View resources
- Emergency management flowchart [PDF 1445.82 KB] - 2 pages
- Seizure chart (QH only) - 1 page
Key points
- Status epilepticus (defined as seizure lasting greater than five minutes or repeated seizures without full recovery to normal conscious level between episodes) is a neurological emergency.
- Refractory status epilepticus is associated with significant mortality and high neurological morbidity.
- The risk of a seizure becoming refractory increases with increasing seizure duration.
- Emergency management is aimed at stopping the seizure as soon as possible while maintaining vital functions.
- Benzodiazepines including Midazalom (preferred) and Diazepam are recommended first-line agents.
- Commence second-line agents if seizures continue after two doses of first-line agent (including pre Emergency Department care).
- Commonly used second-line agents include Levetiracetam, Phenytoin, Phenobarbitone and Sodium Valproate (preferred for child greater than 2 years).
- Check blood glucose levels on all children presenting with a seizure. Manage as per Hypoglycaemia Guideline if less than or equal to 2.6 mmol/L.
- Rapid sequence induction and intubation is recommended for children who continue to have seizures despite the administration of second-line agents. Use induction agents with known antiepileptic activity and consider EEG monitoring if muscle relaxant use is ongoing.
Purpose
This document provides clinical guidance for all staff involved in the care and management of a child presenting to an Emergency Department (ED) in Queensland with status epilepticus.
This guideline has been developed by senior ED clinicians and Paediatricians across Queensland, with input from Neurology and PICU, Queensland Children’s Hospital, Brisbane. It has been endorsed for statewide use by the Queensland Emergency Care of Children Working Group in partnership with the Queensland Emergency Department Strategic Advisory Panel and the Healthcare Improvement Unit, Clinical Excellence Queensland.
Introduction
Seizures are paroxysmal and involuntary events of altered consciousness, behaviour, motor skills, sensation or autonomic function that result from abnormal rhythmic discharges of cerebral neurons.1 The majority of seizures are convulsive (involve a change in muscle tone or activity).
Individual convulsive seizures are often broadly classified as focal or generalised, based on their degree of body involvement. Classification may aid diagnosis and direct ongoing treatment in some cases, however the management priority in all seizure types is to protect the airway and terminate the seizure.
The causes of seizures are numerous, but the majority occur in the setting of a pre-existing seizure disorder, febrile illness, central nervous system (CNS) infection, head injury, poisoning or metabolic disturbance.
Epidemiological studies typically define status epilepticus as seizures lasting greater than 30 minutes or recurring without recovery to baseline consciousness over a 30 minute period.2 Given the risks associated with increasing seizure duration, for the purposes of clinical management seizures lasting greater than five minutes are defined as status epileptics.
Status epilepticus (defined as seizure lasting greater than five minutes or repeated seizures without full recovery to normal conscious level between episodes) is a neurological emergency.
The risk of a seizure becoming refractory to drugs increases with increasing seizure duration.
Depending on seizure duration, age and aetiology, refractory status epilepticus is associated with a high neurological morbidity (10 – 20%) and a significant mortality (3 – 8%).
Seizures must be terminated as soon as possible to avoid harm including death. Aim to have all seizures requiring second-line agents to be terminated within 30 minutes.
Epidemiology
Febrile convulsions are seen in 2 – 4% of children, whereas epilepsy (an idiopathic susceptibility to recurrent seizures) occurs in about 0.5% of children.3
The incidence of status epilepticus is estimated as 10-40/100,000.
Seizures account for 1 – 2% of all ED presentations to the specialist children’s hospitals in Brisbane, of which 4 – 6% are Triage Category of 1 (assumed to be actively seizing on arrival). An Australian and New Zealand study4 found that in children presenting with ongoing seizure activity for greater than 10 minutes, the median pre-hospital seizure duration was 45 minutes. Almost half of these had received anticonvulsant treatment by a parent, carer or ambulance officer. This suggests that children who present with ongoing seizures to the emergency service are likely to already be in established (and possibly refractory) status epilepticus and highlights the emergent need to rapidly terminate their prolonged seizures to minimise adverse events.
