Follows difficult airway algorithm with RSI protocols and backup airway planning. Use when managing difficult airways, planning rapid sequence intubation, or documenting airway management.
Follows the difficult airway algorithm with rapid sequence intubation protocols, predictive assessment tools, and mandatory backup airway planning for every emergency intubation attempt.
Why This Skill Exists
Airway management is the defining procedural competency of emergency medicine. Failed intubation in the ED carries a mortality rate of 25-30%, and cannot-intubate-cannot-oxygenate (CICO) scenarios, while rare (0.5-1% of ED intubations), are nearly uniformly fatal without immediate surgical airway intervention. Unlike the controlled operating room environment, ED airways present with full stomachs, cervical spine precautions, hemodynamic instability, and limited pre-assessment time.
The National Audit Project 4 (NAP4) found that poor airway planning, failure to predict difficulty, and delayed transition to surgical airway were the leading contributors to airway death. This skill enforces the cognitive framework: every ED intubation requires a plan A (primary method), plan B (alternate device), and plan C (surgical airway) before the first laryngoscopy attempt.
Checkpoint A: Pre-Draft Intake (Mandatory)
What is the indication for intubation (failure to protect airway, failure to oxygenate, failure to ventilate, anticipated clinical course)?
関連 Skill
Can the patient be preoxygenated, or is this a crash airway with immediate desaturation?
What is the predicted difficulty? Apply LEMON assessment (Look externally, Evaluate 3-3-2, Mallampati score, Obstruction, Neck mobility).
What is the patient's hemodynamic status (SBP, MAP, vasopressor requirement)?
Is there a cervical spine concern requiring in-line stabilization?
What is the patient's weight (actual or estimated) for medication dosing?
Does the patient have any known difficult airway history (prior intubation records, MedicAlert)?
What equipment is immediately available (video laryngoscope, bougie, supraglottic airway, surgical airway kit)?
Documents to Request
Prior anesthesia records documenting airway grade or difficulty
Current medication list (MAOIs, beta-blockers, anticoagulants)
Standard: 3-5 minutes of tidal volume breathing on 100% FiO2 via NRB or flush-rate oxygen
Apneic oxygenation: Place 15 LPM nasal cannula under NRB during preoxygenation and leave in place during laryngoscopy
Delayed sequence intubation (DSI): For combative patients who cannot tolerate preoxygenation—ketamine 1-2 mg/kg IV to achieve dissociation while maintaining respiratory drive, then preoxygenate
BVM-assisted: For patients already desaturating, provide gentle BVM ventilation with PEEP valve at 5-10 cmH2O
Preferred in hypotension/sepsis; safe in head injury (old contraindication debunked)
Propofol
1.5-2 mg/kg IV
15-30 sec
5-10 min
Causes hypotension—avoid in shock; reduce dose 50% if hemodynamically tenuous
Midazolam
0.1-0.3 mg/kg IV
60-90 sec
15-30 min
Slowest onset, most hemodynamic depression—rarely first choice
Paralytic
Dose
Onset
Duration
Contraindications
Succinylcholine
1.5 mg/kg IV (2 mg/kg IM)
30-60 sec
6-10 min
Hyperkalemia risk: burns >24h, crush injury >24h, denervation injury, rhabdomyolysis, renal failure with K >5.5
Rocuronium
1.2 mg/kg IV
45-60 sec
40-60 min
No absolute contraindications; sugammadex reversal available
Push-Dose Vasopressor for Peri-Intubation Hypotension
Prepare before induction for any patient with SBP <100 or MAP <65:
Push-dose epinephrine: 10 mcg/mL (mix 1 mL of 1:10,000 in 9 mL NS); give 0.5-2 mL (5-20 mcg) IV every 1-2 minutes
Phenylephrine: 100 mcg/mL boluses for pure vasodilation without chronotropy concerns
Step 3: Laryngoscopy and Intubation Technique
Position: sniffing position (ear-to-sternal-notch alignment) or ramped for obese patients
First pass should be best pass—use the device the operator is most proficient with
Video laryngoscopy (VL) is recommended as first-line in most ED intubations (improved first-pass success, better for teaching, allows team visualization)
Bougie should be immediately available for every attempt—first-pass success improves from 82% to 96% with routine bougie use in difficult airways
External laryngeal manipulation (ELM/BURP) by the intubator's hand or assistant
Grade the view: Cormack-Lehane I-IV and document
Three-attempt rule: If the primary plan fails after a maximum of three laryngoscopy attempts (or two for experienced operators), immediately move to Plan B. Each attempt should involve a deliberate change in technique (different blade, different position, different operator).
