Rapid Sequence Intubation (RSI) (2022)

Reviewed and revised 18 June 2015


  • Rapid sequence intubation (RSI) is an airway management technique that produces inducing immediate unresponsiveness (induction agent) and muscular relaxation (neuromuscular blocking agent) and is the fastest and most effective means of controlling the emergency airway
  • the cessation of spontaneous ventilation involves considerable risk if the provider does not intubate or ventilate the patient in a timely manner
  • RSI is particularly useful in the patient with an intact gag reflex, a “full” stomach, and a life threatening injury or illness requiring immediate airway control
  • ‘modified’ RSI is a term sometimes used to describe variations on the ‘classic’ RSI approach (e.g. ventilation during apnea, titration of induction agents); modified approaches tend to trade an increased risk of aspiration for other benefits (e.g. prevent respiratory acidosis due to apnea from compounding severe metabolic acidosis)



  • A – airway protection and patency
  • B – respiratory failure (hypercapnic or hypoxic), increase FRC, decrease WOB, secretion management/ pulmonary toilet, to facilitate bronchoscopy
  • C – minimise oxygen consumption and optimize oxygen delivery (e.g. sepsis)
  • D – unresponsive to pain, terminate seizure, prevent secondary brain injury
  • E — temperature control (e.g. serotonin syndrome)
  • F — For humanitarian reasons (e.g. procedures) and for safety during transport (e.g. psychosis)

The decision to perform RSI in the ‘out of theatre’ setting involves weighing the pros and cons:


  • Lack of airway protection despite patency (swallow, gag, cough, positioning , and tone)hypoxia
  • hypoventilation
  • need for neuroprotection (e.g. target PaCO2 35-40 mmHg)
  • impending obstruction(e.g. airway burn, penetrating neck injury)
  • prolonged transfer
  • combativeness
  • humane reasons (e.g. major trauma requiring multiple interventions)
  • cervical spine injury (diaphragmatic paralysis)


  • urgent need to OT and theatre is available anatomically or pathologically difficult airway (e.g. congenital deformity, laryngeal fracture)
  • close proximity to OT
  • paediatric cases (especially <5 years of age)
  • hostile environment
  • poorly functioning team
  • lack of requisite skills among team
  • emergency surgical airway is not possible (e.g. neck trauma, tumour)


RSI is useful if the following are present (from Richard Levitan’s Airwaycam.com):

  1. Dynamically deteriorating clinical situation, i.e., there is a real “need for speed”
  2. Non-cooperative patient
  3. Respiratory and ventilatory compromise
  4. Impaired oxygenation
  5. Full stomach (increased risk of regurgitation, vomiting, aspiration)
  6. Extremely short safe apnea times
  7. Secretions, blood, vomitus, and distorted anatomy


Remembered as the 9Ps:

  • Plan
  • Preparation (drugs, equipment, people, place)
  • Protect the cervical spine
  • Positioning (some do this after paralysis and induction)
  • Preoxygenation
  • Pretreatment (optional; e.g. atropine, fentanyl and lignocaine)
  • Paralysis and Induction
  • Placement with proof
  • Postintubation management

Some add a 10th P for (cricoid) pressure after pretreatment but this procedure is optional and has many drawbacks (see Cricoid Pressure)

Ideally, minimise instrumentation and suctioning prior to intubation to avoid stimulation of the patient’s gag reflex.

(Video) What is Rapid Sequence Intubation (RSI)?


The airway team should be a minimum of 3 people:

  • airway proceduralist
  • airway assistant
  • drug administrator

The team leader may perform one of the above roles if necessary, but should ideally be a separate stand alone role.

Other roles include:

  • person to perform MILS if indicated
  • person to perform cricoid pressure (if deemed necessary)
  • scribe

In the event of a failed airway, another person may take on the role of the airway proceduralist and role re-allocation must be clearly communicated to the team.