Assessment
Ask the family if the child has a Seizure Management Plan. If so they will often have a copy with them. Otherwise access via the medical record.
History
History taking should include information on:
- details preceding the seizure including:
- prior events and behaviour of the child
- signs or symptoms of illness including fever
- details of the seizure including:
- how it started
- estimated duration
- pre-hospital treatment
- any previous seizures and family history of seizures
- if relevant, previous seizure management including ketogenic diet
- medical and surgical history including intracranial infection or severe metabolic disturbance such as hypoglycaemia or electrolyte disturbance, neurological damage, neurosurgical procedures (including the placement of ventriculo-peritoneal shunts)
Examination
Emergency assessment and management should always involve a rapid primary survey with evaluation of (and immediate management of concerns with) airway, breathing, circulation and disability (ABCD).
Seek urgent senior emergency/paediatric advice as per local practice for a child with status epilepticus who has received two doses of benzodiazepines pre-hospital.
Consider seeking senior emergency/paediatric advice as per local practice for child with status epilepticus who has received a single dose of benzodiazepine prior to arrival.
Differential diagnoses
Other neurological conditions can present with altered level of consciousness and abnormalities of tone, posture or movement and need to be differentiated from convulsive status epilepticus. A careful history and examination will usually distinguish between these conditions. Diagnosis of an epileptic seizure should not be based on the presence or absence of single features.
Paroxysmal non-epileptic events (formerly termed “Pseudoseizures”) |
Extensor posturing due to raised intracranial pressure |
Acute movement disorders (chorea, tic) |
Dystonia |
Acute encephalopathy from infectious or metabolic cause |
Investigations
Check blood glucose levels on all children presenting with a seizure.
Other investigations are usually directed by history and examination findings.
Investigation type | Utility |
---|---|
Blood glucose level | Recommended for all children with seizure. |
Electrolytes | Recommended for children with a history of vomiting or diarrhoea. |
Calcium and magnesium | Considered in children with afebrile seizures, particularly infants. |
Antiepileptic drug (AED) levels | Check AED levels for children receiving maintenance phenytoin, carbamazepine or phenobarbitone. Levels of other AEDs are not recommended unless adherence is thought to be an issue. |
Electrocardiography (ECG) | Considered in children seen to fall prior to seizure, or family history of seizures or unexplained death. |
Neuroimaging | Considered for children with trauma, focal onset of the seizure or focal neurological signs. |
Electroencephalography (EEG) | Not routinely recommended in the acute phase if seizures are controlled. For suspected persisting seizure activity or delayed return of conscious state consult a paediatric neurologist. |
Management
Refer to flowchart [PDF 1445.82 KB] for a summary of the emergency management and medications for children presenting with status epilepticus.
The goals in the emergency management of status epilepticus are to maintain vital functions whilst stopping the seizure as soon as possible and to identify and treat any underlying cause.5
Monitor the frequency, duration and type of seizures using the seizure chart [PDF] (QH only).
First-line agents – benzodiazepines
Benzodiazepines work by binding to GABA (gamma-aminobutyric acid) receptors in the central nervous system, which in turn hyperpolarises the neuronal membrane making it more difficult for the neuron to be activated.6 Midazolam and Diazepam are the benzodiazepines routinely used in the management of status epilepticus.
