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This guideline replaces CG20, TA76 and TA79.
This guideline is the basis of QS26 and QS27.
Overview
The guideline covers diagnosing, treating and managing epilepsy and seizures in children, young people and adults in primary and secondary care. It offers best practice advice on managing epilepsy to improve health outcomes so that people with epilepsy can fully participate in daily life.
MHRA advice on antiepileptic drugs in pregnancy: In May 2021, we reviewed and amended recommendations on carbamazepine, gabapentin, lamotrigine, levetiracetam, oxcarbazepine, phenobarbital, phenytoin, pregabalin, topiramate and zonisamide in line with Medicines and Healthcare products Regulatory Agency (MHRA) updated safety advice on antiepileptic drugs in pregnancy.
MHRA advice on valproate: We have amended recommendations in line with the MHRA guidance on valproate use by women and girls. Valproate must not be used in women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years), unless other options are unsuitable and the pregnancy prevention programme is in place. The MHRA has published temporary advice on the valproate pregnancy prevention programme during the COVID-19 pandemic.
Who is it for?
- Healthcare professionals
- People who work in occupational health services, social services, educational services and the voluntary sector
- Children, young people and adults with epilepsy and their families and carers
This guideline updates and replaces NICE guideline CG20 (October 2004).
Introduction
This guidance updates and replaces NICE guideline CG20. This guidance also updates and replaces NICE technology appraisal guidance 76 (2004) and NICE technology appraisal guidance 79 (2004).
New recommendations have been added for the pharmacological treatment of people with epilepsy, including the use of ketogenic diet (see about this guideline for details).
Epilepsy is a common neurological disorder characterised by recurring seizures. Different types of epilepsy have different causes. Accurate estimates of incidence and prevalence are difficult to achieve because identifying people who may have epilepsy is difficult. Epilepsy has been estimated to affect between 362,000 and 415,000 people in England. In addition, there will be further individuals, estimated to be 5–30%, so amounting to up to another 124,500 people, who have been diagnosed with epilepsy, but in whom the diagnosis is incorrect. Incidence is estimated to be 50 per 100,000 per year and the prevalence of active epilepsy in the UK is estimated to be 5–10 cases per 1000. Two-thirds of people with active epilepsy have their epilepsy controlled satisfactorily with anti-epileptic drugs (AEDs). Other approaches may include surgery. Optimal management improves health outcomes and can also help to minimise other, often detrimental, impacts on social, educational and employment activity. The previous NICE guideline on epilepsy stated that the annual estimated cost of established epilepsies was £2 billion (direct and indirect costs).
Newer and more expensive AEDs are now being prescribed, and with an increase in treatment costs likely in coming years it is essential to ensure that AEDs with proven clinical and cost effectiveness are identified. The evidence used to develop the previous NICE guideline for epilepsy and related technology appraisals showed no difference in effectiveness between newer and older AEDs, or between the newer drugs (as monotherapy) for seizure control. However, a recent large multicentre trial (the SANAD trial) evaluating newer drugs in newly diagnosed epilepsy (accepting some limitations) suggested that sodium valproate should be the drug of choice in generalised and unclassifiable epilepsies, and lamotrigine in focal epilepsies. It was therefore considered necessary to review new evidence regarding AEDs within an update of NICE guideline CG20 (which was published in 2004).
The guideline will assume that prescribers will use a drug’s summary of product characteristics to inform decisions made with individual patients.
This guideline recommends some drugs for indications for which they do not have a UK marketing authorisation at the date of publication, if there is good evidence to support that use. Where recommendations have been made for the use of drugs outside their licensed indications, information on this off-label use has been added to the recommendations.
Key priorities for implementation
The following recommendations have been identified as priorities for implementation.
Diagnosis
- All children, young people and adults with a recent onset suspected seizure should be seen urgently by a specialist (as used in this guideline). This is to ensure precise and early diagnosis and initiation of therapy as appropriate to their needs. The Guideline Development Group considered that ‘urgently’ meant being seen within 2 weeks. [2004]
Management
- Healthcare professionals should adopt a consulting style that enables the child, young person or adult with epilepsy, and their family and/or carers as appropriate, to participate as partners in all decisions about their healthcare, and take fully into account their race, culture and any specific needs. [2004]
- All children, young people and adults with epilepsy should have a comprehensive care plan that is agreed between the person, their family and/or carers as appropriate, and primary and secondary care providers. [2004]
- The AED (anti-epileptic drug) treatment strategy should be individualised according to the seizure type, epilepsy syndrome, co-medication and co-morbidity, the child, young person or adult’s lifestyle, and the preferences of the person, their family and/or carers as appropriate. [2004]
Prolonged or repeated seizures and convulsive status epilepticus
- Only prescribe buccal midazolam or rectal diazepam for use in the community for children, young people and adults who have had a previous episode of prolonged or serial convulsive seizures. [2012]
In January 2012, this was an off-label use of diazepam (see the British national formulary [BNF] or the British national formulary for children [BNFC] for details). See NICE’s information on prescribing medicines.
- Administer buccal midazolam as first-line treatment in children, young people and adults with prolonged or repeated seizures in the community. Administer rectal diazepam if preferred or if buccal midazolam is not available. If intravenous access is already established and resuscitation facilities are available, administer intravenous lorazepam. [2012]
In January 2012, this was an off-label use of diazepam (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
Special considerations for women and girls of childbearing potential
- Women and girls with epilepsy and their partners, as appropriate, must be given accurate information and counselling about contraception, conception, pregnancy, caring for children, breastfeeding and menopause. [2004]
- Discuss with women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years), and their parents and/or carers if appropriate, the risk of AEDs causing malformations and possible neurodevelopmental impairments in an unborn child.
Assess the risks and benefits of treatment with individual drugs. Note that there are limited data and important uncertainties about risks to the unborn child, particularly with newer drugs. Follow the MHRA safety advice on antiepileptic drugs in pregnancy.
Specifically discuss the risk of continued use of sodium valproate to the unborn child, being aware that higher doses of sodium valproate (more than 800 mg/day) and polytherapy, particularly with sodium valproate, are associated with greater risk. Follow the MHRA safety advice on valproate use by women and girls. [amended 2020]
Review and referral
- All children, young people and adults with epilepsy should have a regular structured review. In children and young people, this review should be carried out at least yearly (but may be between 3 and 12 months by arrangement) by a specialist. In adults, this review should be carried out at least yearly by either a generalist or specialist, depending on how well the epilepsy is controlled and/or the presence of specific lifestyle issues. [2004]
- At the review, children, young people and adults should have access to: written and visual information; counselling services; information about voluntary organisations; epilepsy specialist nurses; timely and appropriate investigations; referral to tertiary services, including surgery if appropriate. [2004]
- If seizures are not controlled and/or there is diagnostic uncertainty or treatment failure, children, young people and adults should be referred to tertiary services soon for further assessment. The Guideline Development Group considered that ‘soon’ meant being seen within 4 weeks. [2004]
1. Guidance
The following guidance is based on the best available evidence. The full guideline gives details of the methods and the evidence used to develop the guidance.
In this guideline, the term ‘adults’ is used to describe people who are aged 18 years and older, and ‘children’ those who are aged 28 days to 11 years. ‘Young people’ describes those who are aged 12 to 17 years. ‘Older people’ is used to describe people who are aged 65 years or older – this age range is based on evidence reviewed by the Guideline Development Group. However, it is recognised that there is a variable age range (15–19 years) at which care is transferred between child and adult health services by local healthcare trusts and primary care organisations.
Please see appendix G for terms used in this guideline.
People have the right to be involved in discussions and make informed decisions about their care, as described in NICE’s information on making decisions about your care.
Making decisions using NICE guidelines explains how we use words to show the strength (or certainty) of our recommendations, and has information about prescribing medicines (including off-label use), professional guidelines, standards and laws (including on consent and mental capacity), and safeguarding.
1.1. Principle of decision making
- 1.1.1.
Healthcare professionals should adopt a consulting style that enables the child, young person or adult with epilepsy, and their family and/or carers as appropriate, to participate as partners in all decisions about their healthcare, and take fully into account their race, culture and any specific needs. [2004]
1.2. Coping with epilepsy
- 1.2.1.
Children, young people and adults with epilepsy and their families and/or carers should be empowered to manage their condition as well as possible. [2004]
- 1.2.2.
Adults should receive appropriate information and education about all aspects of epilepsy. This may be best achieved and maintained through structured self-management plans. [2004]
- 1.2.3.
In children and young people, self-management of epilepsy may be best achieved through active child-centred training models and interventions. [2004]
- 1.2.4.
Healthcare professionals should highlight government’s Expert Patients Programme to children, young people and adults with epilepsy who wish to manage their condition more effectively. (This web address has changed since the recommendation was published in 2004 and has been updated.) [2004, amended 2012]
1.3. Information
- 1.3.1.
