Normal CXR

Question 1

Normal PA w/ landmarks

Answer 1

Question 2

CXR indications via evaluation of symptoms

Answer 2

• cough
• dyspnea
• orthopnea
• PND
• Chest pain, after other causes rules out
• fever of unknown origin
• unintentional wt loss
  
  • esp in smoker
• abnormal lung exam
  
  • crackels
  • dullness to precussion

Question 3

CXR indications via evaluation of signs

Answer 3

• chest trauma
• cyanosis/hypoxia
• tachycardia
• distended neck veins
• heart murmur
• diminished breath sounds
• egophany
• tracheal deviation

Question 4

CXR- other indications

Answer 4

• evaluation of plavement of lines/tubes
• screening for pneumothorax after procedure

Question 5

how to order a CXR

Answer 5

• PROVIDE INDICATION
• specify vies
  
  • bedside or “send in”
  • how to decide?

Question 6

PA/Lat view

Answer 6

• posterior to anterior
• viewing image almost backwards
• much better than AP view

Question 7

AP portable

Answer 7

• anterior to posterior

Question 8

AP vs PA

Answer 8

• heart looks smaller on PA and larger on AP

Question 9

apical lordodic view

Answer 9

• view gets the clavicle out of the way of the apices
• should only use for looking at apices and no other lung areas

Question 10

decubitis view

Answer 10

• inspiritory
• expiritory

Question 11

lateral film

Answer 11

• clear retrosternal space
• no discrete masses present in hilar region
• right hemi-diaphragm higher than left
• sharp costophrenic angles

Question 12

tissue densities

Answer 12

• air
  
  • black
• lead, bone
  
  • white
• muscle, fat, liver
  
  • grey

Question 13

criteria of a good CXR

Answer 13

• ROTATION
  
  • symmetry via clavicles
• penetration
  
  • overpenetration
    
    • may see vertebrae too clearly, should normally be able to just make them out under the heart
  • underpenetration
    
    • spinous process not seen at all
• inspiration
  
  • you should be able to count 10 ribs w/ good effort
• cropped
  
  • make sure to visualize every aspect of the lung, both costophrenic margins
• crooked
  
  • ideal to have a straight film

Question 14

stepwise evaluation of right pt CXR

Answer 14

• label: name, date, DOB
• orientation: L/R
• view: PA, AP, Lat
• quality of the film

Question 15

ABCDEF system CXR

Answer 15

• A= airways
  
  • trachea (deviation, obstruction)
  • R/L main bronchus
• B= bones
  
  • ribs, clavicle, sternum, vertebrae
• C= cardiac silouhette and mediastinum
  
  • size and widening
• D= diaphragm and gastric bubble
  
  • elevation, sub diaphragm air, gastric bubble
• E= effusions
  
  • costophrenic angle
• F= fields
• G=gastric bubble
• H=hilum
• I=iatrohenic stuff
  
  • lines
  • tubes
  • devices
  • surgeries

Question 16

view for heart

Answer 16

• PA
• Lat

Question 17

view for aortic knob

Answer 17

• PA

Question 18

view for trachea and carina

Answer 18

• PA

Question 19

view for hilum

Answer 19

• PA
• Lat

Question 20

view for clavicles

Answer 20

• PA

Question 21

view for ant/post ribs

Answer 21

• PA

Question 22

view for sternum/ retrosternal clear space

Answer 22

• PA
• Lat

Question 23

view for breasts/ nipples

Answer 23

• PA

Question 24

views for vertebral bodies/ disc space

Answer 24

• PA
• Lat

Question 25

view for hemidiaphragms

Answer 25

• PA
• Lat

Question 26

view for gastric air bubble

Answer 26

• PA

Question 27

view for fissures

Answer 27

• PA
• Lat

Question 28

view for costophrenic angles/sulcui

Answer 28

• PA
• Lat

Question 29

alveolar infiltrate

Answer 29

• fluid of any type that displaces air in the alveoli
• causes
  
  • water
  • pus
  • blood
  • proteinous fluid

Question 30

alveolar infiltrate via water

Answer 30

• cardiogenic pulmnary edema
  
  • fluffy cloud-like radiopaque densities
  • batwing or butterfly pattern
    
    • perihilar congestion
  • cardiogenic (CHF)
    
