Intubation: Difference between revisions
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{{Adult top}} [[intubation (peds)]] | |||
==Indications== | ==Indications== | ||
*Failure to ventilate | |||
*Failure to oxygenate | |||
*Inability to protect airway | |||
**Gag reflex is absent at baseline in ~1/3 of people<ref>Davies AE, Kidd D, Stone SP, MacMahon J. Pharyngeal sensation and gag reflex in healthy subjects. Lancet. 1995 Feb 25;345(8948):487-8.</ref>, so lack of gag reflex is inadequate in determination of ability to protect airway. | |||
**If a patient is able to tolerate placement of an [[oropharyngeal airway]], they likely require intubation for airway protection | |||
**GCS <8 generally an indication for intubation in [[trauma]] patients | |||
*Anticipated clinical course (anticipated deterioration, need for transport, or impending airway compromise) | |||
*Combative patient who needs imaging (suspicion of intracranial process, etc) | |||
== | ==Considerations== | ||
*2015 AHA ACLS guidelines deemphasize placement of '''advanced airway''' placement in '''''initial resuscitation''''' | |||
*Out-of-hospital arrest data suggests lower survival of those intubated in field<ref>Hasegawa K et al. Association of prehospital advanced airway management with neurologic outcome and survival in patients with out-of-hospital cardiac arrest. JAMA 2013 Jan 16; 309:257.</ref> | |||
*108,000 patients examined in U.S. registry of inpatient hospital arrests, with 95% of intubations occurring within 15 min of resuscitation<ref>Angus DC.Whether to intubate during cardiopulmonary resuscitation: Conventional wisdom vs big data. JAMA 2017 Feb 7; 317:477.</ref> | |||
**Patients intubated were significantly less likely to survive to discharge, 16% vs. 19% | |||
**Also less likely to be discharged with good functional status, 11% vs. 14% | |||
==Absolute Contraindications== | |||
*No absolute contraindications when performed as an emergent procedure | |||
**Exception: cannot ventilate and anticipate near impossible orotracheal intubation, strongly consider [[surgical airway]] | |||
== | ==Relative Contraindications== | ||
''See [[Predicting the difficult airway]]'' | |||
{{Difficult BVM}} | |||
== | ===Difficult Intubation (LEMON)=== | ||
*'''L'''ook externally (gestalt) | |||
*'''E'''valuate 3-3-2 rule | |||
*'''M'''allampati | |||
*'''O'''bstruction | |||
*'''N'''eck mobility | |||
==Equipment Needed== | |||
| | [[File:Normal Epiglottis.jpg|thumb|Normal intubation view.]] | ||
| | *Medications | ||
**Induction agent | |||
**Paralytic agent | |||
*Laryngoscope (type based on clinical indication and provider preference) | |||
**[[Direct laryngoscopy|Direct laryngoscope]] with blade of provider's choice '''or''' | |||
**[[Video Laryngoscopy|Video laryngoscope]] (Glidescope, C-Mac, KingVision, etc.) '''or''' | |||
| | **Optical stylet (Shikani, Levitan, etc.) '''or''' | ||
|- | **Fiberoptic device | ||
*Endotracheal tube | |||
*End-tidal CO2 device (colorimetric or quantitative) | |||
*Ventilator | |||
*Suction | |||
*Intubation adjuncts ([[Bougie|bougie]], lighted stylet, etc) | |||
| | **Ensure you have correct stylet for type of laryngoscope you are using | ||
***[[Direct laryngoscopy|Direct]] or Mactintosh-blade videolaryngoscopes require malleable stylets | |||
|- | ***Hyperangulated [[Video laryngoscopy|videolaryngoscopes]] require rigid stylets | ||
| | *BVM | ||
*[[OPA]]/NPA | |||
*Method of preoxygenation (NC, NRB, C-PAP, etc) | |||
*Nasal cannula for [[apneic oxygenation]] | |||
== | ==SOAP-ME Checklist Mnemonic== | ||
* | *'''S'''uction | ||
*'''O'''xygen | |||
**Nasal cannula | |||
**Non-rebreather | |||
**Bag-valve mask | |||
*'''A'''irways | |||
**Endotracheal tube | |||
**Rescue devices | |||
**Adjuncts | |||
*'''P'''ositioning | |||
*'''M'''edications | |||
*'''E'''quipment | |||
**Laryngoscope | |||
**EtCO2 | |||
**[[Bougie]] | |||
== | ==Procedure== | ||
#sniffing position | [[File:Macintosh Blades.jpg|thumb|Macintosh Blades 1-5, from bottom to top]] | ||
# | [[File:MAC_MILLER.png|thumb|The Macintosh blade is inserted into the vallecula (left) while the Miller blade is inserted under and lifts the epiglottis (right)]] | ||
# | ===[[Direct laryngoscopy]] (with Macintosh blade)=== | ||
# | # Place patient into sniffing position | ||
# | # Use "scissor" technique with right hand to open mouth | ||
# Insert laryngoscope blade into right side of mouth | |||
# Slowly advance blade into mouth while performing "tongue sweep" | |||
# Identify epiglottis | |||
# Advance tip of blade into vallecula | |||
# Lift upward and away from operator to expose glottis | |||
# Deliver tube through vocal cords | |||
===[[Video laryngoscopy]]=== | |||
*Hyperangulated video laryngoscope | |||