Children, young people and adults with epilepsy and their families and/or carers should be given, and have access to sources of, information about (where appropriate):
- epilepsy in general
- diagnosis and treatment options
- medication and side effects
- seizure type(s), triggers and seizure control
- management and self-care
- risk management
- first aid, safety and injury prevention at home and at school or work
- psychological issues
- social security benefits and social services
- insurance issues
- education and healthcare at school
- employment and independent living for adults
- importance of disclosing epilepsy at work, if relevant (if further information or clarification is needed, voluntary organisations should be contacted)
- road safety and driving
- status epilepticus
- lifestyle, leisure and social issues (including recreational drugs, alcohol, sexual activity and sleep deprivation)
- family planning and pregnancy
- voluntary organisations, such as support groups and charitable organisations, and how to contact them. [2004]
- 1.3.2.
The time at which this information should be given will depend on the certainty of the diagnosis, and the need for confirmatory investigations. [2004]
- 1.3.3.
Information should be provided in formats, languages and ways that are suited to the child, young person or adult’s requirements. Consideration should be given to developmental age, gender, culture and stage of life of the person. [2004]
- 1.3.4.
If children, young people and adults, and their families and/or carers, have not already found high-quality information from voluntary organisations and other sources, healthcare professionals should inform them of different sources (using the Internet, if appropriate: see, for example, the website of the Joint Epilepsy Council of the UK and Ireland). [2004]
- 1.3.5.
Adequate time should be set aside in the consultation to provide information, which should be revisited on subsequent consultations. [2004]
- 1.3.6.
Checklists should be used to remind children, young people and adults, and healthcare professionals, about information that should be discussed during consultations. [2004]
- 1.3.7.
Everyone providing care or treatment for children, young people and adults with epilepsy should be able to provide essential information. [2004]
- 1.3.8.
The child, young person or adult with epilepsy and their family and/or carers as appropriate should know how to contact a named individual when information is needed. This named individual should be a member of the healthcare team and be responsible for ensuring that the information needs of the child, young person or adult and/or their family and/or carers are met. [2004]
- 1.3.9.
The possibility of having seizures should be discussed, and information on epilepsy should be provided before seizures occur, for children, young people and adults at high risk of developing seizures (such as after severe brain injury), with a learning disability, or who have a strong family history of epilepsy. [2004]
- 1.3.10.
Children, young people and adults with epilepsy should be given appropriate information before they make important decisions (for example, regarding pregnancy or employment). [2004]
Sudden unexpected death in epilepsy (SUDEP)
- 1.3.11.
Information on SUDEP should be included in literature on epilepsy to show why preventing seizures is important. Tailored information on the person’s relative risk of SUDEP should be part of the counselling checklist for children, young people and adults with epilepsy and their families and/or carers. [2004]
- 1.3.12.
The risk of SUDEP can be minimised by:
- optimising seizure control
- being aware of the potential consequences of nocturnal seizures. [2004]
- 1.3.13.
Tailored information and discussion between the child, young person or adult with epilepsy, their family and/or carers (as appropriate) and healthcare professionals should take account of the small but definite risk of SUDEP. [2004]
- 1.3.14.
Where families and/or carers have been affected by SUDEP, healthcare professionals should contact families and/or carers to offer their condolences, invite them to discuss the death, and offer referral to bereavement counselling and a SUDEP support group. [2004]
1.4. Following a first seizure
- 1.4.1.
Children, young people and adults presenting to an Accident and Emergency department following a suspected seizure should be screened initially. This should be done by an adult or paediatric physician with onward referral to a specialist when an epileptic seizure is suspected or there is diagnostic doubt. [2004]
- 1.4.2.
Protocols should be in place that ensure proper assessment in the emergency setting for children, young people and adults presenting with an epileptic seizure (suspected or confirmed). [2004]
- 1.4.3.
The information that should be obtained from the adult and/or family or carer after a suspected seizure is contained in appendix D. [2004]
- 1.4.4.
The information that should be obtained from the child or young person and/or parent or carer after a suspected seizure is contained in appendix D. [2004]
- 1.4.5.
It is recommended that all adults having a first seizure should be seen as soon as possible by a specialist in the management of the epilepsies to ensure precise and early diagnosis and initiation of therapy as appropriate to their needs. (The Guideline Development Group considered that with a recent onset suspected seizure, referrals should be urgent, meaning that patients should be seen within 2 weeks.) [2004]
- 1.4.6.
It is recommended that all children and young people who have had a first non-febrile seizure should be seen as soon as possible by a specialist in the management of the epilepsies to ensure precise and early diagnosis and initiation of therapy as appropriate to their needs. (The Guideline Development Group considered that with a recent onset suspected seizure, referrals should be urgent, meaning that patients should be seen within 2 weeks.) [2004]
- 1.4.7.
At the initial assessment for a recent onset seizure, the specialist should have access to appropriate investigations. [2004]
- 1.4.8.
In a child, young person or adult presenting with an attack, a physical examination should be carried out. This should address their cardiac, neurological and mental status, and should include a developmental assessment where appropriate. [2004]
- 1.4.9.
Essential information on how to recognise a seizure, first aid, and the importance of reporting further attacks should be provided to a child, young person or adult who has experienced a possible first seizure, and their family/carer/parent as appropriate. This information should be provided while the child, young person or adult is awaiting a diagnosis and should also be provided to their family and/or carers. [2004]
1.5. Diagnosis
- 1.5.1.
The diagnosis of epilepsy in adults should be established by a specialist medical practitioner with training and expertise in epilepsy. [2004]
- 1.5.2.
The diagnosis of epilepsy in children and young people should be established by a specialist paediatrician with training and expertise in epilepsy. [2004]
- 1.5.3.
Children, young people and adults and their families and/or carers should be given an opportunity to discuss the diagnosis with an appropriate healthcare professional. [2004]
- 1.5.4.
A detailed history should be taken from the child, young person or adult and an eyewitness to the attack, where possible, to determine whether or not an epileptic seizure is likely to have occurred. [2004]
- 1.5.5.
The clinical decision as to whether an epileptic seizure has occurred should then be based on the combination of the description of the attack and different symptoms. Diagnosis should not be based on the presence or absence of single features. [2004]
- 1.5.6.
It may not be possible to make a definite diagnosis of epilepsy. If the diagnosis cannot be clearly established, further investigations (see the section on investigations) and/or referral to a tertiary epilepsy specialist (see recommendation 1.10.2 in the section on referral for complex or refractory epilepsy) should be considered. Follow-up should always be arranged. (In this recommendation, ‘centre’ has been replaced with ‘specialist’ for consistency across recommendations.) [2004]
- 1.5.7.
Where non-epileptic attack disorder is suspected, suitable referral should be made to psychological or psychiatric services for further investigation and treatment. [2004]
- 1.5.8.
Prospective recording of events, including video recording and written descriptions, can be very helpful in reaching a diagnosis. [2004]
1.6. Investigations
- 1.6.1.
Information should be provided to children, young people and adults and families and/or carers as appropriate on the reasons for tests, their results and meaning, the requirements of specific investigations, and the logistics of obtaining them. [2004]
- 1.6.2.
All investigations for children should be performed in a child-centred environment. [2004]
Electroencephalogram (EEG)
- 1.6.3.
Children, young people and adults requiring an EEG should have the test performed soon after it has been requested. (The Guideline Development Group considered that ‘soon’ meant being seen within 4 weeks.) [2004]
- 1.6.4.
An EEG should be performed only to support a diagnosis of epilepsy in adults in whom the clinical history suggests that the seizure is likely to be epileptic in origin. [2004]
- 1.6.5.
An EEG should be performed only to support a diagnosis of epilepsy in children and young people. If an EEG is considered necessary, it should be performed after the second epileptic seizure but may, in certain circumstances, as evaluated by the specialist, be considered after a first epileptic seizure. [2004]
- 1.6.6.
An EEG should not be performed in the case of probable syncope because of the possibility of a false-positive result. [2004]
- 1.6.7.
The EEG should not be used to exclude a diagnosis of epilepsy in a child, young person or adult in whom the clinical presentation supports a diagnosis of a non-epileptic event. [2004]
- 1.6.8.
The EEG should not be used in isolation to make a diagnosis of epilepsy. [2004]
- 1.6.9.
An EEG may be used to help determine seizure type and epilepsy syndrome in children, young people and adults in whom epilepsy is suspected. This enables them to be given the correct prognosis. [2004]
- 1.6.10.
In children, young people and adults presenting with a first unprovoked seizure, unequivocal epileptiform activity shown on EEG can be used to assess the risk of seizure recurrence. [2004]
- 1.6.11.
For children, young people and adults in whom epilepsy is suspected, but who present diagnostic difficulties, specialist investigations should be available. [2004]
- 1.6.12.
Repeated standard EEGs may be helpful when the diagnosis of the epilepsy or the syndrome is unclear. However, if the diagnosis has been established, repeat EEGs are not likely to be helpful. [2004]
- 1.6.13.
Repeated standard EEGs should not be used in preference to sleep or sleep-deprived EEGs. [2004]
- 1.6.14.
When a standard EEG has not contributed to diagnosis or classification, a sleep EEG should be performed. [2004]
- 1.6.15.