Preparation requires control over:

  • self
  • patient
  • others
  • environment

Maintain a ‘sterile cockpit environment’ when communicating the airway plan to the team, ideally through use of a ‘call and response’ checklist— otherwise one of these two mnemonics will help:



  • Suction— at least one working suction, place it between mattress and bed
  • Oxygen— NRBM and BVM attached to 15 LPM of O2, preferably with nasal prongs for apneic oxygenation
  • Airways— 7.5 ET tube with stylet fits most adults, 7.0 for smaller females, 8.0 for larger males, test balloon by filling with 10 cc of air with a syringe— Stylet – placed inside ET tube for rigidity, bend it 30 degrees starting at proximal end of cuff (i.e. straight to cuff, then 30 degree bend)— Blade – Mac 3 or 4 for adults – curved blade— Miller 3 or 4 for adults – straight blade— Handle – attach blade and make sure light source works— Backups – ALWAYS have a surgical cric kit available!— have video laryngoscope, LMA and bougie at bedside
  • Pre-oxygenate – 15 LPM NRBM
  • Monitoring equipment/Medications— Cardiac monitor, pulse ox, BP cuff opposite arm with IV— Medications drawn up and ready to be given
  • End Tidal CO2

O2 MARBLES is an alternative for the equipment and planning:

  • Oxygen
  • masks (NP, NRB, BVM); monitoring
  • airway adjuncts (e.g. OPA, NPA, LMA); Ask for help and difficult airway trolley
  • RSI drugs; Resus drugs
  • BVM; Bougie
  • Laryngoscopes; LMA
  • ETTs; ETCO2
  • Suction; State Plan


Does not exist (unfortunately!), but if it did it would:

  • smoothly and quickly render the patient unconscious, unresponsive and amnestic in one arm/heart/brain circulation time
  • provide analgesia
  • maintain stable cerebral perfusion pressure and cardiovascular haemodynamics
  • be immediately reversible
  • have few, if any, side effects


Regarding doses given below:

(Video) Rapid Sequence Induction & Intubation: Intro & Indications - MEDZCOOL

  • doses shown are for intravenous (IV) administration
  • IBW = ideal body weight, TBW = total body weight
  • doses may need to be adjusted in the hypotensive or shocked patient (see Intubation, Hypotension and Shock)

Induction agents

  • Ketamine 1.5-2 mg/kg IBW
  • Etomidate 0.3-0.4 mg/kg TBW
  • Fentanyl 2-10 mcg/kg TBW
  • Midazolam 0.1-0.3 mg/kg TBW
  • Propofol 1-2.5 mg/kg IBW + (0.4 x TBW) (others simply use 1.5 mg/kg x TBW as the general guide)
  • Thiopental 3-5 mg/kg TBW

Neumuscular blockers:

  • Suxamethonium 1-2 mg/kg TBW
  • Rocuronium 0.6-1.2 mg/kg IBW
  • Vecuronium 0.15-0.25 mg/kg IBW



  • Dose: 1.5 mg/kg IV (4mg/kg IM)
  • Onset: 60-90 sec
  • Duration: 10-20 min
  • Use: any RSI, especially if hemodynamically unstable (OK in TBI, does not increase ICP despite traditional dogma) or if reactive airways disease (causes bronchodilation)
  • Drawbacks: increased secretions, caution in cardiovascular disease (hypertension, tachycardia), laryngospasm (rare), raised intra-ocular pressure


  • Dose: 3-5 mg/kg IV TBW
  • Onset: 30-45 sec
  • Duration: 5-10 min
  • Use: any RSI if haemodynamically stable, status epilepticus
  • Drawbacks: histamine release, myocardial depression, vasodilation, hypotension, must NOT be injected intra-arterially due to risk of distal ischaemia, contra-indicated in porphyria


  • Propofol 1-2.5 mg/kg IBW + (0.4 x TBW) (others simply use 1.5-2.5 mg/kg x TBW as the general guide)
  • Onset: 15-45 seconds
  • Duration: 5 – 10 minutes
  • Use: Haemodynamically stable patients, reactive airways disease, status epilepticus
  • Drawbacks: hypotension, myocardial depression, reduced cerebral perfusion, pain on injection, variable response, very short acting


  • Dose IV 2-10 mcg/kg TBW
  • Onset: <60 seconds (maximal at ~5 min)
  • Duration: dose dependent (30 minutes for 1-2 mcg/kg, 6h for 100 mcg/kg)
  • Use: may be used in a low dose as a sympatholytic premedication (e.g. TBI, SAH, vascular emergencies); may used in a’modified’ RSI approach in low doses or titrated to effect in cardiogenic shock and other hemodynamically unstable conditions
  • Drawbacks: respiratory depression, apnea, hypotension, slow onset, nausea and vomiting, muscular rigidity in high induction doses, bradycardia, tissue saturation at high doses