Midazolam
- rapid onset with anti-seizure effect often observed within one minute of IV administration7
- second dose is recommended if seizures are continuing five minutes after first dose
- more effective than Diazepam
- can be given reliably via the buccal, intranasal, IM, IV, or IO routes with IM the least reliable route for absorption
- oral absorption much less reliable
- buccal (or intranasal) Midazolam has largely replaced Diazepam PR for the management of seizures by parents and caregivers3,8
- short duration of action – children who stop convulsing after an initial Midazolam dose may require a repeat dose to maintain seizure control6
Midazolam dosing for the treatment of status epilepticus in children | |
---|---|
Buccal/intranasal | 0.3 mg/kg (maximum 10 mg) |
IV/ IO | 0.15 mg/kg (maximum 10 mg) |
IM | 0.2 mg/kg (maximum 10 mg) |
Side effects | Respiratory depression common, particularly with repeated dosing |
Diazepam
- rapid onset of action with median anti-seizure effect seen within two minutes of IV administration3,9
- second dose is recommended if seizures are continuing five minutes after first dose
- can be given via the PR, IV or IO routes
- oral absorption is effective however usually not appropriate in a child with ongoing seizure activity
- long elimination half-life but only a relatively short-lasting anti-seizure effect of between 15 – 30 minutes
Diazepam should not be given via IM injection due to slow and erratic absorption.
Diazepam dosing for the treatment of status epilepticus in children | |
---|---|
IV/ IO | 0.1-0.4 mg/kg (maximum 10 mg) |
PR | 0.3-0.5 mg/kg (maximum 20 mg) |
Side effects | Respiratory depression common |
Second-line agents
Second-line agents are recommended if seizure continues despite appropriate doses of first-line agents. These drugs have a longer duration of action compared with first-line agents. The choice of second line antiseizure medication in status epilepticus is now broader. The clinician may choose one based on a number of factors, including patient diagnosis, previous response to therapy, current treatment, and expected side effects (e.g. phenobarbitone and sedation).
Second-line agents should be started as soon as possible following failure of benzodiazepines. Given that QAS routinely will have given benzodiazepine pre-hospital, consider preparing for administration of second-line agents as soon as QAS notification received of an impending arrival of a child with status epilepticus.
Seek urgent senior emergency/paediatric advice as per local practice for a child with ongoing seizures despite the administration of two doses of a first-line agent.
Many questions remain about the optimal management of status epilepticus.5 The Paediatric Research in Emergency Departments International Collaborative (PREDICT), including many sites within Queensland, published a superiority RCT in the Lancet that showed that “Levetiracetam is not superior to Phenytoin for second-line management of paediatric convulsive status epilepticus.10 A similar study in the United Kingdom in the same journal also failed to demonstrate that Levetiracetam was superior to Phenytoin.11 However, it concluded that the “previously reported safety profile and comparative ease of use of Levetiracetam, suggests it [Levetiracetam] could be an appropriate alternative to Phenytoin as first-choice, second-line anticonvulsant in the treatment of paediatric convulsive status epilepticus”.
A more recent study in status epilepticus20 that includes children (ESETT) has shown that the response rate is similar for Levetiracetam, Valproate, and Fosphenytoin (this more available in USA and Europe), and with no difference in primary safety outcomes. These findings were strengthened by an extension phase21 of the study, showing an effectiveness in children of 52%, 52%, and 49% respectively. The authors concluded that any of these three drugs can be used as a ‘first choice second line for benzodiazepine-refractory status epilepticus’.
Levetiracetam IV (Keppra)
Levetiracetam IV is a new agent which appears to be effective in terminating seizures which are not responsive to benzodiazepines and Phenytoin. A number of studies have shown its safety and efficacy in terminating refractory status epilepticus thereby avoiding intubation and ventilation.12 It can be infused over five minutes and appears to have no acute side effects relating to hypotension or respiratory depression and no known drug interactions.
Levetiracetam dosing for the treatment of status epilepticus in children | |
---|---|
IV loading dose | 60 mg/kg (maximum 4.5 g) infused over five minutes.9 |
Phenytoin
Phenytoin is a suitable second-line agent in children aged greater than one year.
Phenytoin dosing for the treatment of status epilepticus in children | |
---|---|
IV | 20 mg/kg (maximum 1,500 mg) administered over a minimum of twenty minutes. Administer more slowly (over sixty minutes) if seizure activity has ceased. Do not exceed rate of 1 mg/kg/min or 50 mg/min. Do not administer with IV solutions containing glucose. |
Side effects | Arrhythmias Respiratory depression (less common than with Phenobarbitone) |
Monitoring | Cardiac monitoring recommended during infusion period. |
Phenytoin is contraindicated in Dravet Syndrome, use Levetiracetam.