In children and young people, a sleep EEG is best achieved through sleep deprivation or the use of melatonin. The licence for the use of melatonin in the UK has changed since the recommendation was published in 2004. The recommendation has been updated accordingly and the footnote that contained the old information has been deleted.) [2004, amended 2012]
- 1.6.16.
Long-term video or ambulatory EEG may be used in the assessment of children, young people and adults who present diagnostic difficulties after clinical assessment and standard EEG. [2004]
- 1.6.17.
Provocation by suggestion may be used in the evaluation of non-epileptic attack disorder. However, it has a limited role and may lead to false-positive results in some people. [2004]
- 1.6.18.
Photic stimulation and hyperventilation should remain part of standard EEG assessment. The child, young person or adult and family and/or carer should be made aware that such activation procedures may induce a seizure and they have a right to refuse. [2004]
Neuroimaging
- 1.6.19.
Neuroimaging should be used to identify structural abnormalities that cause certain epilepsies. [2004]
- 1.6.20.
MRI should be the imaging investigation of choice in children, young people and adults with epilepsy. [2004]
- 1.6.21.
MRI is particularly important in those:
- who develop epilepsy before the age of 2 years or in adulthood
- who have any suggestion of a focal onset on history, examination or EEG (unless clear evidence of benign focal epilepsy)
- in whom seizures continue in spite of first-line medication. [2004]
- 1.6.22.
Children, young people and adults requiring MRI should have the test performed soon. (The Guideline Development Group considered that ‘soon’ meant being seen within 4 weeks.) [2004]
- 1.6.23.
Neuroimaging should not be routinely requested when a diagnosis of idiopathic generalised epilepsy has been made. [2004]
- 1.6.24.
CT should be used to identify underlying gross pathology if MRI is not available or is contraindicated, and for children or young people in whom a general anaesthetic or sedation would be required for MRI but not CT. [2004]
- 1.6.25.
In an acute situation, CT may be used to determine whether a seizure has been caused by an acute neurological lesion or illness. [2004]
Other tests
- 1.6.26.
Measurement of serum prolactin is not recommended for the diagnosis of epilepsy. [2004]
- 1.6.27.
In adults, appropriate blood tests (for example, plasma electrolytes, glucose, calcium) to identify potential causes and/or to identify any significant co-morbidity should be considered. [2004]
- 1.6.28.
In children and young people, other investigations, including blood and urine biochemistry, should be undertaken at the discretion of the specialist to exclude other diagnoses, and to determine an underlying cause of the epilepsy. [2004]
- 1.6.29.
A 12-lead ECG should be performed in adults with suspected epilepsy. [2004]
- 1.6.30.
In children and young people, a 12-lead ECG should be considered in cases of diagnostic uncertainty. [2004]
- 1.6.31.
In cases of diagnostic uncertainty, a referral to a cardiologist should be considered. [2004]
Neuropsychological assessment
- 1.6.32.
Neuropsychological assessment should be considered in children, young people and adults in whom it is important to evaluate learning disabilities and cognitive dysfunction, particularly in regard to language and memory. [2004]
- 1.6.33.
Referral for a neuropsychological assessment is indicated:
- when a child, young person or adult with epilepsy is having educational or occupational difficulties
- when an MRI has identified abnormalities in cognitively important brain regions
- when a child, young person or adult complains of memory or other cognitive deficits and/or cognitive decline. [2004]
1.7. Classification
- 1.7.1.
Epileptic seizures and epilepsy syndromes in children, young people and adults should be classified using a multi-axial diagnostic scheme. The axes that should be considered are: description of seizure (ictal phenomenology); seizure type; syndrome and aetiology. [2004]
- 1.7.2.
The seizure type(s) and epilepsy syndrome, aetiology, and co-morbidity should be determined, because failure to classify the epilepsy syndrome correctly can lead to inappropriate treatment and persistence of seizures. [2004]
- 1.7.3.
Children, young people and adults with epilepsy should be given information about their seizure type(s) and epilepsy syndrome, and the likely prognosis. [2004]
1.8. Management
- 1.8.1.
Children, young people and adults with epilepsy should have an accessible point of contact with specialist services. [2004]
- 1.8.2.
All children, young people and adults with epilepsy should have a comprehensive care plan that is agreed between the person, family and/or carers where appropriate, and primary care and secondary care providers. This should include lifestyle issues as well as medical issues. [2004]
- 1.8.3.
Epilepsy specialist nurses (ESNs) should be an integral part of the network of care of children, young people and adults with epilepsy. The key roles of the ESNs are to support both epilepsy specialists and generalists, to ensure access to community and multi-agency services and to provide information, training and support to the child, young person or adult, families, carers and, in the case of children, others involved in the child’s education, welfare and well-being. [2004]
- 1.8.4.
Healthcare professionals have a responsibility to educate others about epilepsy so as to reduce the stigma associated with it. They should provide information about epilepsy to all people who come into contact with children, young people and adults with epilepsy, including school staff, social care professionals and others. [2004]
1.9. Pharmacological treatment
Note: see the British national formulary (BNF) or the British national formulary for children (BNFC) for further details of pharmacological treatment.
The GDG is aware of the contraindications to prescribing carbamazepine to some people of Han Chinese or Thai origin. Recommendations in this section offer alternatives, and so no specific recommendations are made for these groups.
Reviews for women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) should include discussion on the possible effects of their medication in pregnancy. This applies to girls and women taking carbamazepine, phenytoin, topiramate, phenobarbital, lamotrigine or levetiracetam.
Sodium valproate
In February 2020 we strengthened warnings that valproate must not be used in women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years), unless alternative treatments are not suitable. Women and girls of childbearing potential must be fully informed about the risks of taking valproate during pregnancy, and only take valproate if they have a pregnancy prevention programme in place, in line with the MHRA safety advice on valproate.
Valproate must not be used in pregnant women. See update information for more details.
Recommendations in this section offer alternative prescribing options for this group and provide additional specific information of relevance when considering prescribing anti-epileptic drugs (AEDs) to women and girls of childbearing potential.
1.9.1. General information about pharmacological treatment
See the recommendations on women and girls with epilepsy for special considerations for this group.
- 1.9.1.1.
Information that is provided about AEDs needs to be in the context of that provided by the manufacturer, for example, indications, side effects and licence status. [2004]
- 1.9.1.2.
The AED treatment strategy should be individualised according to the seizure type, epilepsy syndrome, co-medication and co-morbidity, the child, young person or adult’s lifestyle, and the preferences of the person and their family and/or carers as appropriate (see the BNF or BNFC). [2004]
- 1.9.1.3.
The diagnosis of epilepsy needs to be critically evaluated if events continue despite an optimal dose of a first-line AED. [2004]
- 1.9.1.4.
Consistent supply to the child, young person or adult with epilepsy of a particular manufacturer’s AED preparation is recommended, unless the prescriber, in consultation with the child, young person, adult and their family and/or carers as appropriate, considers that this is not a concern. Different preparations of some AEDs may vary in bioavailability or pharmacokinetic profiles and care needs to be taken to avoid reduced effect or excessive side effects. Consult the summary of product characteristics (SPC) and BNF on the bioavailability and pharmacokinetic profiles of individual AEDs, but note that these do not give information on comparing bioavailability of different generic preparations. (Recommendations 1.1.1 in the section on principle of decision making, 1.2.2 in the section on coping with epilepsy, and 1.3.3, 1.3.5 and 1.3.10 in the section on information describe the principles of decision making and best practice in relation to effective and appropriate consultation between healthcare professionals and children, young people and adults with epilepsy.) [2012]
In November 2013, the MHRA issued new advice about AEDs and switching between different manufacturers’ products of a particular drug. Following a review of the available evidence, the Commission on Human Medicines (CHM) has classified AEDs into 3 categories depending on the level of potential concerns related to switching between different manufacturers’ products. Consult the MHRA advice for more information.
- 1.9.1.5.
It is recommended that children, young people and adults should be treated with a single AED (monotherapy) wherever possible. If the initial treatment is unsuccessful, then monotherapy using another drug can be tried. Caution is needed during the changeover period. [2004]
- 1.9.1.6.
If an AED has failed because of adverse effects or continued seizures, a second drug should be started (which may be an alternative first-line or second-line drug) and built up to an adequate or maximum tolerated dose and then the first drug should be tapered off slowly. [2004]
- 1.9.1.7.
If the second drug is unhelpful, either the first or second drug may be tapered, depending on relative efficacy, side effects and how well the drugs are tolerated before starting another drug. [2004]
- 1.9.1.8.
It is recommended that combination therapy (adjunctive or ‘add-on’ therapy) should only be considered when attempts at monotherapy with AEDs have not resulted in seizure freedom. If trials of combination therapy do not bring about worthwhile benefits, treatment should revert to the regimen (monotherapy or combination therapy) that has proved most acceptable to the child, young person or adult, in terms of providing the best balance between effectiveness in reducing seizure frequency and tolerability of side effects. [2004]
- 1.9.1.9.