**Patient ideally in neutral spine position (as opposed to "sniffing" position for direct laryngoscopy) | |||
**After induction, use right hand to "scissor" mouth open | |||
**Place hyperangulated blade midline and slowly advance with progressive identification of airway landmarks | |||
**Advance blade into vallecula | |||
**When cords fill entire screen (Cormack-Lehane Grade I), slightly retract laryngoscopy so that cords only occupy upper 1/3 of screen (CL Grade II, allows for passage of ETT with rigid stylet)<ref>Gu Y, Robert J, Kovacs G, et al. A deliberately restricted laryngeal view with the GlideScope® video laryngoscope is associated with faster and easier tracheal intubation when compared with a full glottic view: a randomized clinical trial. Une vue laryngée délibérément restreinte à l'aide du vidéolaryngoscope GlideScope® est associée à une intubation trachéale plus rapide et plus aisée qu'une vue glottique totale: une étude clinique randomisée. Can J Anaesth. 2016;63(8):928-937. doi:10.1007/s12630-016-0654-6</ref> | |||
***If intubation is attempted with the best view possible, operators often have difficulty advancing the tube around the tongue and hypopharyngeal soft tissues | |||
*Standard geometry video laryngoscope | |||
**Same technique utilized with [[Direct laryngoscopy|direct laryngoscopy]] | |||
**Can either visualize directly or utilize video screen for tube delivery | |||
==Post-Procedure== | |||
*Confirm tube placement with auscultation and end tidal CO2<ref>Scott Weingart, MD FCCM. Podcast 84 – The Post-Intubation Package. EMCrit Blog. Published on October 16, 2012. Accessed on January 16th 2021. Available at [https://emcrit.org/emcrit/post-intubation-package/ ].</ref> | |||
*Secure tube | |||
*Place OG to decompress stomach | |||
*Provide sedation and analgesia | |||
*Head of bed to at least 30° | |||
*Obtain CXR | |||
**Tube should be 3-5 cm from the carina | |||
*Check ABG ~30 minutes after intubation | |||
*Check cuff pressures - should be between 20-30 cm H2O | |||
*Check plateau pressure using "inspiratory hold" - should be less than 30 cm H2O | |||
[[File:ETtubeGoodPosition.png|thumb|An endotracheal tube in good position on CXR. Arrow marks the tip.]] | |||
[[File:ETtubeToHigh.png|thumb|An endotracheal tube not deep enough. Arrow marks the tip.]] | |||
{{Initial ventilation settings table}} | |||
==Complications== | |||
*[[The difficult airway]] | |||
==Special Situations== | |||
===Severe [[Metabolic Acidosis]]=== | |||
''Further drop in pH during intubation can be catastrophic'' | |||
*NIV (SIMV Vt 550, FiO2 100%, Flow Rate 30 LPM, PSV 5-10, PEEP 5, RR 0) | |||
**SIMV on ventilator, not NIV machine | |||
**"Pseudo-SIMV" mode | |||
*Attach end-tidal CO2 and observe value | |||
*Push [[Rapid Sequence Intubation (RSI)|RSI]] medications | |||
*Turn the respiratory rate to 12 | |||
*Perform jaw thrust | |||
*Wait 45sec | |||
*[[Intubate]] | |||
*Re-attach the ventilator | |||
*Immediately increase rate to 30 | |||
*Change Vt to 8cc/kg | |||
*Change flow rate to 60 LPM (normal setting) | |||
*Make sure end-tidal CO2 is at least as low as before | |||
===Active [[GI Bleed]]=== | |||
#Empty the stomach | |||
#*Place an NG and suction out blood | |||
#**Varices are not a contraindication | |||
#*Metoclopramide 10mg IV | |||
#**Increases LES tone | |||
#Intubate with HOB at 45° | |||
#Preoxygenate! | |||
#*Want to avoid bagging if possible | |||
#Intubation meds | |||
#*Use sedative that is BP stable with lower dose (etomidate, ketamine) | |||
#*Use paralytics with higher dose (actually increases LES tone) | |||
#If need to bag: | |||
#*Bag gently and slowly (10BPM) | |||
#*Consider placing LMA | |||
#If patient vomits | |||
#*Place in Trendelenberg | |||
#*Place LMA | |||
#*Use meconium aspirator | |||
#If patient aspirates anticipate a sepsis-like syndrome | |||
#*May need [[pressors]], additional fluid (not antibiotic!) | |||
==Video== | |||
{{#widget:YouTube|id=99X2-a4mdxc}} | |||
==See Also== | ==See Also== | ||
[[Difficult Airway | *[[EBQ:Effect_of_video_laryngoscopy_on_trauma_patient_survival]] | ||
{{Related Difficult Airway Pages}} | |||
{{Mechanical ventilation pages}} | |||
==External Links== | |||
*[http://emcrit.org/podcasts/tube-severe-acidosis/ EMCrit Podcast – Ventilatory Kills – Intubating the patient with Severe Metabolic Acidosis] | |||
*[https://first10em.com/intubation/ First 10 EM: Intubation] | |||
===Videos=== | |||
*Hippo ED (12:50) https://www.youtube.com/watch?v=-M3OlfmKjO8 | |||
== | ==References== | ||
<References/> | |||
[[Category: | [[Category:Critical Care]] | ||
[[Category:Procedures]] |
Revision as of 20:39, 8 March 2021
This page is for adult patients. For pediatric patients, see: intubation (peds)
Indications
- Failure to ventilate
- Failure to oxygenate
- Inability to protect airway
- Gag reflex is absent at baseline in ~1/3 of people[1], so lack of gag reflex is inadequate in determination of ability to protect airway.