Phenobarbitone
A suitable second-line agent in:
- infants (up to one year)
- children with contraindication to Phenytoin
- children already on maintenance Phenytoin therapy
Phenobarbitone dosing for the treatment of status epilepticus in children | |
---|---|
IV | 20 mg/kg (maximum 1 g) administered over a minimum of twenty minutes. Do not exceed rate of 1 mg/kg/min to avoid respiratory and/or circulatory impairment. |
Side effects | Respiratory depression (if given in combination with benzodiazepines)13 |
Seek urgent paediatric critical care/neurology advice (onsite or via RSQ) for a child who is continuing to have seizures following administration of second-line agent.
Newer agents
A number of anticonvulsants used as either first or second-line agents in the treatment of convulsive status epilepticus in other parts of the world may be given on advice from a paediatric neurologist.
Lorazepam (Ativan)
Lorazepam is the benzodiazepine of choice as a first-line agent across North America, UK and Europe. Lorazepam has rapid infiltration (one to two minutes after IV injection) across the blood-brain barrier and a relatively long half-life with an effective duration of action of four to six hours. It also has fewer side effects than other benzodiazepines, in particular respiratory depression.14 One small quasi-randomised trial (the only trial in a Cochrane review) found Lorazepam IV superior to rectal diazepam.15 A recent large well conducted paediatric emergency based RCT comparing Lorazepam IV to Diazepam IV found no benefit from Lorazepam either in effectiveness in termination of seizures or reduction in side effects.16
Lorazepam (IV) dosing for the treatment of status epilepticus in children | |
---|---|
IV | 0.05 – 0.1 mg/kg (maximum 4 mg/dose) administered over two to five minutes (maximum rate 2 mg/minute). Repeat dose may be given 10 – 15 minutes later if needed. |
Lorazepam can be administered via several routes including buccal, rectal and intranasal. It is available in Australia through a Special Access Scheme for rapid tranquilisation for patients with acute agitation and disturbed behaviour.
Valproate IV (Epilim)
Valproate IV is currently being used in a number of centres across the world as either a second line agent or a third line agent. Multiple small case series have been published, however no prospective randomized control trial for children in convulsive status epilepticus currently exists. A number of adult studies have shown that 60 – 80% of seizures not responding to benzodiazepines and Phenytoin will cease with administration of Valproate IV.17,18 It does not appear to have significant adverse effects acutely with stable haemodynamic parameters following administration. Valproate IV is less frequently used in children due to the risk of hepatotoxicity in infants and young children or those with underlying metabolic condition.
Valproate (Epilim) dosing for the treatment of status epilepticus in children | |
---|---|
IV loading dose | 40 mg/kg (maximum 3000 mg) by slow IV injection over three to five minutes |
Valproate is contraindicated in children with suspected metabolic disease. Caution is required in children aged less than 2 years.
Specific (rare) treatable causes of status epilepticus
Treatment for the following may be given on advice from a paediatric neurologist:
- pyridoxine responsive seizures (treat with Pyridoxine 30 mg/kg by IV or IM injection*)
*Non-LAM medication for these indications. Needs individual patient approval before use unless local blanket approval in force. May not be available on imprest for immediate use. - thiamine deficiency (treat with Thiamine IV 100mg – NOT dose/kg)
- hyperammonaemia (test requires EDTA tube on ice to lab and verbal request)
- hyponatraemia (see Hyponatraemia guideline [PDF 579.65 KB])
- hypomagnesaemia (see Magnesium Sulfate IV Medication Guideline [PDF] (QH only))
- lignocaine toxicity (lipid rescue) (see Local Anaesthetic Systemic Toxicity guideline
Rapid sequence induction and intubation
- a sequence of events designed to safely and quickly protect the airway and breathing of severely ill children to maintain oxygenation to the brain and vital organs.