If using carbamazepine, offer controlled-release carbamazepine preparations. [2012]
- 1.9.1.10.
Do not offer sodium valproate to women or girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years), unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place.
- Discuss the risk of malformation and neurodevelopmental impairments in an unborn child.
- Be clear that the risk is particularly increased with high doses of this AED or when using as part of polytherapy.
- Follow the MHRA safety advice on valproate use by women and girls. [amended 2020]
1.9.2. Initiation of pharmacological treatment
- 1.9.2.1.
AED therapy should only be started once the diagnosis of epilepsy is confirmed, except in exceptional circumstances that require discussion and agreement between the prescriber, the specialist and the child, young person or adult and their family and/or carers as appropriate. [2004]
- 1.9.2.2.
AED therapy should be initiated in adults on the recommendation of a specialist. [2004]
- 1.9.2.3.
AED therapy in children and young people should be initiated by a specialist. [2004]
- 1.9.2.4.
The decision to initiate AED therapy should be taken between the child, young person or adult, their family and/or carers (as appropriate) and the specialist after a full discussion of the risks and benefits of treatment. This discussion should take into account details of the person’s epilepsy syndrome, prognosis and lifestyle. [2004]
- 1.9.2.5.
Treatment with AED therapy is generally recommended after a second epileptic seizure. [2004]
- 1.9.2.6.
When possible, choose which AED to offer on the basis of the presenting epilepsy syndrome. If the epilepsy syndrome is not clear at presentation, base the decision on the presenting seizure type(s). [2012]
- 1.9.2.7.
AED therapy should be considered and discussed with children, young people and adults and their family and/or carers as appropriate after a first unprovoked seizure if:
- the child, young person or adult has a neurological deficit
- the EEG shows unequivocal epileptic activity
- the child, young person or adult and/or their family and/or carers consider the risk of having a further seizure unacceptable
- brain imaging shows a structural abnormality. [2004]
- 1.9.2.8.
It should be recognised that some children, young people and adults (through their families and/or carers, in some instances) may choose not to take AED therapy following a full discussion of the risks and benefits. [2004]
- 1.9.2.9.
Do not offer sodium valproate to women or girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years), unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls. [2020]
1.9.3. Pharmacological treatment of focal seizures
First-line treatment in children, young people and adults with newly diagnosed focal seizures
- 1.9.3.1.
For first-line treatment of newly diagnosed focal seizures:
- Offer lamotrigine to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years).
- Offer lamotrigine or carbamazepine to boys, men and women who are not of childbearing potential. [2012, amended 2021]
- 1.9.3.2.
If carbamazepine or lamotrigine are unsuitable or not tolerated for newly diagnosed focal seizures:
- Offer levetiracetam to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years). If levetiracetam is ineffective, offer oxcarbazepine. Advise that oxcarbazepine can impair the effectiveness of hormonal contraceptives.
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) with focal seizures, unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer levetiracetam, oxcarbazepine or sodium valproate to boys, men and women who are not of childbearing potential. If the first AED tried is ineffective, offer an alternative from these AEDs.
Levetiracetam is not cost effective at June 2011 unit costs. (Estimated cost of a 1,500 mg daily dose was £2.74 at June 2011. Cost taken from the National Health Service Drug Tariff for England and Wales.) It may be offered provided the acquisition cost of levetiracetam falls to at least 50% of June 2011 value documented in the National Health Service Drug Tariff for England and Wales. [amended 2020]
- 1.9.3.3.
Consider adjunctive treatment if a second well-tolerated AED is ineffective (see recommendations 1.9.3.1 and 1.9.3.2). [2012]
Adjunctive treatment in children, young people and adults with refractory focal seizures
In January 2012, the use of clobazam, gabapentin, eslicarbazepine acetate, pregabalin and zonisamide in recommendations 1.9.3.4 and 1.9.3.5 was off label (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
Recommendations 1.9.3.4 and 1.9.3.5: As of 1 April 2019, gabapentin is a Class C controlled substance (under the Misuse of Drugs Act 1971) and scheduled under the Misuse of Drugs Regulations 2001 as Schedule 3. Evaluate patients carefully for a history of drug abuse before prescribing and observe patients for development of signs of abuse and dependence (MHRA, Drug Safety Update April 2019).
- 1.9.3.4.
If first-line treatments (see recommendations 1.9.3.1 and 1.9.3.2) for children, young people and adults with focal seizures are ineffective or not tolerated:
- Offer lamotrigine, levetiracetam, carbamazepine, clobazam, gabapentin, oxcarbazepine or topiramate as adjunctive treatment to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years). Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate and oxcarbazepine can impair the effectiveness of hormonal contraceptives.
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) with focal seizures, unless the other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer carbamazepine, clobazam, gabapentin, lamotrigine, levetiracetam, oxcarbazepine, sodium valproate or topiramate as adjunctive treatment to boys, men and women who are not of childbearing potential. [amended 2021]
- 1.9.3.5.
If adjunctive treatment (see recommendation 1.9.3.4) is ineffective or not tolerated:
- Discuss with, or refer to, a tertiary epilepsy specialist.
- Other AEDs that may be considered by the tertiary epilepsy specialist are eslicarbazepine acetate, lacosamide, phenobarbital, phenytoin, pregabalin , tiagabine, vigabatrin and zonisamide. Follow the MHRA safety advice on antiepileptic drugs in pregnancy.
- Carefully consider the risk–benefit ratio when using vigabatrin because of the risk of an irreversible effect on visual fields. [2012, amended 2021]
1.9.4. Pharmacological treatment of newly diagnosed generalised tonic–clonic (GTC) seizures
First-line treatment in children, young people and adults with newly diagnosed GTC seizures
- 1.9.4.1.
For first-line treatment of newly diagnosed GTC seizures:
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years), unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer sodium valproate to boys, men and women who are not of childbearing potential. [amended 2020]
- 1.9.4.2.
Offer lamotrigine if sodium valproate is unsuitable. If the person has myoclonic seizures or is suspected of having juvenile myoclonic epilepsy (JME), be aware that lamotrigine may exacerbate myoclonic seizures. Follow the MHRA safety advice on antiepileptic drugs in pregnancy. [2012]
- 1.9.4.3.
Consider carbamazepine and oxcarbazepine but be aware of the risk of exacerbating myoclonic or absence seizures and follow the MHRA safety advice on antiepileptic drugs in pregnancy. [2012]
In January 2012, this was an off-label use of oxcarbazepine (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
Adjunctive treatment in children, young people and adults with GTC seizures
- 1.9.4.4.
If first-line treatments (see the recommendations on first-line treatment in children, young people and adults with newly diagnosed GTC seizures) for children, young people and adults with GTC seizures are ineffective or not tolerated:
- Offer lamotrigine, levetiracetam, clobazam, or topiramate as adjunctive treatment to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years). Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate can impair the effectiveness of hormonal contraceptives.
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) with GTC seizures, unless the other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer clobazam, lamotrigine, levetiracetam, sodium valproate or topiramate as adjunctive treatment to boys, men and women who are not of childbearing potential. [amended 2021]
In January 2012, this was an off-label use of clobazam (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.9.4.5.
If there are absence or myoclonic seizures, or if JME is suspected, do not offer carbamazepine, gabapentin, oxcarbazepine, phenytoin, pregabalin, tiagabine or vigabatrin. [2012]
1.9.5. Pharmacological treatment of absence seizures
First-line treatment in children, young people and adults with absence seizures
- 1.9.5.1.
For first-line treatment of absence seizures:
- Offer ethosuximide to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years).
- Offer ethosuximide or sodium valproate to boys, men and women who are not of childbearing potential. If there is a high risk of GTC seizures, offer sodium valproate first, unless it is unsuitable.
- Do not offer sodium valproate to women and girls of childbearing potential unless the other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls. [amended 2020]
- 1.9.5.2.
Offer lamotrigine if ethosuximide and sodium valproate are unsuitable, ineffective or not tolerated. [2012]
In January 2012, this was an off-label use of lamotrigine (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
Adjunctive treatment in children, young people and adults with absence seizures
In January 2012, the use of clobazam, lamotrigine, levetiracetam, topiramate and zonisamide in recommendations 1.9.5.3 and 1.9.5.4 was off label (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.9.5.3.
If two first-line AEDs (see recommendations on first-line treatment in children, young people and adults with absence seizures) for children, young people and adults with absence seizures are ineffective:
- Consider a combination of ethosuximide and lamotrigine as adjunctive treatment for women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years).
- Do not offer sodium valproate to women and girls of childbearing potential unless the other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Consider a combination of two of these three AEDs as adjunctive treatment for boys, men and women who are not of childbearing potential: ethosuximide, lamotrigine or sodium valproate. [amended 2020]
- 1.9.5.4.
If adjunctive treatment (see recommendation 1.9.5.3) is ineffective or not tolerated, discuss with, or refer to, a tertiary epilepsy specialist and consider clobazam, clonazepam, levetiracetam, topiramate or zonisamide. Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate can impair the effectiveness of hormonal contraceptives. [2012, amended 2021]
- 1.9.5.5.