  • Dose: 0.3mg/kg IV TBW
  • Onset: 60-90 sec
  • Duration: 15-30 min
  • Use: not usually recommended for RSI, some practitioners use low doses of midazolam and fentanyl for RSI of shocked patients
  • Drawbacks: respiratory depression, apnea, hypotension, paradoxical agitation, slow onset, variable response


  • 0.3mg/kg IV
  • onset: 10-15 seconds
  • Use: suitable for most situations including haemodynamically unstable, other than sepsis or seizures
  • Drawbacks: adrenal suppression, myoclonus, pain on injection, not available in Australia


Suxamethonium (aka succinylcholine)

  • Dose: 1.5 mg/kg IV (2 mg/kg IV if myasthenia gravis) and 4 mg/kg IM (in extremis)
  • Onset: 45-60 seconds
  • Duration: 6-10 minutes
  • Use: widely used unless conra-indicated; ideal if need to extubate rapidly following an elective procedure or to assess neurology in an intubated pateint
  • Drawbacks: numerous contra-indications (hyperkalemia, malignant hyperthermia, >5d after burns/ crush injury/ neuromuscular disorder), bradycardia (esp after repeat doses), hyperkalemia, fasciculations, elevated intra-ocular pressure, will not wear off fast enough to prevent harm in CICV situations


  • Dose: 1.2 mg/kg IV IBW
  • Onset: 60 seconds
  • Use: can be used for any RSI unless contra-indication or require rapid recovery for extubation after elective procedure or neurological assessment; ensures persistent ideal conditions in CICV situation (i.e. immobile patient for cricothyroidotomy) – can be reversed by sugammadex
  • Drawbacks: allergy (Rare)


  • Dose: 0.15 mg/kg IV (may be preceded by a 0.01 mg/kg IV priming dose 3 minutes earlier)
  • Osent: 120-180 econds
  • Duration: 45-60 minutes
  • Use: not recommended for RSI, unless no suxamethonium or rocuronium cannot be used – can be reversed by sugammadex
  • Drawbacks: allergy (rare), slow onset, long duration


(Video) Rapid Sequence Induction

  • see pretreatment drugs for RSI


Ensure 360 degree access to the patient

  • consider ‘scoop and run’ (e.g. from prehospital envirnoment to ED, or from ward to recovery/ ICU)
  • RSI is rarely practical in the position that the patient is found, whether that be prehospital or on the ward
  • airway equipment (e.g. prehospital ‘kit dump’), monitors and the airway assistant are typically on the patient’s right

RSI in an ambulance

  • intubation of a patient on the ground:
    • best eye line for intubator if intubator is lying prone
    • prone intubator is at a mechanical disadvanatge, this can be overcome by perfroming intubatiion with the patient in the left lateral position- but this is more technically challenging and the intubator should have left elbow padding
  • ideally avoid intubation on the ground
    • can place patient on spine board or equivalent and raise
    • can perform with intubator kneeling (use knee pads)

RSI in aircraft

  • have a low threshold for RSI prior to take off
  • in aircraft there is variable access to the airway and the whole patient so intubation should be avoided if possible
  • in confined space aircraft, the approach is to pre-oxyegnate and then land for RSI (PALM may be performed if needed)
  • in non-confined space airacraft landing may still be the preferred option
  • intubation in an aircraft may be needed in certain settings (e.g. resuce from a hostile environment)

RSI in a ward environment

  • consider transfer to recovery/ ICU for RSI
  • exercise crowd control
  • adjust and move beds and other equipment as required
  • ensure access to the patient
  • consider the needs of other patients nearby

References and Links


  • CCC — Paediatric Rapid Sequence Intubation
  • CCC — Preoxygenation
  • CCC — Intubation, Hypotension and Shock
  • CCC — Difficult Airway Algorithms
  • CCC — Direct Laryngoscopy
  • CCC — Cricoid Pressure