- allows the use of larger doses of anti-epileptic medications whose primary adverse effects are hypoventilation and apnoea (e.g. benzodiazepines and barbiturates).
- facilitates the investigation (e.g. CT), treatment and management of causes of status epilepticus.
The steps of RSI (the 6 “P”s)
- preparation (equipment and staff) including team leader verbal plan
- pre-oxygenation (bag mask and Fi02 100%)
- pre-medication
- paralysis and sedation (Induction)
- passing airway tube and placement (including failed intubation plan)
- post-intubation management
Paralysis and Sedation (Induction)
Seek urgent paediatric critical care advice (onsite or via RSQ) for a child with status epilepticus requiring intubation.
Paralysis will lead to apnoea and is painful in awake individuals and therefore should follow induction with a sedation and analgesic agent.
Specific considerations around RSI/choice of agents in child with status epilepticus
Thiopentone or Propofol are suitable induction agents in status epilepticus as both medications are effective anticonvulsants when given as a bolus dose for induction. Caution is required in hypotensive patients; however, blood pressure is often high, and Thiopentone or Propofol usually well tolerated in the setting of status epilepticus. Cochrane reviews have not found any evidence that outcomes with Propofol are better or worse than Thiopentone.19 Recent research suggests that Ketamine may have antiepileptic effects and may be an appropriate induction agent in haemodynamically unstable patients.
For status epilepticus, Rocuronium appears to be the drug of choice when available. Historically Succinylcholine (Suxamethonium) has been the most commonly used neuromuscular blocking agent due to its rapid onset (15 – 30 seconds) and short duration of action (5 – 10 minutes). Suxamethonium has an increased risk of causing life-threatening malignant hyperthermia (MHT), particularly in children with neuromuscular diseases, some of whom will present with seizures. Rocuronium is another agent that also has rapid onset (30 – 60 seconds) and is not associated with MHT but has a longer duration of action (30 – 60 minutes). Sugammadex is an antidote allows the safe reversal of paralysis due to Rocuronium if required.
Children requiring special consideration
Ketogenic diet
Some children with seizures are managed successfully on a ketogenic diet which often takes many weeks to stabilise. Glucose administration may negate the ketogenic diet and administration should be avoided unless they are hypoglycaemic. Consult with the Ketogenic Diet treating team or your local Paediatrician.
Vagal nerve simulators
Seek specialist advice in child with vagal nerve simulators as may affect management (may need to be switched off during anaesthesia, may trigger bradycardia if damaged by external defibrillation and contraindication for MRI).
Escalation and advice outside of ED
Clinicians can contact the services below if escalation of care outside of senior clinicians within the ED is needed, as per local practices. Transfer is recommended if the child requires a higher level of care.
Status epilepticus (defined as seizure lasting greater than five minutes) is a neurological emergency. The risk of a seizure becoming refractory increases with increasing seizure duration.
Critically unwell or rapidly deteriorating child
Includes children with the following (as a guide) | |||
---|---|---|---|
|
Reason for contact | Who to contact |
---|---|
For immediate onsite assistance including airway management | The most senior resources available onsite at the time as per local practices. Options may include:
|
Paediatric critical care advice and assistance | Onsite or via Retrieval Services Queensland (RSQ). If no onsite paediatric critical care service contact RSQ on 1300 799 127:
RSQ (access via QH intranet) Notify early of child potentially requiring transfer. Consider early involvement of local paediatric/critical care service. In the event of retrieval, inform your local paediatric service. |
Non-critical child
Consider seeking specialist advice regarding | |||
---|---|---|---|
|
Reason for contact | Who to contact |
---|---|
Advice (including management, disposition or follow-up) | Options:
If no onsite paediatric critical care service contact RSQ on 1300 799 127
Notify early of child potentially requiring transfer. Consider early involvement of local paediatric/critical care service.
|
Referral | First point of call is the onsite/local paediatric service |
Inter-hospital transfers
Do I need a critical transfer? |
|
Request a non-critical inter-hospital transfer |
|
Non-critical transfer forms |
|
Disposition
When to consider discharge from ED
Seek senior emergency/paediatric advice as per local practice prior to discharge for a child who has experienced status epilepticus.