Do not offer carbamazepine, gabapentin, oxcarbazepine, phenytoin, pregabalin, tiagabine or vigabatrin. [2012]
1.9.6. Pharmacological treatment of myoclonic seizures
First-line treatment in children, young people and adults with myoclonic seizures
- 1.9.6.1.
For the first-line treatment of newly diagnosed myoclonic seizures:
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer sodium valproate to boys, men and women who are not of childbearing potential. [amended 2020]
- 1.9.6.2.
Consider levetiracetam or topiramate if sodium valproate is unsuitable, ineffective or not tolerated. Be aware that topiramate has a less favourable side-effect profile than levetiracetam and can impair the effectiveness of hormonal contraceptives. Follow the MHRA safety advice on antiepileptic drugs in pregnancy. [amended 2021]
In January 2012, this was an off-label use of levetiracetam and topiramate (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
Adjunctive treatment in children, young people and adults with myoclonic seizures
In January 2012, the use of clobazam, topiramate and zonisamide in recommendations 1.9.6.3 and 1.9.6.4 was off label (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.9.6.3.
If first-line treatments (see the recommendations on first-line treatment in children, young people and adults with myoclonic seizures) for children, young people and adults with myoclonic seizures are ineffective or not tolerated:
- Offer levetiracetam or topiramate as adjunctive treatment to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years). Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate can impair the effectiveness of hormonal contraceptives.
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) unless the other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer levetiracetam, sodium valproate or topiramate as adjunctive treatment to boys, men and women who are not of childbearing potential. [amended 2021]
- 1.9.6.4.
If adjunctive treatment (see recommendation 1.9.6.3) is ineffective or not tolerated, discuss with, or refer to, a tertiary epilepsy specialist and consider clobazam, clonazepam, piracetam or zonisamide. Follow the MHRA safety advice on antiepileptic drugs in pregnancy. [2012, amended 2021]
- 1.9.6.5.
Do not offer carbamazepine, gabapentin, oxcarbazepine, phenytoin, pregabalin, tiagabine or vigabatrin. [2012]
1.9.7. Pharmacological treatment of tonic or atonic seizures
First-line treatment in children, young people and adults with tonic or atonic seizures
- 1.9.7.1.
For first-line treatment of tonic or atonic seizures:
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer sodium valproate as first-line treatment to boys, men and women who are not of childbearing potential. [amended 2020]
Adjunctive treatment in children, young people and adults with tonic or atonic seizures
In January 2012, the use of lamotrigine, rufinamide and topiramate in recommendations 1.9.7.2 and 1.9.7.3 was off label (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.9.7.2.
If first-line treatment with sodium valproate is unsuitable, ineffective or not tolerated, offer lamotrigine as adjunctive treatment to children, young people and adults with tonic or atonic seizures. [2012]
- 1.9.7.3.
Discuss with a tertiary epilepsy specialist if adjunctive treatment (see recommendation 1.9.7.2) is ineffective or not tolerated. Other AEDs that may be considered by the tertiary epilepsy specialist are rufinamide and topiramate. Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate can impair the effectiveness of hormonal contraceptives. [2012, amended 2021]
- 1.9.7.4.
Do not offer carbamazepine, gabapentin, oxcarbazepine, pregabalin, tiagabine or vigabatrin. [2012]
1.9.8. Pharmacological treatment of infantile spasms
First-line treatment in infants with infantile spasms
In January 2012, the use of tetracosactide in recommendations 1.9.8.2 and 1.9.8.3 was off label (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.9.8.1.
Discuss with, or refer to, a tertiary paediatric epilepsy specialist when an infant presents with infantile spasms. [2012]
- 1.9.8.2.
Offer a steroid (prednisolone or tetracosactide) or vigabatrin as first-line treatment to infants with infantile spasms that are not due to tuberous sclerosis. Carefully consider the risk–benefit ratio when using vigabatrin or steroids. [2012]
- 1.9.8.3.
Offer vigabatrin as first-line treatment to infants with infantile spasms due to tuberous sclerosis. If vigabatrin is ineffective, offer a steroid (prednisolone or tetracosactide). Carefully consider the risk–benefit ratio when using vigabatrin or steroids. [2012]
1.9.9. Pharmacological treatment of Dravet syndrome
First-line treatment for Dravet syndrome
- 1.9.9.1.
Discuss with, or refer to, a tertiary paediatric epilepsy specialist when a child presents with suspected Dravet syndrome. [2012]
- 1.9.9.2.
For first-line treatment of Dravet syndrome:
- Consider topiramate for women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years). Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate can impair the effectiveness of hormonal contraceptives.
- Consider sodium valproate or topiramate for boys, men and women who are not of childbearing potential.
- Do not offer sodium valproate as first-line treatment to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years), unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls. [amended 2021]
In January 2012, this was an off-label use of topiramate (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
Adjunctive treatment in children, young people and adults with Dravet syndrome
- 1.9.9.3.
Discuss with a tertiary epilepsy specialist if first-line treatments (see the recommendation on first-line treatment of Dravet syndrome) in children, young people and adults with Dravet syndrome are ineffective or not tolerated, and consider clobazam or stiripentol as adjunctive treatment. [2012]
In January 2012, this was an off-label use of clobazam (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.9.9.4.
Do not offer carbamazepine, gabapentin, lamotrigine, oxcarbazepine, phenytoin, pregabalin, tiagabine or vigabatrin. [2012]
1.9.10. Pharmacological treatment of Lennox–Gastaut syndrome
First-line treatment for Lennox–Gastaut syndrome
- 1.9.10.1.
Discuss with, or refer to, a tertiary paediatric epilepsy specialist when a child presents with suspected Lennox–Gastaut syndrome. [2012]
- 1.9.10.2.
For first-line treatment of Lennox–Gastaut syndrome:
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years), unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer sodium valproate to boys, men and women who are not of childbearing potential. [amended 2020]
Adjunctive treatment in children, young people and adults with Lennox–Gastaut syndrome
- 1.9.10.3.
If first-line treatment with sodium valproate is unsuitable, ineffective or not tolerated, offer lamotrigine as adjunctive treatment to children, young people and adults with Lennox–Gastaut syndrome. [2012]
- 1.9.10.4.
Discuss with a tertiary epilepsy specialist if adjunctive treatment (see recommendation 1.9.10.3) is ineffective or not tolerated. Other AEDs that may be considered by the tertiary epilepsy specialist are rufinamide and topiramate. Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate can impair the effectiveness of hormonal contraceptives. [2012, amended 2021]
- 1.9.10.5.
Do not offer carbamazepine, gabapentin, oxcarbazepine, pregabalin, tiagabine or vigabatrin. [2012]
- 1.9.10.6.
Only offer felbamate in centres providing tertiary epilepsy specialist care and when treatment with all of the AEDs listed in recommendations 1.9.10.3 and 1.9.10.4 has proved ineffective or not tolerated. [2012]
In January 2012, this was an off-label use of felbamate (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
1.9.11. Pharmacological treatment of benign epilepsy with centrotemporal spikes, Panayiotopoulos syndrome or late-onset childhood occipital epilepsy (Gastaut type)
First-line treatment for benign epilepsy with centrotemporal spikes, Panayiotopoulos syndrome or late-onset childhood occipital epilepsy (Gastaut type)
In January 2012, the use of carbamazepine, lamotrigine, levetiracetam and oxcarbazepine in recommendations 1.9.11.2 and 1.9.11.3 was off label (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.9.11.1.
Discuss with the child or young person, and their family and/or carers, whether AED treatment for benign epilepsy with centrotemporal spikes, Panayiotopoulos syndrome or late-onset childhood occipital epilepsy (Gastaut type) is indicated. [2012]
- 1.9.11.2.
For first-line treatment of benign epilepsy with centrotemporal spikes, Panayiotopoulos syndrome or late-onset childhood occipital epilepsy:
- Offer lamotrigine to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years). Follow the MHRA safety advice on antiepileptic drugs in pregnancy.
- Offer lamotrigine or carbamazepine to men and boys. [2012, amended 2021]
- 1.9.11.3.
If carbamazepine or lamotrigine are unsuitable or not tolerated for benign epilepsy with centrotemporal spikes, Panayiotopoulos syndrome or late-onset childhood occipital epilepsy (Gastaut type):
- Offer levetiracetam or oxcarbazepine to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years. If the first of these AEDs tried is ineffective, offer the other one. Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that oxcarbazepine can impair the effectiveness of hormonal contraceptives.
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer levetiracetam, oxcarbazepine or sodium valproate to boys, men and women who are not of childbearing potential. If the first AED tried is ineffective, offer an alternative from these AEDs.
