18 Introduction to Chest Radiology 1 (2)

Question 1

Normal chest radiograph

• Components
• Search pattern
• Concept

Answer 1

• Components
  
  • Standard views
  • Radiographic densities
  • Film exposure
  • Chest CT
• Search pattern
  
  • Heart
  • Mediastinum
  • Lungs
  • Chest wall
• Concept
  
  • Place area of interest next to cassette

Question 2

Standard radiographic views

Answer 2

• Postero-anterior (PA)
• Antero-posterior (AP)
• Left lateral CXR

Question 3

Postero-anterior (PA) CXR

Answer 3

• X-ray traverses posterior to anterior
• Heart next to cassette
• Patient is upright
• 6 feet from X-ray tube
• Decrease image magnification
• Increase sharpness
• Full inspiration

Question 4

Antero-posterior (AP) CXR

Answer 4

• X-ray traverses anterior to posterior
• Patient upright, supine
• Spine next to cassette
• 3 feet from x-ray tube
• Increase image magnification
• Decrease sharpness
• PA is preferred

Question 5

Left Lateral CXR

Answer 5

• X-ray traverses R –> L
• Left side next to film
• Heart & aorta on left
• Decrease magnification
• Evaluate behind heart
• Summation of lungs

Question 6

5 radoigraphic densities

• 5 radiographic densities
• Anatomic structures differ in density

Answer 6

• 5 radiographic densities
  
  • Air - lungs, trachea
  • Fat
  • Soft tissue - fat, blood, muscle
  • Bone - calcium
  • Metal - hardware, contrast
• Anatomic structures differ in density
  
  • Low density material (air) represented as black
  • Dense material (bone, metal) represented as white
  • Body tissues are varying degrees of grey

Question 7

Image exposure

• Unexposed X-ray film
• Anatomic structures differ in density
• Dense tissue

Answer 7

• Unexposed X-ray film starts off as white
  
  • When radiated, the silver ion (black) in x-ray film emulsion precipitates
  • The more radiation that X-ray film receives, the blacker it becomes
• Anatomic structures differ in density
  
  • Attenuation of X-rays depends on density and thickness of tissues
  • X-ray image is a map of X-ray attenuation
• Dense tissue (bone) blocks more radiation from reaching the film
  
  • Air – black
  • Soft tissue – grey
  • Bone – white

Question 8

Computed axial tomography (CT)

Answer 8

• Cross-sectional imaging
• Computer processing and reconstruction
• Superior tissue contrast, anatomic localization
• Bread-slicer, view from feet
• Helical multi-detector technique
• High radiation dose

Question 9

Computed axial tomography (CT)

• Helical multi-slice CT acquisition
• Multi-detecter helical CT
• High resolution chest CT (HRCT)

Answer 9

• Helical multi-slice CT acquisition
  
  • Interpolated data from 4 detector rows
  • 4, 16, 64, 128, –> 320 MDCT
  • UPMC: 64 MDCT is the work horse
• Multi-detecter helical CT
  
  • Scout image
  • Breathe in
  • Hold it (~20s)
  • Breathe
• High resolution chest CT (HRCT)

Question 10

MDCT: axial data set

Answer 10

• Stack of images
• Axial plane
• 300 - 500 images
• 0.63 mm thin

Question 11

CT contrast bolus timing

Answer 11

• Start IV contrast before the CT
• Scan continuously at one level

Question 12

Shortness of breath

Answer 12

• Pulmonary emboli
• Venous blood clots travel to lung

Question 13

Radiation dose

Answer 13

• PA & lateral CXR
  
  • 20 mrem = 0.2 mSv
  • ~10 days natural background radiation
• Chest CT
  
  • Equivalent to 400 CXR
  • 3-5 rad = 5 mSv
  • ~ 2 years background radiation
  • 1 mSv = 5+ cancers per 100,000 individuals

Question 14

Search pattern

Answer 14

• Heart
• Mediastinum
• Lungs
• Pleura
• Hila
  
  • Trachea & bronchi
  • Pulmonary arteries
  • Pulmonary veins
• Chest wall

Question 15

The heart

• Location
• 2 parallel pumps
• Heart size
• Heart borders
  
  • Right
  • Left

Answer 15

• Left of midline
• 2 parallel pumps
  
  • Right
    
    • Low pressure
    • Deoxy blood to lung
  • Left
    
    • High pressure
    • O2 blood to body
• Heart size: < half diameter of thorax
  
  • Post-partum cardiomyopathy: heart is too big
• Heart borders
  
  • Right
    
    • SVC & RA
  • Left
    
    • Aortic arch
    • Main pulmonary artery
    • Left ventricle
    • (Left atrial appendage)

Question 16

The mediastinum

• General
• Consists of…
• Problems

Answer 16

• General
  
  • Central compartment
  • Potential space
  • Lined by parietal pleura
• Consists of…
  
  • Heart, aorta, vessels
  • Thymus
  • Esophagus & trachea
  • Lymph nodes
• Problems
  
  • Encapsulated thymoma
  • Mediastinal mass: lymphoma
  • Neurofibroma

Question 17

Esophagus

Answer 17

• Squamous cell cancer
• Adenocarcinoma
• Oral contrast ingested

Question 18

The lungs consist of…

Answer 18

• Pleura - surrounds lung
• Lung parenchyma
• Tracheo-bronchial tree
• Pulmonary arteries (PA)
• Pulmonary veins (PV)
• Hila

