is a pleural effusion?

Answer 27

Collection of fluid in the pleural space.

Question 28

How does a pleural effusion appear on x-ray?

Answer 28

Uniform white area; loss of costaphrenic angle; hemidiaphragm is obscured; meniscus at upper border.

Question 29

How and why might a PE appear differently on supine CXR?

Answer 29

Appears as a haze because the fluid is spread throughout the pleural space since the patient is lying down.

Question 30

How is PE treated?

Answer 30

Chest drain or aspiration.

Question 31

How is tension pneumothorax treated?

Answer 31

Insertion of catheter into the pleural space to allow air to escape.

Question 32

What is lobar lung collapse?

Answer 32

Volume loss within a lung lobe.

Question 33

What usually causes lobar lung collapse?

Answer 33

Luminal problems: aspirated foreign material; mucous plugging; iatrogenic. Mural problems: bronchogenic carcinoma. Extrinsic problems: compression by an adjacent mass.

Question 34

How may lobar lung collapse appear on x-ray?

Answer 34

Elevation of ipsilateral hemidiaphragm; crowding of ipsilateral diaphragm; mediastinal shift towards collapse; crowding of pulmonary vessels.

Question 35

What is a veil sign on CXR?

Answer 35

Collapse of a lung lobe causes the chest to look like a veil.

Question 36

What is sail sign on CXR?

Answer 36

Change in shade of the lung, usually in a sail shape, due to a collapsed lung.

Question 37

What is lung consolidation?

Answer 37

Filling of the small airways/alveoli with stuff (pus, blood, fluid, cells, etc.).

Question 38

How does consolidation appear on CXR?

Answer 38

Dense opacification.

Question 39

What is an air bronchogram?

Answer 39

Air filled bronchi becoming visible due to the opacification of surrounding alveoli.

Question 40

How is cardiac index measured on CXR?

Answer 40

Heart should be less than 50% of the total thoracic width, can only be measured on PA images as AP causes apparent cardiac enlargement.

Question 41

What may cause a space occupying lesion in the thorax?

Answer 41

Malignancy; benign mass lesion; inflammatory response; congenital defects; mimics such as bone lesions, cutaneous lesions, nipple shadows.

Question 42

What is the function of the interstitium of the lungs?

Answer 42

Releases cytokines, convoy for substances moving between blood and alveoli, helps to give lungs structure by forming collagen.

Question 43

What is the pulmonary interstitium?

Answer 43

A collection of supporting tissues within the lungs including the alveolar epithelium, pulmonary capillary endothelium, basement membrane, perivascular and perilymphatic tissues.

Question 44

What structures are affected by interstitial lung disease?

Answer 44

Acini, alveolar lumen, bronchiolar lumen, bronchioles.

Question 45

What affects does interstitial lung disease have on the respiratory system?

Answer 45

Reduced ventilation, diffusion and perfusion causing reduced plasma O2 and increased plasma CO2.

Question 46

How do patients with interstitial lung disease usually present?

Answer 46

Chronic shortness of breath; chronic cough.

Question 47

What would usually be found on examination of a patient with interstitial lung disease?

Answer 47

Finger clubbing, cyanosis, tachycardia, tachypnoea, signs of right heart failure.

Question 48

What typically causes interstitial lung disease?

Answer 48

Occupation: asbestosis, silicosis, coal workers pneumoconiosis.
Treatment related: radiation, methotrexate, nitrofurantoin, amidarone, chemotherapy.
Connective tissue disease: rheumatoid arthritis, SLE, polymyositis, schleroderma, Sjogren’s.
Immunological: sarcoidosis, hypersensitivity pneumonitis.
Idiopathic: idiopathic pulmonary fibrosis most common.

Question 49

Describe the effects of asbestos on the lungs.

Answer 49

Asbestos fibres are sharp and may lodge into pleura: asbestos plaques form; diffuse pleural thickening; benign asbestos pleural effusions; asbestosis (interstitial lung disease); mesothelioma; bronchogenic lung cancer; rounded atelectasis.

Question 50

What drugs may induce interstitial lung disease?

Answer 50

Methotrexate, bleomycin, amidarone, nitrofurantoin.

Question 51

What is sarcoidosis?