- Be aware that carbamazepine and oxcarbazepine may exacerbate or unmask continuous spike and wave during slow sleep, which may occur in some children with benign epilepsy with centrotemporal spikes
Levetiracetam is not cost effective at June 2011 unit costs. (Estimated cost of a 1,500 mg daily dose was £2.74 at June 2011. Cost taken from the National Health Service Drug Tariff for England and Wales.) It may be offered provided the acquisition cost of levetiracetam falls to at least 50% of June 2011 value documented in the National Health Service Drug Tariff for England and Wales. [amended 2021]
- 1.9.11.4.
Consider adjunctive treatment if a second well-tolerated AED is ineffective (see recommendations 1.9.11.2 and 1.9.11.3). [2012]
Adjunctive treatment for benign epilepsy with centrotemporal spikes, Panayiotopoulos syndrome or late-onset childhood occipital epilepsy (Gastaut type)
In January 2012, the use of carbamazepine, clobazam, eslicarbazepine acetate, gabapentin, lacosamide, lamotrigine, levetiracetam, pregabalin, oxcarbazepine, tiagabine, topiramate, vigabatrin and zonisamide in recommendations 1.9.11.5 and 1.9.11.6 was off label (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
Recommendations 1.9.11.5 and 1.9.11.6: As of 1 April 2019, gabapentin and pregabalin are Class C controlled substance (under the Misuse of Drugs Act 1971) and scheduled under the Misuse of Drugs Regulations 2001 as Schedule 3. Evaluate patients carefully for a history of drug abuse before prescribing and observe patients for development of signs of abuse and dependence (MHRA, Drug Safety Update April 2019).
- 1.9.11.5.
If first-line treatments (see recommendations 1.9.11.2 and 1.9.11.3) for children and young people with benign epilepsy with centrotemporal spikes, Panayiotopoulos syndrome or late-onset childhood occipital epilepsy (Gastaut type) are ineffective or not tolerated:
- Offer carbamazepine, clobazam, gabapentin , lamotrigine, levetiracetam, oxcarbazepine or topiramate as adjunctive treatment to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years). Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate and oxcarbazepine can impair the effectiveness of hormonal contraceptives.
- Do not offer sodium valproate as adjunctive treatment to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) unless the other options are ineffective or not tolerated and the pregnancy prevention plan is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer carbamazepine, clobazam, gabapentin, lamotrigine, levetiracetam, oxcarbazepine, sodium valproate or topiramate as adjunctive treatment to boys, men and women who are not of childbearing potential. [amended 2021]
- 1.9.11.6.
If adjunctive treatment (see recommendation 1.9.11.5) is ineffective or not tolerated:
- Discuss with, or refer to, a tertiary epilepsy specialist.
- Other AEDs that may be considered by the tertiary epilepsy specialist are eslicarbazepine acetate, lacosamide, phenobarbital, phenytoin, pregabalin, tiagabine, vigabatrin and zonisamide. Follow the MHRA safety advice on antiepileptic drugs in pregnancy.
- Carefully consider the risk–benefit ratio when using vigabatrin because of the risk of an irreversible effect on visual fields. [2012, amended 2021]
1.9.12. Pharmacological treatment of idiopathic generalised epilepsy (IGE)
First-line treatment in children, young people and adults with IGE
In January 2012, the use of lamotrigine and topiramate in recommendations 1.9.12.2 and 1.9.12.3 was off label (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.9.12.1.
For first-line treatment of newly diagnosed IGE:
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer sodium valproate to boys, men and women who are not of childbearing potential, particularly if there is a photoparoxysmal response on EEG. [amended 2020]
- 1.9.12.2.
Offer lamotrigine if sodium valproate is unsuitable or not tolerated. Be aware that lamotrigine can exacerbate myoclonic seizures. If JME is suspected see the recommendations on first-line treatment in children, young people and adults with JME. [2012]
- 1.9.12.3.
Consider topiramate but be aware that it has a less favourable side-effect profile than lamotrigine. Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate can impair the effectiveness of hormonal contraceptives. [amended 2021]
Adjunctive treatment in children, young people and adults with IGE
In January 2012, the use of clobazam, lamotrigine, levetiracetam, topiramate and zonisamide in recommendations 1.9.12.4 and 1.9.12.5 was off label (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.9.12.4.
If first-line treatments (see the recommendations on first-line treatment of IGE) for children, young people and adults with IGE are ineffective or not tolerated:
- Offer lamotrigine, levetiracetam or topiramate as adjunctive treatment to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years). Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate can impair the effectiveness of hormonal contraceptives.
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) unless other options are unsuitable, ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer lamotrigine, levetiracetam, sodium valproate or topiramate as adjunctive treatment to boys, men and women who are not of childbearing potential. [amended 2021]
- 1.9.12.5.
If adjunctive treatment (see recommendation 1.9.12.4) is ineffective or not tolerated, discuss with, or refer to, a tertiary epilepsy specialist and consider clobazam, clonazepam or zonisamide. Follow the MHRA safety advice on antiepileptic drugs in pregnancy. [2012, amended 2021]
- 1.9.12.6.
Do not offer carbamazepine, gabapentin, oxcarbazepine, phenytoin, pregabalin, tiagabine or vigabatrin. [2012]
1.9.13. Pharmacological treatment of juvenile myoclonic epilepsy (JME)
First-line treatment in children, young people and adults with JME
- 1.9.13.1.
For first-line treatment of JME:
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer sodium valproate to boys, men and women who are not of childbearing potential. [amended 2020]
- 1.9.13.2.
Consider lamotrigine, levetiracetam or topiramate if sodium valproate is unsuitable, ineffective or not tolerated.
- Be aware that topiramate has a less favourable side-effect profile than lamotrigine and levetiracetam, and that lamotrigine may exacerbate myoclonic seizures.
- Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate can impair the effectiveness of hormonal contraceptives. [amended 2021]
In January 2012, this was an off-label use of lamotrigine, levetiracetam and topiramate (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
Adjunctive treatment in children, young people and adults with JME
- 1.9.13.3.
If first-line treatments (see the recommendations on first-line treatment in children, young people and adults with JME) for children, young people and adults with JME are ineffective or not tolerated:
- Offer lamotrigine, levetiracetam or topiramate as adjunctive treatment to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years). Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate can impair the effectiveness of hormonal contraceptives.
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) unless the other options are unsuitable, ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer lamotrigine, levetiracetam, sodium valproate or topiramate as adjunctive treatment to boys, men and women who are not of childbearing potential. [amended 2021]
In January 2012, this was an off-label use of lamotrigine and topiramate (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.9.13.4.
If adjunctive treatment (see recommendation 1.9.13.3) is ineffective or not tolerated, discuss with, or refer to, a tertiary epilepsy specialist and consider clobazam, clonazepam or zonisamide. Follow the MHRA safety advice on antiepileptic drugs in pregnancy. [2012, amended 2021]
- 1.9.13.5.
Do not offer carbamazepine, gabapentin, oxcarbazepine, phenytoin, pregabalin, tiagabine or vigabatrin. [2012]
1.9.14. Pharmacological treatment of epilepsy with generalised tonic–clonic (GTC) seizures only
First-line treatment in children, young people and adults with epilepsy with GTC seizures only
- 1.9.14.1.
For first-line treatment of GTC seizures only:
- Offer lamotrigine to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years), but be aware of the risk of exacerbating myoclonic or absence seizures.
- Do not offer sodium valproate to women and girls of childbearing potential unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer lamotrigine or sodium valproate to boys, men and women who are not of childbearing potential. If they have suspected myoclonic seizures, or are suspected of having JME, offer sodium valproate first, unless it is unsuitable. [amended 2020]
- 1.9.14.2.
Consider carbamazepine and oxcarbazepine but be aware of the risk of exacerbating myoclonic or absence seizures. Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that oxcarbazepine can impair the effectiveness of hormonal contraceptives. [2012, amended 2021]
In January 2012, this was an off-label use of oxcarbazepine (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
Adjunctive treatment in children, young people and adults with epilepsy with GTC seizures only
- 1.9.14.3.
If first-line treatments (see the recommendations on first-line treatment in children, young people and adults with epilepsy with GTC seizures only) for children, young people and adults with GTC seizures only are ineffective or not tolerated:
- Offer clobazam, lamotrigine or levetiracetam as adjunctive treatment to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years).
- Do not offer sodium valproate as adjunctive treatment to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer clobazam, lamotrigine, levetiracetam, sodium valproate or topiramate as adjunctive treatment to boys, men and women who are not of childbearing potential. [amended 2020]
In January 2012, this was an off-label use of clobazam (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
1.9.15. Pharmacological treatment of childhood absence epilepsy, juvenile absence epilepsy or other absence epilepsy syndromes
First-line treatment in children, young people and adults with childhood absence epilepsy, juvenile absence epilepsy or other absence epilepsy syndromes
- 1.9.15.1.
For first-line treatment of absence seizures:
- Offer ethosuximide to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years), unless it is unsuitable.
- Do not offer sodium valproate to women and girls of childbearing potential unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Offer ethosuximide or sodium valproate to boys, men and women who are not of childbearing potential. If there is a high risk of GTC seizures, offer sodium valproate first, unless it is unsuitable. [amended 2020]
- 1.9.15.2.