- If a patient is able to tolerate placement of an oropharyngeal airway, they likely require intubation for airway protection
- GCS <8 generally an indication for intubation in trauma patients
- Anticipated clinical course (anticipated deterioration, need for transport, or impending airway compromise)
- Combative patient who needs imaging (suspicion of intracranial process, etc)
Considerations
- 2015 AHA ACLS guidelines deemphasize placement of advanced airway placement in initial resuscitation
- Out-of-hospital arrest data suggests lower survival of those intubated in field[2]
- 108,000 patients examined in U.S. registry of inpatient hospital arrests, with 95% of intubations occurring within 15 min of resuscitation[3]
- Patients intubated were significantly less likely to survive to discharge, 16% vs. 19%
- Also less likely to be discharged with good functional status, 11% vs. 14%
Absolute Contraindications
- No absolute contraindications when performed as an emergent procedure
- Exception: cannot ventilate and anticipate near impossible orotracheal intubation, strongly consider surgical airway
Relative Contraindications
See Predicting the difficult airway
Difficult BVM (MOANS)
- Mask seal
- Obesity
- Aged
- No teeth
- Stiffness (resistance to ventilation)
Difficult Intubation (LEMON)
- Look externally (gestalt)
- Evaluate 3-3-2 rule
- Mallampati
- Obstruction
- Neck mobility
Equipment Needed
- Medications
- Induction agent
- Paralytic agent
- Laryngoscope (type based on clinical indication and provider preference)
- Direct laryngoscope with blade of provider's choice or
- Video laryngoscope (Glidescope, C-Mac, KingVision, etc.) or
- Optical stylet (Shikani, Levitan, etc.) or
- Fiberoptic device
- Endotracheal tube
- End-tidal CO2 device (colorimetric or quantitative)
- Ventilator
- Suction
- Intubation adjuncts (bougie, lighted stylet, etc)
- Ensure you have correct stylet for type of laryngoscope you are using
- Direct or Mactintosh-blade videolaryngoscopes require malleable stylets
- Hyperangulated videolaryngoscopes require rigid stylets
- Ensure you have correct stylet for type of laryngoscope you are using
- BVM
- OPA/NPA
- Method of preoxygenation (NC, NRB, C-PAP, etc)
- Nasal cannula for apneic oxygenation
SOAP-ME Checklist Mnemonic
- Suction
- Oxygen
- Nasal cannula
- Non-rebreather
- Bag-valve mask
- Airways
- Endotracheal tube
- Rescue devices
- Adjuncts
- Positioning
- Medications
- Equipment
- Laryngoscope
- EtCO2
- Bougie
Procedure
Direct laryngoscopy (with Macintosh blade)
- Place patient into sniffing position
- Use "scissor" technique with right hand to open mouth
- Insert laryngoscope blade into right side of mouth
- Slowly advance blade into mouth while performing "tongue sweep"
- Identify epiglottis
- Advance tip of blade into vallecula
- Lift upward and away from operator to expose glottis
- Deliver tube through vocal cords
Video laryngoscopy
- Hyperangulated video laryngoscope
- Patient ideally in neutral spine position (as opposed to "sniffing" position for direct laryngoscopy)
- After induction, use right hand to "scissor" mouth open
- Place hyperangulated blade midline and slowly advance with progressive identification of airway landmarks
- Advance blade into vallecula
- When cords fill entire screen (Cormack-Lehane Grade I), slightly retract laryngoscopy so that cords only occupy upper 1/3 of screen (CL Grade II, allows for passage of ETT with rigid stylet)[4]
- If intubation is attempted with the best view possible, operators often have difficulty advancing the tube around the tongue and hypopharyngeal soft tissues
- Standard geometry video laryngoscope
- Same technique utilized with direct laryngoscopy