Journal articles

  • Bernhard M et al. The First Shot Is Often the Best Shot: First-Pass Intubation Success in Emergency Airway Management. Anesth Analg. 2015; 121(5):1389-93. PMID 26484464
  • El-Orbany M, Connolly LA. Rapid sequence induction and intubation: current controversy. Anesth Analg. 2010 May 1;110(5):1318-25. doi: 10.1213/ANE.0b013e3181d5ae47. Epub 2010 Mar 17. PMID: 20237045. [Free Full Text]
  • Stept WJ, Safar P. Rapid induction-intubation for prevention of gastric-content aspiration. Anesth Analg. 1970 Jul-Aug;49(4):633-6. PMID: 5534675.
  • Stewart JC, Bhananker S, Ramaiah R. Rapid-sequence intubation and cricoid pressure. Int J Crit Illn Inj Sci [serial online] 2014

FOAM and web resources

Rapid Sequence Intubation (RSI) (2)

Critical Care


…more CCC

(Video) Rapid Sequence Intubation: Review of Medications

Chris Nickson

Chris is an Intensivist and ECMO specialist at theAlfred ICU in Melbourne. He is also a Clinical Adjunct Associate Professor at Monash University.He is a co-founder of theAustralia and New Zealand Clinician Educator Network(ANZCEN) and is the Lead for theANZCEN Clinician Educator Incubatorprogramme. He is on the Board of Directors for theIntensive Care Foundationand is a First Part Examiner for theCollege of Intensive Care Medicine. He is an internationally recognised Clinician Educator with a passion for helping clinicians learn and for improving the clinical performance of individuals and collectives.

After finishing his medical degree at the University of Auckland, he continued post-graduate training in New Zealand as well as Australia’s Northern Territory, Perth and Melbourne. He has completed fellowship training in both intensive care medicine and emergency medicine, as well as post-graduate training in biochemistry, clinical toxicology, clinical epidemiology, and health professional education.

He is actively involved in in using translational simulation to improve patient care and the design of processes and systems at Alfred Health. He coordinates the Alfred ICU’s education and simulation programmes and runs the unit’s educationwebsite,INTENSIVE. He created the ‘Critically Ill Airway’ course and teaches on numerous courses around the world. He is one of the founders of theFOAMmovement (Free Open-Access Medical education) and is co-creator oflitfl.com,theRAGE podcast, theResuscitologycourse, and theSMACCconference.

His one great achievement is being the father of three amazing children.

OnTwitter, he is@precordialthump.

| INTENSIVE | RAGE | Resuscitology | SMACC

(Video) "Medications for Rapid Sequence Induction" by Robert Pascucci, MD for OPENPediatrics


What is rapid sequence induction in which patient RSI is needed? ›

Rapid sequence induction and intubation (RSII) for anesthesia is a technique designed to minimize the chance of pulmonary aspiration in patients who are at higher than normal risk.

What is the difference between RSI and intubation? ›

One important difference between RSI and routine tracheal intubation is that the practitioner does not typically manually assist the ventilation of the lungs after the onset of general anesthesia and cessation of breathing, until the trachea has been intubated and the cuff has been inflated.

Do you ventilate in RSI? ›

During an RSI technique, mask ventilation is not performed because it can fill the stomach with air and increase the risk of aspiration even further. Instead, the paralytic agent is administered immediately after the induction agent.

What is RSI medical intubation? ›

Rapid sequence intubation (RSI) is a technique that is used when rapid control of the airway is needed as a precaution for patients that may have a 'full stomach' or other risks of pulmonary aspiration.

What are the steps of RSI? ›

The steps in performing RSI are often described by the six “P's”: preparation, preoxygenation, pretreatment, paralysis and induction, placement of the tube, and postintubation management (Fig. 5.1).

What is RSI protocol? ›

What is Rapid Sequence Intubation? RSI is a procedure that is used to facilitate tracheal intubation of a patient in a way that minimizes the risks and maximizes the chance of success. A sedative agent is given to induce unconsciousness and, simultaneously, a paralytic is given to cause skeletal muscle paralysis.


1. RSI - Rapid Sequence Induction
2. RSI Medications - Emergency Nursing / Rapid Sequence Intubation
(Emergency Chaos)
3. What is rapid sequence intubation? (RSI)
4. Rocuronium - Rapid Sequence Induction & Intubation - MEDZCOOL
5. Rapid Sequence Induction
(Free Anaesthetic Tutorials)
6. Ketamine - Rapid Sequence Intubation - MEDZCOOL

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