Offer lamotrigine if ethosuximide and sodium valproate are unsuitable, ineffective or not tolerated. [2012]
In January 2012, this was an off-label use of lamotrigine (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
Adjunctive treatment in children, young people and adults with childhood absence epilepsy, juvenile absence epilepsy or other absence epilepsy syndromes
In January 2012, the use of clobazam, lamotrigine, levetiracetam, topiramate and zonisamide in recommendations 1.9.15.3 and 1.9.15.4 was off label (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.9.15.3.
If two first-line AEDs (see the recommendations on first-line treatment in children, young people and adults with childhood absence epilepsy, juvenile absence epilepsy or other absence epilepsy syndromes) for children, young people and adults with absence epilepsy syndromes are ineffective:
- Consider a combination of ethosuximide and lamotrigine as adjunctive treatment for women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years).
- Do not offer sodium valproate to women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years) unless other options are ineffective or not tolerated and the pregnancy prevention programme is in place. Follow the MHRA safety advice on valproate use by women and girls.
- Consider a combination of two of these three AEDs as adjunctive treatment for boys, men and women who are not of childbearing potential: ethosuximide, lamotrigine or sodium valproate. [amended 2020]
- 1.9.15.4.
If adjunctive treatment (see recommendation 1.9.15.3) is ineffective or not tolerated, discuss with, or refer to, a tertiary epilepsy specialist and consider clobazam, clonazepam, levetiracetam, topiramate or zonisamide. Follow the MHRA safety advice on antiepileptic drugs in pregnancy. Advise that topiramate can impair the effectiveness of hormonal contraceptives. [2012, amended 2021]
- 1.9.15.5.
Do not offer carbamazepine, gabapentin, oxcarbazepine, phenytoin, pregabalin, tiagabine or vigabatrin. [2012]
1.9.16. Other epilepsy syndromes
- 1.9.16.1.
Refer to a tertiary paediatric epilepsy specialist all children and young people with continuous spike and wave during slow sleep, Landau–Kleffner syndrome or myoclonic-astatic epilepsy. [2012]
1.9.17. Continuation of pharmacological treatment
- 1.9.17.1.
Maintain a high level of vigilance for treatment-emergent adverse effects (for example, bone health issues and neuropsychiatric issues).
Treatment with AEDs is associated with a small risk of suicidal thoughts and behaviour; available data from the MHRA (National archives) suggest that the increased risk applies to all AEDs and may be seen as early as 1 week after starting treatment. [2012]
- 1.9.17.2.
Continuing AED therapy should be planned by the specialist. It should be part of the child, young person or adult’s agreed treatment plan, which should include details of how specific drug choices were made, drug dosage, possible side effects, and action to take if seizures persist. [2004]
- 1.9.17.3.
The needs of the child, young person or adult and their family and/or carers as appropriate should be taken into account when healthcare professionals take on the responsibility of continuing prescribing. [2004]
- 1.9.17.4.
If management is straightforward, continuing AED therapy can be prescribed in primary care if local circumstances and/or licensing allow. [2004]
- 1.9.17.5.
The prescriber must ensure that the child, young person or adult and their family and/or carers as appropriate are fully informed about treatment including action to be taken after a missed dose or after a gastrointestinal upset. [2004]
- 1.9.17.6.
Adherence to treatment can be optimised with the following:
- educating children, young people and adults and their families and/or carers in the understanding of their condition and the rationale of treatment
- reducing the stigma associated with the condition (also see the section on coping with epilepsy)
- using simple medication regimens
- positive relationships between healthcare professionals, the child, young person or adult with epilepsy and their family and/or carers. [2004]
- 1.9.17.7.
Regular blood test monitoring in adults is not recommended as routine, and should be done only if clinically indicated. [2004]
- 1.9.17.8.
Regular blood test monitoring in children and young people is not recommended as routine, and should be done only if clinically indicated and recommended by the specialist. [2004]
- 1.9.17.9.
Indications for monitoring of AED blood levels are:
- detection of non-adherence to the prescribed medication
- suspected toxicity
- adjustment of phenytoin dose
- management of pharmacokinetic interactions (for example, changes in bioavailability, changes in elimination, and co-medication with interacting drugs)
- specific clinical conditions, for example, status epilepticus, organ failure and certain situations in pregnancy (see the recommendation on not routinely monitoring AED levels in the section on pregnancy). [2012]
- 1.9.17.10.
Examples of blood tests include:
- before surgery – clotting studies in those on sodium valproate (please note that ‘valproate’ has been changed to ‘sodium valproate’ to be consistent with the terminology used in this update)
- full blood count, electrolytes, liver enzymes, vitamin D levels, and other tests of bone metabolism (for example, serum calcium and alkaline phosphatase) every 2–5 years for adults taking enzyme-inducing drugs. [2004]
- 1.9.17.11.
Asymptomatic minor abnormalities in test results are not necessarily an indication for changes in medication. [2004]
1.9.18. Withdrawal of pharmacological treatment
- 1.9.18.1.
The decision to continue or withdraw medication should be taken by the child, young person or adult, their family and/or carers as appropriate, and the specialist after a full discussion of the risks and benefits of withdrawal. At the end of the discussion children, young people and adults, and their family and/or carers as appropriate, should understand their risk of seizure recurrence on and off treatment. This discussion should take into account details of the child, young person or adult’s epilepsy syndrome, prognosis and lifestyle. [2004]
- 1.9.18.2.
Withdrawal of AEDs must be managed by, or be under the guidance of, the specialist. [2004]
- 1.9.18.3.
The risks and benefits of continuing or withdrawing AED therapy should be discussed with children, young people and adults, and their families and/or carers as appropriate, who have been seizure free for at least 2 years (see appendix H of the full guideline for tables on the prognosis for remission of seizures in adults). [2004]
- 1.9.18.4.
When AED treatment is being discontinued in a child, young person or adult who has been seizure free, it should be carried out slowly (at least 2–3 months) and one drug should be withdrawn at a time. [2004]
- 1.9.18.5.
Particular care should be taken when withdrawing benzodiazepines and barbiturates (may take up to 6 months or longer) because of the possibility of drug-related withdrawal symptoms and/or seizure recurrence. [2004]
- 1.9.18.6.
There should be a failsafe plan agreed with children, young people and adults and their families and/or carers as appropriate, whereby if seizures recur, the last dose reduction is reversed and medical advice is sought. [2004]
1.10. Referral for complex or refractory epilepsy
- 1.10.1.
All children, young people and adults with epilepsy should have access via their specialist to a tertiary service when circumstances require. [2004]
- 1.10.2.
If seizures are not controlled and/or there is diagnostic uncertainty or treatment failure, children, young people and adults should be referred to tertiary services soon for further assessment. (The Guideline Development Group considered that ‘soon’ meant being seen within 4 weeks.) Referral should be considered when one or more of the following criteria are present:
- the epilepsy is not controlled with medication within 2 years
- management is unsuccessful after two drugs
- the child is aged under 2 years
- a child, young person or adult experiences, or is at risk of, unacceptable side effects from medication
- there is a unilateral structural lesion
- there is psychological and/or psychiatric co-morbidity
- there is diagnostic doubt as to the nature of the seizures and/or seizure syndrome. [2004]
- 1.10.3.
In children, the diagnosis and management of epilepsy within the first few years of life may be extremely challenging. For this reason, children with suspected epilepsy should be referred to tertiary services early, because of the profound developmental, behavioural and psychological effects that may be associated with continuing seizures. [2004]
- 1.10.4.
Behavioural or developmental regression or inability to identify the epilepsy syndrome in a child, young person or adult should result in immediate referral to tertiary services. [2004]
- 1.10.5.
Children, young people and adults with specific syndromes such as Sturge–Weber syndrome, the hemispheric syndromes, Rasmussen’s encephalitis and hypothalamic hamartoma should be referred to a tertiary epilepsy service. [2004]
- 1.10.6.
Psychiatric co-morbidity and/or negative baseline investigations should not be a contraindication for referral to a tertiary service. (In this recommendation, ‘centre’ has been replaced with ‘service’ for consistency across recommendations.) [2004]
- 1.10.7.
The tertiary service should include a multidisciplinary team, experienced in the assessment of children, young people and adults with complex epilepsy, and have adequate access to investigations and treatment by both medical and surgical means. [2004]
- 1.10.8.
The expertise of multidisciplinary teams involved in managing complex epilepsy should include psychology, psychiatry, social work, occupational therapy, counselling, neuroradiology, clinical nurse specialists, neurophysiology, neurology, neurosurgery and neuroanaesthesia. Teams should have MRI and video telemetry facilities available to them. [2004]
- 1.10.9.
The neurosurgeon in the multidisciplinary team should have specialist experience of and/or training in epilepsy surgery and have access to invasive EEG recording facilities. [2004]
- 1.10.10.
Information should be provided to children, young people and adults and families and/or carers as appropriate about the reasons for considering surgery. The benefits and risks of the surgical procedure under consideration should be fully explained before informed consent is obtained. [2004]
1.11. Psychological interventions
- 1.11.1.