- Can either visualize directly or utilize video screen for tube delivery
Post-Procedure
- Confirm tube placement with auscultation and end tidal CO2[5]
- Secure tube
- Place OG to decompress stomach
- Provide sedation and analgesia
- Head of bed to at least 30°
- Obtain CXR
- Tube should be 3-5 cm from the carina
- Check ABG ~30 minutes after intubation
- Check cuff pressures - should be between 20-30 cm H2O
- Check plateau pressure using "inspiratory hold" - should be less than 30 cm H2O
Initial ventilation settings
Disease | Tidal Volume (mL/kg^) | Respiratory Rate | I:E | PEEP | FiO2 |
Traditional | 8 | 10-12 | 1:2 | 5 | 100% |
Lung Protective (e.g. ARDS) | 6 | 12-20 | 1:2 | 2-15 | 100% |
Obstructive (e.g. bronchoconstriction) | 6 | 5-8 | 1:4 | 0-5 | 100% |
Hypovolemic | 8 | 10-12 | 1:2 | 0-5 | 100% |
Complications
Special Situations
Severe Metabolic Acidosis
Further drop in pH during intubation can be catastrophic
- NIV (SIMV Vt 550, FiO2 100%, Flow Rate 30 LPM, PSV 5-10, PEEP 5, RR 0)
- SIMV on ventilator, not NIV machine
- "Pseudo-SIMV" mode
- Attach end-tidal CO2 and observe value
- Push RSI medications
- Turn the respiratory rate to 12
- Perform jaw thrust
- Wait 45sec
- Intubate
- Re-attach the ventilator
- Immediately increase rate to 30
- Change Vt to 8cc/kg
- Change flow rate to 60 LPM (normal setting)
- Make sure end-tidal CO2 is at least as low as before
Active GI Bleed
- Empty the stomach
- Place an NG and suction out blood
- Varices are not a contraindication
- Metoclopramide 10mg IV
- Increases LES tone
- Place an NG and suction out blood
- Intubate with HOB at 45°
- Preoxygenate!
- Want to avoid bagging if possible
- Intubation meds
- Use sedative that is BP stable with lower dose (etomidate, ketamine)
- Use paralytics with higher dose (actually increases LES tone)
- If need to bag:
- Bag gently and slowly (10BPM)
- Consider placing LMA
- If patient vomits
- Place in Trendelenberg
- Place LMA
- Use meconium aspirator
- If patient aspirates anticipate a sepsis-like syndrome
- May need pressors, additional fluid (not antibiotic!)
Video
{{#widget:YouTube|id=99X2-a4mdxc}}
See Also
Airway Pages
- Pre-intubation
- Induction
- Intubation
- Surgical airways
- Post-intubation
Mechanical Ventilation Pages
- Noninvasive ventilation
- Intubation
- Mechanical ventilation (main)
- Miscellaneous
External Links
- EMCrit Podcast – Ventilatory Kills – Intubating the patient with Severe Metabolic Acidosis
- First 10 EM: Intubation
Videos
- Hippo ED (12:50) https://www.youtube.com/watch?v=-M3OlfmKjO8
References
- ↑ Davies AE, Kidd D, Stone SP, MacMahon J. Pharyngeal sensation and gag reflex in healthy subjects. Lancet. 1995 Feb 25;345(8948):487-8.
- ↑ Hasegawa K et al. Association of prehospital advanced airway management with neurologic outcome and survival in patients with out-of-hospital cardiac arrest. JAMA 2013 Jan 16; 309:257.
- ↑ Angus DC.Whether to intubate during cardiopulmonary resuscitation: Conventional wisdom vs big data. JAMA 2017 Feb 7; 317:477.
- ↑ Gu Y, Robert J, Kovacs G, et al. A deliberately restricted laryngeal view with the GlideScope® video laryngoscope is associated with faster and easier tracheal intubation when compared with a full glottic view: a randomized clinical trial. Une vue laryngée délibérément restreinte à l'aide du vidéolaryngoscope GlideScope® est associée à une intubation trachéale plus rapide et plus aisée qu'une vue glottique totale: une étude clinique randomisée. Can J Anaesth. 2016;63(8):928-937. doi:10.1007/s12630-016-0654-6
- ↑ Scott Weingart, MD FCCM. Podcast 84 – The Post-Intubation Package. EMCrit Blog. Published on October 16, 2012. Accessed on January 16th 2021. Available at [1].