Answer 51

Disease causing abnormal collections of inflammatory cells in granulomas.

Question 52

How does sarcoidosis usually present?

Answer 52

Between 20 and 80 years old; often asymptomatic; may have cough or rash; non-caseating granulomas on biopsy.

Question 53

How is sarcoidosis treated?

Answer 53

No treatment given usually; may be given steroids or methotrexate but causes side effects.

Question 54

What are the functions of the pleural space?

Answer 54

Movement of the lung and chest wall; coupling of the lung and chest wall for recoil; pleural fluid circulation.

Question 55

How are the pleura of the lungs innervated?

Answer 55

Parietal pleural receives somatic, sympathetic and parasympathetic innervation from the phrenic and intercostal nerves; visceral pleural has no somatic innervation.

Question 56

Describe the presentation of pleuritic chest pain.

Answer 56

Comes from the parietal pleura, severe, sharp, knife-like pain which worsens on inspiration.

Question 57

How is pleural fluid produced?

Answer 57

Via capillary filtration from the parietal pleura.

Question 58

How is pleural fluid drained?

Answer 58

Via lymphatic drainage through the parietal pleural lymphatics through stomata.

Question 59

What effect would blocking the stomata on the parietal pleural surface have?

Answer 59

Cause PE as pleural fluid absorption would be reduced.

Question 60

What may cause pleural fluid production to increase?

Answer 60

Increase in lung interstitial fluid; increased hydrostatic pressure; increase in permeability; decrease in oncotic pressure; increased peritoneal fluid; disruption of the thoracic duct.

Question 61

What may cause pleural fluid absorption to decrease?

Answer 61

Lymphatic blockage; elevated systemic venous pressure

Question 62

What is the main difference between exudate and transudate?

Answer 62

Exudate contains more protein, transudate is more watery.

Question 63

How and why is pleural fluid sampled and examined?

Answer 63

Via thoracocentesis. Analysed for appearance, cell count, differential protein, LDH, pH, glucose and cytology to determine if transudate/exudate, infection, haemothorax or cytothorax.

Question 64

What is pleural empyema?

Answer 64

Presence of pus due to infected fluid in the pleural space.

Question 65

What does exudate in pleural effusion suggest?

Answer 65

Infection, malignancy, rheumatoid arthritis, PE, pancreatitis.

Question 66

What does transudate in pleural effusion suggest?

Answer 66

Heart failure, cirrhosis, hypoalbuminaemia, atelectasis, nephrotic syndrome, constrictive pericarditis, Meigs syndrome.

Question 67

What is chylothorax?

Answer 67

Form of pleural effusion due to thoracic duct disruption, causing a milky appearance to the pleural fluid from chyle accumulation.

Question 68

How does empyema usually show on x-ray?

Answer 68

Often pockets of fluid (loculations), bubbles of fluid may be septated.

Question 69

What type of malignancy is a primary pleural malignancy?

Answer 69

Mesothelioma.

Question 70

What risk factors increase likelihood of primary spontaneous pneumothorax?

Answer 70

Smoking, being tall and thin, previous primary pneumothoraces.

Question 71

How is pneumothorax treated?

Answer 71

If small observe, with SOB then intervene. Aspiration first line treatment, chest drain if aspiration fails, may give chemical pleurodesis (water and talc into pleural space) or open thoracotomy and pleurectomy.

Question 72

How does tension pneumothorax present?

Answer 72

CV compromise; reduced chest expansion with hyperresonance and absent breath sounds on the side of the pneumothorax; mediastinal shift (tracheal shift seen); hypoxaemia.

Question 73

How is tension pneumothorax treated?

Answer 73

Emergency. Insert cannula into second intercostal space in line with the sternal angle, then insert intercostal chest drain. Give surgical pleurodesis.

Question 74

What may cause chest wall disease?

Answer 74

Congenital: deformity, scoliosis, kyphosis or muscular dystrophy. Acquired: trauma, iatrogenic, ankylosing spondylitis, motor neurone disease.

Question 75

What effects may chest wall disease have on the respiratory system?

Answer 75

Ventilation failure; sleep disordered breathing; poor clearance of secretions; atelectasis; pneumonia.