Children for whom this is the first episode of status epilepticus are usually admitted for a period of observation. Discharge may rarely be considered for children who did not require administration of second-line agents for seizure control providing that:
- diagnosis of seizure is certain
- no further seizures after a period of observation for several hours
- child is alert and responding normally
- all observations (including GCS, pupil reaction, BP, Pulse Rate) are within normal ranges
- carers have been educated on the management of a subsequent seizure
- parents/caregivers are able to safely manage the child at home, return promptly in the event of deterioration/another seizure
Rarely, children may be discharged on Midazolam. This must only be done in consultation with Paediatric or Paediatric Neurology staff. If so, caregivers must receive education on its administration prior to discharge. This should be documented in medical record.
On discharge, caregivers should be provided with:
- Discharge letter for family and GP +/- specialist referral
- Seizures – First Aid Factsheet
Follow-up
Depends on seizure type (first or subsequent seizure, febrile or afebrile seizure, focal or generalised seizure) and whether episode represents a change in seizure control.
Discuss outpatient follow-up plan with local paediatric service. Refer to paediatrician/neurologist if urgent otherwise ask GP to arrange specialist referral.
When to consider admission
The majority of children with status epilepticus will require admission to an inpatient service. Admission to a SSU (where relevant) may be considered for a child in whom seizures have ceased following administration of first-line agents but require a further period of observation prior to discharge.
Related documents
Guidelines
Factsheet
- Friedman J. Emergency management of the paediatric patient with generalized convulsive status epilepticus. Paediatr Child Health. 2011 Feb;16(2):91–104.
- Chaure MR, Chin R, Neville BG. The Epidemiology of Convulsive Status Epilepticus in Children: A Critical Review – Raspall-Chaure – 2007 – Epilepsia – Wiley Online Library. …. 2007.
- Shinnar S, Pellock JM. Update on the epidemiology and prognosis of pediatric epilepsy. Journal of Child Neurology. 2002 Jan;17 Suppl 1:S4–17.
- Lewena S, Pennington V, Acworth J, Thornton S, Ngo P, McIntyre S, et al. Emergency Management of Pediatric Convulsive Status Epilepticus. Pediatr Emerg Care. 2009 Feb;25(2):83–7.
- Fernández IS, Abend NS, Agadi S, An S, Arya R, Carpenter JL, et al. Gaps and opportunities in refractory status epilepticus research in children: A multi-center approach by the Pediatric Status Epilepticus Research Group (pSERG). Seizure: European Journal of Epilepsy. BEA Trading Ltd; 2014 Feb 1;23(2):87–97.
- Lagae L. Clinical practice: the treatment of acute convulsive seizures in children. Eur J Pediatr. Springer-Verlag; 2011 Apr;170(4):413–8.
- Anderson M. Benzodiazepines for prolonged seizures. Archives of Disease in Childhood – Education and Practice. BMJ Publishing Group Ltd and Royal College of Paediatrics and Child Health; 2010 Dec;95(6):183–9.
- McMullan J, Sasson C, Pancioli A, Silbergleit R. Midazolam versus diazepam for the treatment of status epilepticus in children and young adults: a meta-analysis. Academic emergency medicine : official journal of the Society for Academic Emergency Medicine. 2010 Jun;17(6):575–82.
- Anderson M. Benzodiazepines for prolonged seizures. Archives of Disease in Childhood – Education and Practice. 2010 Dec;95(6):183–9.
