When to use suxamethonium

What suxamethonium is (and why we use it)

• Suxamethonium (succinylcholine) is a depolarising neuromuscular blocker: it causes a brief muscle twitching (fasciculations) then paralysis.
• Very fast onset (often ~30–60 seconds) and short duration (often ~5–10 minutes) because it is broken down by plasma cholinesterase.
• Main advantage: rapid, reliable intubating conditions with quick offset if intubation fails (but you must still be ready to ventilate and follow failed intubation plans).

Common situations where suxamethonium is a good choice

• Rapid sequence induction (RSI) when you want the fastest possible intubation conditions (e.g., high aspiration risk).
• When you anticipate a short procedure requiring intubation and rapid return of breathing is useful (case-by-case; many short cases can use rocuronium + sugammadex instead).
• When you need immediate muscle relaxation and you do not have sugammadex available or it is contraindicated (local policy dependent).
• Emergency airway situations where speed matters and you have assessed that contraindications are unlikely.

When to consider alternatives instead (often rocuronium)

• If there is any significant risk of dangerous hyperkalaemia (see red flags) — choose a non-depolarising agent (commonly rocuronium).
• If there is a personal or strong family history of malignant hyperthermia — avoid suxamethonium.
• If there is a high risk of severe bradycardia (especially in children, or with repeat dosing) — consider alternatives and ensure atropine is available if using.
• If difficult airway is anticipated and you are planning an awake technique or maintaining spontaneous ventilation — suxamethonium is usually not part of that plan.

Pre-dose checks (new-starter safe routine)

• Confirm indication: what is the airway plan and why do you need rapid paralysis?
• Screen for contraindications: burns, paralysis/neuromuscular disease, prolonged immobility/ICU stay, major crush injury, severe infection with muscle breakdown, previous suxamethonium reaction, malignant hyperthermia risk.
• Check potassium (K+) if there is any reason it could be high (renal failure, tissue injury, prolonged immobility, neuromuscular disease). If unsure, pause and ask a senior.
• Have a clear failed intubation plan and ensure you can ventilate with bag-mask and have supraglottic airway and front-of-neck access equipment available.
• Ensure monitoring and resuscitation drugs are ready (including atropine for bradycardia, and emergency anaphylaxis kit).

Dosing and practical tips

• Typical adult IV dose: 1–1.5 mg/kg (use local guidance; dose may be adjusted in specific scenarios).
• Onset is rapid; intubation is often attempted at ~45–60 seconds depending on technique and patient factors.
• Avoid repeat doses unless there is a clear reason and you understand the bradycardia risk; if repeat dosing is needed, discuss with a senior.
• Expect fasciculations; consider that they can increase intra-abdominal/intra-gastric pressure slightly and can cause postoperative muscle aches.
• If paralysis lasts longer than expected, consider pseudocholinesterase deficiency or drug interactions; continue ventilation and sedation until recovery and seek senior help.

What to watch for after giving it

• Bradycardia: more common with repeat doses, children, or vagal stimulation; treat promptly (e.g., atropine per local policy).
• Hyperkalaemia: look for ECG changes (peaked T waves, widening QRS, arrhythmias) especially in at-risk patients; treat as an emergency and call for help.
• Anaphylaxis: sudden hypotension, bronchospasm, rash/urticaria; manage immediately per anaphylaxis guidelines and document clearly.
• Malignant hyperthermia: rare but life-threatening; rising CO2, tachycardia, rigidity, hyperthermia later; stop triggers, call for help, give dantrolene per protocol.
• Raised intraocular/intracranial pressure: usually avoid if open globe injury; discuss with seniors in head injury/neurosurgical contexts.