    • develops acutely and resolves quickly w/ tx
      
      • peripheral sparing, advances for hilum, usually fairly symmetrical

Question 31

alveolar infiltrate via pus

Answer 31

• pnemonia

Question 32

alveolar infiltrate via blood

Answer 32

• hemoptysis
• rupture

Question 33

alveolar infiltrate via proteinous fluid

Answer 33

• ARDS, non-cardogenic pulm edema
  
  • fluffy, cloud-like radiopaque densities
  • diffuse pattern
  • develops gradually
  • not peripheral sparing or symmetrical

Question 34

interstitial infiltrate

Answer 34

• thickening of interstitial tissues and pleural fissures in otherwise well-aerated lung fissures
  
  • linear densities
    
    • A-lines
      
      • radiate towards hila
      • located in mid and upper zones
      • thinner and adjacent to blood vessels
      • do not reach edge of lung
    • B-lines
      
      • horizontal lines
      • ,2cm
      • seen at periphery of lung
  • spherical densities superimposed on normal radiating pattern of blood vessels

Question 35

Silhouette sign

Answer 35

• Loss of normal borders in thoracic structures
• Typically obscured heart border or diaphragm:
  
  • RML obscures right heart border,
  • LLL: left heart border/diaphragm
  • RLL: R hemidiaphragm
  • LUL: descending aorta
  • RUL: ascending aorta
  • Lingual of LUL: left heart border

Question 36

Spine Sign

Answer 36

• When on a lateral film, the thoracic spine appears darker/blacker as you go from shoulder to diaphragm
  
  • If the dz involves the posterior lower lobes, the xray beam will be absorbed more which adds density thus making it more white just above the posterior costophrenic sulcus

Question 37

Atelectasis

Answer 37

• Caused by external compression fluid trapped b/w visceral and parietal pleura
• The collapse or loss of volume of a lung, lobe, or segment.

Question 38

atelectasis on CXR

Answer 38

• Shifts
  
  • Movement of structures toward the collapsed lobe
    
    • Fissures, mediastinum, and/or diaphragm
• Compensatory expansion
  
  • The expansion of non-consolidated lobes
  • Fills the loss of volume from atelectatic lobe
• Consolidation
  
  • The filling/solidifying of normally air-filled lung
  • Opacification takes on the shape of the lung, lobe, or segment

Question 39

atelectasis causes

Answer 39

• Bronchial obstruction
• pleural compression
  
  • pneumothorax
  • pleural effusion

Question 40

Bronchial obstruction

Answer 40

• Air cannot enter the alveoli distal to the obstruction. The air already present is absorbed, and the lobe or segment decreases in volume
• Bronchial neoplasm: carcinoma or granuloma
• External compression by mass: neoplasm or enlarged lymph node
• Intraluminal occlusions

Question 41

Pneumothorax

Answer 41

• Air can enter the intrapleural space:
  
  • TRAUMA / IATROGENIC - through a communication from the chest wall
  • SPONTANEOUS / COPD - through the lung parenchyma across the visceral pleura.
• CXR findings:
  
  • Line of pleura (forming edge of lung) that is separated by air from the chest wall, mediastinum, or diaphragm.
  • Absence of vessels outside this line
  • Expiratory lateral decubitus is another helpful view >> suspected side should be up (air goes up)

Question 42

Tension Pneumothorax

Answer 42

• Life-threatening condition
• Air is trapped in the pleural cavity
  
  • Under positive pressure
  • Displacing mediastinal structures
  • Compromising cardiopulmonary function.
• Signs:
  
  • Mediastinum, trachea, and heart shift away from pneumothorax
  • Flattening or inversion of diaphragm
  • Partial or complete collapse of lung

Question 43

Pleural effusion

Answer 43

• fluid trapped b/w the visceral and parietal pleura

Question 44

Free pleural effusion

Answer 44

• Meniscal curve up the lateral chest wall
• Radiographic findings of free fluid:
  
  • Fluid collects in the most dependent portion of the pleural cavity
  • Fluid obliterates costophrenic angles
• Small effusion may only be visible on lateral view
  
  • Lateral decubitus film may help show effusion >>effected side will be down (fluid goes down)

Question 45

Loculater pleural effusion

Answer 45

• Pleural fluid trapped within adhesions
• May mimic a nodule, atelectasis, or consolidation
• Often located within fissures
• CT and ultrasound useful to:
  
  • Detect the presence, size, and shape of effusion
  • Guide thoracentesis