Question 19

Pleura

• Pleural development
• Pleura
• Parietal pleura
• Visceral pleura
• Pleural fluid / effusion

Answer 19

• Pleural development
  
  • Pleura begins as single layer
  • Lung invaginates into coelomic cavity
  • Single layer of pleura folds back on itself to form 2 layered membrane
• Pleura
  
  • Potential space
• Parietal pleura
  
  • Lines diaphragm
  • Chest wall
  • Mediastinum
• Visceral pleura
  
  • Lines the lobes
  • R & L major fissures
  • (R) minor fissure
• Pleural fluid / effusion
  
  • Hemothorax
  • Fluid “meniscus”

Question 20

Pleura

• Pleural gas
• Visceral pleura
  
  • Lines…
  • L major fissure
  • R major & minor fissure
  • R major fissure

Answer 20

• Pleural gas
  
  • Pneumothorax
• Visceral pleura
  
  • Lines the lobes
  • L major fissure
    
    • LUL & LLL
  • R major & minor fissure
    
    • RUL & RML
  • R major fissure
    
    • RUL - RML from RLL

Question 21

Fissures on CT

Answer 21

Question 22

Lung parenchyma

Answer 22

• Sponge, air-filled
• Clear & more lucent at bases
• No distinct markings
• Right is bigger, 3 lobes (RUL, RML, RLL)
• Left upper, lower lobes

Question 23

Consolidation

• Normal chest radiograph & CT
• (Air space) consolidation

Answer 23

• Normal chest radiograph & CT
  
  • Lungs are clear
• (Air space) consolidation
  
  • Too white
  • Alveolar air replaced by fluid, blood, pus, tumor
    
    • –> confluent opacity
  • Obscures architecture (broncho-vascular)
  • Focal, patchy, or diffuse

Question 24

Ground glass opacity

Answer 24

• Too white
• Hazy increased lung attenuation
• Broncho-vascular markings preserved
• Partial filling of alveoli, interstitial thickening, increased capillary blood flow
• “Smeared chalk”
• Edema, pneumonia

Question 25

Atelectasis

Answer 25

• Too white
  
  • Decreased inflation
  • Decreased volume
  • Increased reabsorption
  • Increased opacity
• “Ectasia”
  
  • Dilation, expansion
  • Aortic ectasia - mildly dilated aorta
  • Bronchiectasis - bronchial dilatation
• Atelectasis
  
  • Gr. ateles “imperfect” + ektasis “expansion”
  • “Collapse” of lung, volume loss

Question 26

Lobar atelectasis

Answer 26

• RUL
  
  • Decreased inflation of segment, lobe, or lung
  • Reabsorption of air
  • Involved lung has decreased volume, increased opacity
  • Mucous plug, stricture, tumor, or extrinsic compression of bronchus
  • Non-involved lung responds
• RML

Question 27

Interstitium

Answer 27

• Continuum of loose supporting connective tissue in lung
• Interstitial lung disease
  
  • Tissue around airways & air spaces thicken, with preservation of alveolar air
• Pulmonary lobule
  
  • Septa
  • Arteriole
  • Bronchiole
• Pulmonary edema

Question 28

Alveolar ducts and pulmonary acinus

• Microscopic anatomy
• Fibrosing alveolitis
• Reticular pattern

Answer 28

• Microscopic anatomy
  
  • Terminal airways
  • Alveolar ducts
  • Acini
• Fibrosing alveolitis
  
  • Alveolar collapse
  • UIP / IPF
• Reticular pattern
  
  • Fibrosis
  • Honeycomb

Question 29

Problems

• Air trapping
• Smoker
• Renal cell carcinoma mets
• 21 yo man with cough

Answer 29

• Air trapping
  
  • COPD
  • Too black
• Smoker
  
  • Nodule < 3 cm
• Renal cell carcinoma mets
  
  • Mass x 3 cm
• 21 yo man with cough
  
  • Cystic fibrosis
  • Bronchiectasis

Question 30

Tracheo-bronchial tree

Answer 30

• Ao displaces trachea to right
• Trachea –> main bronchi (T5)
• Left main bronchus is longer (5cm) & lower
• Right main bronchus is shorter, more vertical
• Normal bronchioles imperceptible

Question 31

Pulmonary arteries

Answer 31

• Right PA in front of right main bronchus
• Left PA arches over left main bronchus
• Left hilum superior
• Vertically oriented
• Follow bronchi
• Problem: pulmonary hypertension

Question 32

Hila

Answer 32

• PA, PV, bronchus –> lung
• PA makes up bulk
• Left hilum higher (98%)
• Both same height (2%)
• Right hilum not normally superior to left
• Equal size & attenuation

Question 33

Normal chest imaging

Answer 33

• CXR important tool
• PA, AP, Lateral
• Radiographic densities gas, fat, water, M+
• Film exposure
• Chest CT: x-section
• Location

Question 34

Chest imaging: search pattern

• Heart
• Lungs
• Don’t normally see…

Answer 34

• Heart size
  
  • Hilum
  • Pulmonary arteries
  • Vascularity
• Lungs are clear
• Don’t normally see…
  
  • Interstitium
  • Bronchioles
  • Pulmonary veins
  • Pleura
  • Mediastinum