- Dalziel Dalziel S, Borland M, Furyk J, Bonisch M, Neutze J, Donath S, Francis K, Sharpe C, Harvey A, Davidson A, Craig S, Phillips N, George S, Rao A, Cheng N, Zhang M, Kochar A, Brabyn C, Oakley E and Babl F. Levetiracetam versus phenytoin for second-line treatment of convulsive status epilepticus in children (ConSEPT): an open-label, multicentre, randomised controlled trial. The Lancet. 2019 May;393:2135-2145
- Lyttle M, Rainford N, Gamble C, Messahel S, Humphreys A, Hickey H, Woolfall K, Roper L, Noblet J, Lee E, Potter S, Tate P, Iyer A, Evans V and Appleton R. Levetiracetam versus phenytoin for second-line treatment of paediatric convulsive status epilepticus (EcLiPSE): a multicentre, open-label, randomised trial. The Lancet. 2019 May;393:2125-2134
- Dorandeu F, Dhote F, Barbier L, Baccus B, Testylier G. Treatment of Status Epilepticus with Ketamine, Are we There yet? CNS Neurosci Ther. 2013 Apr 20;19(6):411–27.
- Health N. Infants and Children: Acute Management of Seizures. 2016 Feb;:1–23.
- Appleton R, Macleod S, Martland T. Drug management for acute tonic-clonic convulsions including convulsive status epilepticus in children. Cochrane database of systematic reviews (Online). 2008;(3):CD001905.
- Appleton R MSMT. Drug management for acute tonic-clonic convulsions including convulsive status epilepticus in children. 2010 Jan 1;:1–26.
- Chamberlain JM, Okada P, Holsti M, Mahajan P, Brown KM, Vance C, et al. Lorazepam vs Diazepam for Pediatric Status Epilepticus. JAMA. 2014 Apr 23;311(16):1652.
- Trinka E, Höfler J, Zerbs A, Brigo F. Efficacy and Safety of Intravenous Valproate for Status Epilepticus: A Systematic Review. CNS Drugs. 2014 May 8;28(7):623–39.
- Abend NS, Loddenkemper T. Management of pediatric status epilepticus. Curr Treat Options Neurol. 2014 Jul;16(7):301.
- Prabhakar H, Bindra A, Singh GP, Kalaivani M. Propofol versus thiopental sodium for the treatment of refractory status epilepticus (Review). Evid-Based Child Health. 201Jul 12;8(4):1488–508.
- Kapur J, Elm J, Chamberlain JM, Barsan W, Cloyd J, Lowenstein D, Shinnar S, Conwit R, Meinzer C, Cock H, Fountain N, Connor JT, Silbergleit R; NETT and PECARN Investigators. Randomized Trial of Three Anticonvulsant Medications for Status Epilepticus. N Engl J Med. 2019 Nov 28;381(22):2103-2113.
- Chamberlain JM, Kapur J, Shinnar S, Elm J, Holsti M, Babcock L, Rogers A, Barsan W, Cloyd J, Lowenstein D, Bleck TP, Conwit R, Meinzer C, Cock H, Fountain NB, Underwood E, Connor JT, Silbergleit R; Neurological Emergencies Treatment Trials; Pediatric Emergency Care Applied Research Network investigators. Efficacy of levetiracetam, fosphenytoin, and valproate for established status epilepticus by age group (ESETT): a double-blind, responsive-adaptive, randomised controlled trial. Lancet. 2020 Apr 11;395(10231):1217-1224.
Document ID: CHQ-GDL-60014
Version number: 5.0
Supersedes: 4.0
Approval date: 12/05/2023
Effective date: 12/05/2023
Review date: 12/05/2027
Executive sponsor: Executive Director Medical Services
Author/custodian: Queensland Emergency Care Children Working Group
Applicable to: Queensland Health medical and nursing staff
Document source: Internal (QHEPS) + External
Authorisation: Executive Director Clinical Services
Keywords: Paediatric, emergency, guideline, seizure, convulsion, status epilepticus, 60014
Accreditation references: NSQHS Standards (1-8): 1, 4, 8
This guideline is intended as a guide and provided for information purposes only. View full disclaimer.
Last updated: October 2023