CLASS
Non-depolarising neuromuscular blocker
PRESENTATION
Clear colourless solution.
Formulations
- 2ml vial; 100mg, 50mg/ml
INDICATIONS & DOSING
Paralysis; endotracheal intubation, surgical immobility, management of laryngospasm, modification of response to ECT
- Adult; 1.5mg/kg IV, 3mg/kg IM
- Paediatric; 2mg/kg IV, 4mg/kg IM
- Neonate; 3mg/kg IV, 6mg/kg IM
PRACTICALITIES
Administration
- Administered as neat solution followed by an IV flush
- Care to prevent accidental storage of neuromuscular blocker within the IV set following administration; may result in subsequent undesired paralysis and respiratory arrest
Incompatibilities
- Alkaline solutions; thiopentone
Practice tips
- Suxamethonium degrades slowly at room temperature and is usually refrigerated
- Dose according to total body weight in obesity
- Onset is obvious clinically by the onset of muscle fasciculations
- Rapid onset particularly useful in achieving the aims of a rapid sequence induction
- A short duration of action and significant side-effect profile makes suxamethonium a less desirable choice for the provision of surgical immobility; subsequent administration of a non-depolarising neuromuscular blockade is usually required if surgical immobility is desired
- Faster onset/offset in paediatric population and high cardiac output states
- Intramuscular onset; sublingual < deltoid < thigh
- Slower offset with hypothermia, acidaemia, hyperkalaemia, hypocalcaemia, hypermagnesaemia
- Attempts at reversal of paralysis with neostigmine may lead to paradoxical prolongation of paralysis
- Repeated exposure or high doses (>4mg/kg) can lead to ‘phase II block’ with prolongation of clinical effect and a clinical profile similar to non-depolarising neuromuscular blockade
PHARMACOKINETICS
Onset
- IV; ~60 seconds
- IM; 1-3 minutes
Duration of action (in the absence of abnormal plasmacholinesterase variants)
- IV; ~5-10 minutes
- IM; 10-30 minutes
Metabolism
Metabolised extensively by plasmacholinesterases to succinylmonocholine (weak activity) and subsequently succinic acid and choline (inactive)
Elimination
<10% renally eliminated
MECHANISM
Non-competitive activation of acetylcholine receptors at the neuromuscular junction allows an influx of cations with subsequent depolarisation and activation of voltage-gated sodium channels.
Suxamethonium remains bound to the receptor, preventing repolarisation and subsequent depolarisation/neuromuscular transmission. Sarcoplasmic calcium concentration is restored to baseline, leading to an end of muscle contraction and a flaccid paralysis.
DESIRED CLINICAL EFFECTS
Airway
- Relaxation of vocal cords; facilitation of endotracheal intubation, ablation of airway reflexes including laryngospasm
Respiratory
- Improved chest-wall compliance
- Improved ventilator synchrony
- Prevention of coughing (and associated rises in ICP)
Musculoskeletal
- Flaccid paralysis; surgical immobility, prevention of ECT-related injury, prevention of shivering (oxygen consumption)
OTHER CLINICAL EFFECTS, ADVERSE EFFECTS & TOXICITIES
Respiratory
- Respiratory arrest
- Residual paralysis; micro-aspiration, pneumonia, respiratory failure
Cardiovascular
- Bradycardia secondary to agonism of muscarinic Ach receptors; more prevalent with repeat dosing and in the paediatric population
- Malignant ventricular arrhythmias secondary to hyperkalaemia in susceptible patients (see below)
Musculoskeletal
- Fasciculations
- Myalgia; particularly noticeable with early mobilisation post-paralysis
- Masseter spasm; particularly in the paediatric population
Neurological
- Awareness under anaesthesia
- A transient rise in ICP and IOP due to widespread muscle contraction
Electrolytes
- A transient rise in serum potassium of 0.2-0.4mmol/L in normal patients, exaggerated in susceptible patient groups (see below)
Immune
- Anaphylaxis
- Histamine-release; hypotension
Other
- Malignant hyperthermia; trigger
- Anaesthesia Induced Rhabdomyolysis (AIR); trigger (see below)
CONSIDERATIONS
Precautions
- Malignant hyperthermia susceptible patients; potent trigger
- Congenital plasmacholinesterase deficiency; prolongation of paralysis (‘sux apnoea’, particularly with atypical plasmacholinesterase homozygotes)
- Acquired plasmacholinesterase deficiency; prolongation of paralysis in pregnancy, renal/hepatic disease, cardiac failure, hypothyroidism, burns, malignancy, specific drugs (see below)
- Hyperkalaemia; additive hyperkalaemia with risk of malignant ventricular arrhythmias
- Patients with upregulated immature ACh receptors (burns from 24 hours to 18 months after injury, stroke/spinal cord trauma from 7 days to 6 months after injury, denervating/degenerative neuromuscular disease, prolonged immobilisation); massive potassium efflux with risk of malignant ventricular arrhythmias (risk correlates with severity/extent)
- Muscle trauma; massive potassium efflux with risk of malignant ventricular arrhythmias (risk correlates with extent of muscle involvement)
- Anaesthesia induced rhabodmysis (AIR) susceptible patients – muscular dystrophies with an absence of dystrophin (particularly Duchenne’s muscular dystrophy); rhabdomyolysis with massive potassium efflux and risk of malignant ventricular arrhythmias
- Sepsis (particularly abdominal); risk of hyperkalaemia (variable evidence)
- Myotonias; provocation of prolonged and painful muscle spasm, including temperomandibular spasm and intubation difficulty
- Neuromuscular disease – myasthenia gravis, Lambert-Eaton syndrome; resistance to paralysis
- Raised intracranial pressure; rises in ICP may result in herniation of cerebral contents
- Raised intraocular pressure/acute narrow angle glaucoma; rises in IOP may result in optic ischaemia
- Penetrating eye injury; rises in IOP may result in expulsion of orbital contents
Obstetric
ADEC category A
Drug interactions
- Inhibitors of plasma cholinesterase – neostigmine, lignocaine, cytotoxics, lithium, ketamine, pancuronium, OCP, cytotoxics; prolonged paralysis
- Digoxin; enhanced effect, potentially leading to ventricular excitation
REFERENCES
Drug information has been compiled from multiple sources including
- Drugs in Anaesthesia and Intensive Care (Scarth & Smith)
- Micromedex (IBM)
- BJA Education (Oxford Academic)
- Pharmacology for Anaesthesia and Intensive Care (Cambridge)
- Australian Prescriber (NPS MedicineWise)