Step 4: Confirmation of Placement
Mandatory confirmation hierarchy (all three required):
Primary: Continuous waveform capnography (ETCO2)—gold standard; must show at least 3 consecutive waveforms
Secondary: Direct visualization of tube passing through cords (if using VL)
False negative ETCO2: In cardiac arrest, ETCO2 may be very low (<10 mmHg) despite correct placement due to low cardiac output—use direct visualization and clinical assessment.
Post-intubation: Chest X-ray to confirm depth (tip 3-5 cm above carina, approximately at T3-T4 level). Secure tube with commercial device; note depth at teeth/gums.
Step 5: Failed Airway and Rescue Plan
Scenario
Action
Can oxygenate, cannot intubate
Place supraglottic airway (iGel, LMA, King LT); consider awake fiberoptic if time permits
Cannot oxygenate, cannot intubate (CICO)
Immediate surgical cricothyrotomy—do not delay with additional oral/nasal attempts
Front-of-neck access (FONA)
Surgical technique preferred over needle cric in adults; vertical skin incision, horizontal cricothyroid membrane incision, bougie through membrane, 6.0 cuffed tube
CICO declaration: Any team member can call CICO. Once declared, the team leader must verbally commit to surgical airway. Time from CICO declaration to first ventilation through surgical airway should be <2 minutes.
Step 6: Post-Intubation Management
Confirm tube depth and secure with commercial holder
Initiate ventilator settings: TV 6-8 mL/kg IBW, RR 14-16, FiO2 100% initially then wean by SpO2
Begin post-intubation sedation and analgesia (do not leave paralyzed patient without sedation)
Was a difficult airway assessment performed and documented before the first attempt?
Were Plans A, B, and C explicitly stated before induction?
Is waveform capnography confirmation documented for tube placement?
Are all medications documented with dose, time, and route?
Is the post-intubation ventilator setting and sedation plan documented?
Quality Audit
#
Criterion
Pass/Fail
1
LEMON or equivalent difficult airway assessment documented
2
Preoxygenation method and duration recorded
3
Apneic oxygenation (nasal cannula during attempt) documented
4
Induction and paralytic agents with weight-based doses recorded
5
Laryngoscope type (DL vs VL) and blade size documented
6
Cormack-Lehane grade recorded
7
Number of attempts and operator for each attempt documented
8
Waveform capnography confirmation documented
9
Tube size and depth at teeth recorded
10
Post-intubation CXR obtained and interpreted
11
Sedation and analgesia initiated post-intubation
12
Backup airway plan stated before first attempt
13
Push-dose vasopressor prepared for patients at hemodynamic risk
14
Post-intubation ventilator settings documented
Guidelines
First pass success is the primary quality metric—each subsequent attempt increases complication risk (desaturation, aspiration, bradycardia, cardiac arrest) by 7-fold after the third attempt
Video laryngoscopy should be the default in ED intubation per multiple society recommendations; direct laryngoscopy is a backup, not the standard
Succinylcholine hyperkalemia risk is from upregulated extrajunctional receptors, which takes 24-72 hours to develop after burns, crush injury, or denervation—acute presentations are safe
Ketamine does NOT raise ICP in clinical practice—the 1970s data was flawed; it is the preferred induction agent in hemodynamically unstable patients
Rocuronium at 1.2 mg/kg provides intubating conditions equivalent to succinylcholine in 45-60 seconds; lower doses (0.6 mg/kg) have slower onset and should be avoided for RSI
Surgical airway is a definitive airway, not a failure—delay in performing cricothyrotomy when indicated is the most common error in CICO scenarios
Always debrief after difficult airway events—document lessons learned for institutional quality improvement and create an airway alert in the patient's medical record