Case 43 - The Difficult Airway

Question 1

What are predictors of difficult mask ventilation?

Answer 1

Predictors of Difficult Facemask Ventilation

• previous airway records indicating so
• obesity
• beard
• edentulousness
• history of snoring
• history of OSA
• facial abnormalities (dressings, burns)
• massive jaw
• age > 55 yo
• large tongue
• poor atlanto-occipital extension
• pharyngeal pathology (tonsil hypertrophy, laryngeal tonsil abscess)

Question 2

What is the sniffing position?

Answer 2

• Airway contains three visual axes:
  
  • long axes of mouth
  • oropharynx
  • larynx

Sniffing position

• attempt to align these three axes together
• Cervical flexion - brings pharyngeal and laryngeal axes together
• atlanto-occipital extension - brings oral axis in line with other two axes

**inability to assume sniffing position is a predictor of difficult intubation**

Question 3

what are example of problems that prevent the sniffing position?

Answer 3

• pain, tingling, numbness with sniffing position
• c-spine arthritis
• cervical ankylosing spondylitis
• unstable c-spine fractures
• cervical collars
• morbid obese patients with posterior neck fat pads

unable to assume sniffing position –> predictor of difficult intubation

Question 4

Why is Mouth opening important during airway examination?

Answer 4

• allows examiner to determine available space for placing and manipulating laryngoscope and tracheal tube
• allows examiner to see soft palate, hard palate, tonsils, and uvula –> MP classificaiton –> predictor of difficult intubation

measurements

• intercisior distance >3 cm or 2 fingerbredth
• MP class
• dentition
• TMJ dysfunction

Question 5

How does dentition affect airway manipulation?

Answer 5

• instrumentation of airway places teeth at risk for damage
• poor dentition/loose teeth can be accidentaly knocked out, enter trachea, migrate to lung, predispose to abscesses
• poor dentition/loose teeth forces one to avoid placing pressure on these teeth, which may make one manipulate the laryngoscope into a less than ideal position with poor view of glottis.
• prominent maxillary incisiors –> forces one to achieve a different line of sight, providing a less than ideal view of the glottis.

Question 6

How is evaluating the tongue a predicitor of difficult intubation?

Answer 6

• during induction, tongue falls posteriorily obstructing the line of sight into glottis.
• laryngocopes are designed to push the tongue anteriorly –> move it from a posterior obstructing position to a new anterior non-obstructing positiong between the mandibular spaces
• goal - assess tongue size in relation to size of mouth, oropharynx, and mandible.
  
  • large tongue compared to size of mouth interferes with visualization

Predictor of difficult intubation

• Macroglossia - harder to displace tongue anteriorly, will still take up real estate during laryngoscopy -> obstruct line of sight
• Micrognathia - normal tongue fits poorly into small mandibular space, unable to displace all of tongue anteriorly –> obstruct line of sight

Question 7

What is the Mallampati-Samsoon classificaiton system?

Answer 7

• initially developed to relate the size of the tongue to the oropharygneal structures identified.
• as tongue size increase, fewer structures are visualized, and laryngoscopy becomes more difficult.

MP 1

• see tonsillar pillar and fauces, uvula, soft palate

MP2

• partial tonsilar pillar and fauces, uvula, soft palate

MP 3

• soft palate, base of uvula

MP 4

• hard palate only

Question 8

What is the upper lip bite test?

Answer 8

TMJ

• laryngoscopy –> not only displaces tongue anteriorly, but lifts mandible anteriorly as well.
• TMJ
  
  • hingelike motion for mouth opening
  • gliding (translational) movement –> allows mandible to slide anteirorly across maxilla.
  • inability for translational movement makes intubation difficult

Upper lip bite test

• assess for TMJ displacement (gliding movement)
• protrude lower teeth as high on upper lip as possible (beyond vermilion border = upper lip)

Question 9

What is the purpose of measuring the thyroidmental distance?

Answer 9

• TM distance is a good estimate of the size of the mandible.
• small mandibular size results in less mandibular space to displace the tongue anteriorly into –> makes intubating difficult.
• use thyroid notch (Adam’s Apple) and measure to mentum (chin).
  
  • >6 cm or 3 finger-bredths –> easy intubation
  • <6 cm or 3 finger-bredths –> sign of difficult intubation

Question 10

What are predictors of Difficult Intubation?

Answer 10

• History
• long upper incisiors
• interincisor distance < 2 fingerbredth (or <3 cm)
• overbite (max incisors override mandib incisors)
• poor upper lip bite (inability for mandib incisors to protrude above upper lip = poor TMJ gliding mvmt)
• poor cervical range of motion
• TM Distance < 3 fingerbredth (or < 6 cm)
• MP III or IV
• Neck - short, thick
• palate shape - high arched or narrow

Question 11

What is the cormack and lehane grading system?

Answer 11

• grading system for comparing laryngoscopic view

Grades 1 to 4

• grade 1 = entire glottic opening
• grade 2 = posterior laryngeral apateure, unable to see anterior portion
• grade 3 = soft palate and epiglottis, no part of larynx
• grade 4 = soft palate, no part of epiglottis

Question 12

are the risk factors for difficult intubation reliable predictors of difficult intubation?

Answer 12

No!

• no single factor reliably predicts difficult intubation
• likelhood of dificult intubation increaes when multiple predictors are present in a patient at the same time.
• Study by Rock:
  
  • MP 3-4 + short neck + receding mandible + protruding maxillary incisors –> approx 90% probability of difficult intubation

Question 13

How is an anticipated difficult intubation approached?

Answer 13

• Awake vs asleep intubation
• Spontaneous vs supported breathing
• oral vs nasal ett

Awake FOB

• Give anticholinergic 20-30 min prior to procedure
  
  • antisialagogue effect
    
    • reduce secretions –> obstruct view
    • desiccate mucosa –> allows better contact between local anesthetic topicalization and mucosa –> provides better airway anesthesia
• Topicalize with lidocaine 4%
  
  • glossopharyngeal nerve at tonsillar pilllars
  • superior laryngeal nerve (internal branch) at pyriform fossae located on either side of base of tongue
  • recurrent laryngeal nerve - walls of trachea
  • Palatine nerves (V2 maxillary branch of trigmenal) -> block for nasal route
• if nasal intubation, use Afrin (oxymetazoline) = vasoconstrictor

Question 14

You induce a patient, after induction you cannot intubate, but can mask ventilate, what do you do?

Answer 14

• why is it difficult?
  
  • secretions
  • floppy epiglottis (miller may be better)
  • position not adequate
  • anterior larynx
  • difficult threading tube due to getting caught on arytenoid
  • Grade III, IV view

Options for Failed traidtional tracheal intubation under general anesthesia (non-emergency pathway)

• continue anesthesia by facemask
• continue anesthesia with supraglotic device
• awake patient
  
  • consider regional anesthesia
  • awake FOB
• reattempt intubation with change in position (sniffing position optimized), glidescope, different blade/handle, fiberoptic intubation, aintree catheter intubation, intubating LMA, glidescope assisted FOB intubation, intubating stylet (gum elastic bougie)

initial tracheostomy indicated for laryngeal fractures or abscesses that impinge on the airway

Question 15

After induction, ventilation and intubation is impossible. What do you do?

Answer 15

• Call For HELP!
• notify surgeon/ENT Team for possible surgical airway required
• Place supraglottic airway –> LMA, laryngeal tube, combitube
• Able to ventilate with SGA –> go to non-emergency pathway
• unable to ventilate through SGA –> Emergent pathway
  
  • Surgical Airway - surgical cricoidthyroidotomy (incision of cricoidthyroid membrane with placement of trach or ett via seldinger technique), needle cricoidthyrodiotomy with jet ventilation, retrograde intubation

Question 16

what are the pros and cons of LMA

Answer 16

Pros

• life saving airway. provide adequate oxygenation and ventilation
• maintain upper air patency
• conduit for ett intubation (blind vs FOB)
• conduit for aintree catheter intubation
• distal port for gastric sunctioning

Cons

• does not protect from aspiration
• does not protect from laryngospasm
• sore throat

Question 17

How do you perform a needle cricoidthyroidotomy?

Answer 17

• patient supine, head extended to expose anterior neck
• locate cricoidthyroid membrane (in between thyroid cartilage (above) and cricoid cartilage (below).
  
  • depression felt as you move caudad from thyroid cartilage
• connect 14 g needle to a syringe half filled with saline
• insert skin perpendicular to all planes
• aspirate until air is aspirated.
• thread catheter over needle
• attach catheter to jet ventilator
  
  • jet ventilator provides 100% oxygenation (set to 20 psi)
  • exhalation occurs passively through natural airway –> ensure upper airway is patent for gas to escape otherwise risk barotrauma (gas builds up cause can’t escape)

Question 18

what methods are there to verify correct tracheal tube placement?

Answer 18

Most reliable

• direct visualization of ETT between cords
• FOB –> look at carina

very reliable

• ETCO2
• esophageal detector device (inflates if in trachea, does not inflate if in esophagus)

reliable

• b/l breath sounds
• chest expansion during inspiration
• condensation/evaporation of ETT
• palpation of ETT at suprasternal notch

Question 19

after a diffcult intubation, how is post op extubation managed?

Answer 19

• difficult intubation with multiple repeated attempts –> post op phayrngeal & airway edema

manage

• consider prolong tracheal intubation until edema resolves
• prior to extubation, attempt a gas leak test
  
  • although prsence of gas escaping is reassuring, it does not always mean airway is patent
• consider FOB to assess airway edema (through ett and even pharynx)
• extubate over a tracheal tube airway exchanger
  
  • can produce laryngospasm –> risk for neg pressure pul edema (tx with o2, diuretics, morphine)