Psychological interventions (relaxation, cognitive behaviour therapy, biofeedback) may be used in conjunction with AED therapy in adults where either the person or the specialist considers seizure control to be inadequate with optimal AED therapy. This approach may be associated with an improved quality of life in some people. [2004]
- 1.11.2.
Psychological interventions (relaxation, cognitive behaviour therapy) may be used in children and young people with drug-resistant focal epilepsy. [2004]
- 1.11.3.
Psychological interventions may be used as adjunctive therapy. They have not been proven to affect seizure frequency and are not an alternative to pharmacological treatment. [2004]
1.12. Ketogenic diet
- 1.12.1.
Refer children and young people with epilepsy whose seizures have not responded to appropriate AEDs to a tertiary paediatric epilepsy specialist for consideration of the use of a ketogenic diet. [2012]
1.13. Vagus nerve stimulation (VNS)
- 1.13.1.
Vagus nerve stimulation is indicated for use as an adjunctive therapy in reducing the frequency of seizures in adults who are refractory to antiepileptic medication but who are not suitable for resective surgery. This includes adults whose epileptic disorder is dominated by focal seizures (with or without secondary generalisation) or generalised seizures. (In this recommendation, ‘partial seizures’ has been replaced with ‘focal seizures’ to reflect a change in terminology since the original guideline was published in 2004.) [2004, amended 2012]
- 1.13.2.
Vagus nerve stimulation is indicated for use as an adjunctive therapy in reducing the frequency of seizures in children and young people who are refractory to antiepileptic medication but who are not suitable for resective surgery. This includes children and young people whose epileptic disorder is dominated by focal seizures (with or without secondary generalisation) or generalised seizures. (Based on evidence from NICE interventional procedures guidance on vagus nerve stimulation for refractory epilepsy in children [IPG50; 2004]. In this recommendation, ‘partial seizures’ has been replaced with ‘focal seizures’ to reflect a change in terminology since the original guideline was published in 2004.) [2004, amended 2012]
1.14. Prolonged or repeated seizures and convulsive status epilepticus
1.14.1. First-line treatment for children, young people and adults with prolonged or repeated generalised, convulsive (tonic–clonic, tonic or clonic) seizures in the community
In January 2012, the use of rectal diazepam in recommendations 1.14.1.2 and 1.14.1.3 was off label (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.14.1.1.
Give immediate emergency care and treatment to children, young people and adults who have prolonged (lasting 5 minutes or more) or repeated (three or more in an hour) convulsive seizures in the community. [2012]
- 1.14.1.2.
Only prescribe buccal midazolam or rectal diazepam for use in the community for children, young people and adults who have had a previous episode of prolonged or serial convulsive seizures. [2012]
- 1.14.1.3.
Administer buccal midazolam as first-line treatment in children, young people and adults with prolonged or repeated seizures in the community. Administer rectal diazepam if preferred or if buccal midazolam is not available. If intravenous access is already established and resuscitation facilities are available, administer intravenous lorazepam. [2012]
- 1.14.1.4.
Treatment should be administered by trained clinical personnel or, if specified by an individually agreed protocol drawn up with the specialist, by family members or carers with appropriate training. [2004]
- 1.14.1.5.
Care must be taken to secure the child, young person or adult’s airway and assess his or her respiratory and cardiac function. [2004]
- 1.14.1.6.
Depending on response to treatment, the person’s situation and any personalised care plan, call an ambulance, particularly if:
- the seizure is continuing 5 minutes after the emergency medication has been administered
- the person has a history of frequent episodes of serial seizures or has convulsive status epilepticus, or this is the first episode requiring emergency treatment or
- there are concerns or difficulties monitoring the person’s airway, breathing, circulation or other vital signs. [2012]
1.14.2. Treatment for children, young people and adults with convulsive status epilepticus in hospital
Convulsive status epilepticus
- 1.14.2.1.
For children, young people and adults with ongoing generalised tonic–clonic seizures (convulsive status epilepticus) who are in hospital, immediately:
- secure airway
- give high-concentration oxygen
- assess cardiac and respiratory function
- check blood glucose levels and
- secure intravenous access in a large vein.
See also the suggested protocols in appendix F. [2012]
- 1.14.2.2.
Administer intravenous lorazepam as first-line treatment in hospital in children, young people and adults with ongoing generalised tonic–clonic seizures (convulsive status epilepticus). Administer intravenous diazepam if intravenous lorazepam is unavailable, or buccal midazolam if unable to secure immediate intravenous access. Administer a maximum of two doses of the first-line treatment (including pre-hospital treatment). See also the suggested protocols in appendix F. [2012]
- 1.14.2.3.
If seizures continue, administer intravenous phenobarbital or phenytoin as second-line treatment in hospital in children, young people and adults with ongoing generalised tonic–clonic seizures (convulsive status epilepticus). See also the suggested protocols in appendix F. [2012]
Refractory convulsive status epilepticus
In January 2012, the use of midazolam, propofol or thiopental sodium in recommendations 1.14.2.5 and 1.14.2.6 was off label (see the BNF or BNFC for details). See NICE’s information on prescribing medicines.
- 1.14.2.4.
Follow the suggested protocols in appendix F for treating refractory convulsive status epilepticus in secondary care. [2012]
- 1.14.2.5.
Administer intravenous midazolam, propofol or thiopental sodium to treat adults with refractory convulsive status epilepticus. Adequate monitoring, including blood levels of AEDs, and critical life systems support are required. See also the suggested protocols in appendix F. [2012]
- 1.14.2.6.
Administer intravenous midazolam or thiopental sodium to treat children and young people with refractory convulsive status epilepticus. Adequate monitoring, including blood levels of AEDs, and critical life systems support are required. See also the suggested protocols in appendix F. [2012]
- 1.14.2.7.
As the treatment pathway progresses, the expertise of an anaesthetist/intensivist should be sought. [2004]
- 1.14.2.8.
If either the whole protocol or intensive care is required the tertiary service should be consulted. [2004]
- 1.14.2.9.
Regular AEDs should be continued at optimal doses and the reasons for status epilepticus should be investigated. [2004]
- 1.14.2.10.
An individual treatment pathway should be formulated for children, young people and adults who have recurrent convulsive status epilepticus. [2004]
1.14.3.
- 1.14.3.1.
Non-convulsive status epilepticus is uncommon and management is less urgent. A suggested guideline can be found in appendix F. [2004]
1.15. Women and girls with epilepsy
1.15.1. Information and advice for women and girls with epilepsy
- 1.15.1.1.
In order to enable informed decisions and choice, and to reduce misunderstandings, women and girls with epilepsy and their partners, as appropriate, must be given accurate information and counselling about contraception, conception, pregnancy, caring for children and breastfeeding, and menopause. [2004]
- 1.15.1.2.
Information about contraception, conception, pregnancy, or menopause should be given to women and girls in advance of sexual activity, pregnancy or menopause, and the information should be tailored to their individual needs. This information should also be given, as needed, to people who are closely involved with women and girls with epilepsy. These may include her family and/or carers. [2004]
- 1.15.1.3.
All healthcare professionals who treat, care for, or support women and girls with epilepsy should be familiar with relevant information and the availability of counselling. [2004]
- 1.15.1.4.
Discuss with women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years), and their parents and/or carers if appropriate, the risk of AEDs causing malformations and possible neurodevelopmental impairments in an unborn child.
- Assess the risks and benefits of treatment with individual drugs. Note that there are limited data and important uncertainties about risks to the unborn child, particularly with newer drugs. Follow the MHRA safety advice on antiepileptic drugs in pregnancy.
- Specifically discuss the risk of continued use of sodium valproate to the unborn child, being aware that higher doses of sodium valproate (more than 800 mg/day) and polytherapy, particularly with sodium valproate, are associated with greater risk. Follow the MHRA safety advice on valproate use by women and girls. [amended 2021]
- 1.15.1.5.
Be aware of the latest data on the risks to the unborn child associated with AED therapy when prescribing for women and girls of present and future childbearing potential. [2012]
- 1.15.1.6.
All women and girls on AEDs should be offered 5 mg per day of folic acid before any possibility of pregnancy. [2004]
- 1.15.1.7.
Refer to the SPC and BNF for individual drug advice on the interactions between AEDs and hormonal replacement and contraception. [2012]
1.15.2. Contraception
- 1.15.2.1.
In women of childbearing potential, the possibility of interaction with oral contraceptives should be discussed and an assessment made as to the risks and benefits of treatment with individual drugs. [2004]
- 1.15.2.2.
In girls of childbearing potential, including young girls who are likely to need treatment into their childbearing years, the possibility of interaction with oral contraceptives should be discussed with the child and/or her carer, and an assessment made as to the risks and benefits of treatment with individual drugs. [2004]
- 1.15.2.3.
In women and girls of childbearing potential, the risks and benefits of different contraceptive methods, including hormone-releasing IUDs, should be discussed. [2004]
- 1.15.2.4.
If a woman or girl taking enzyme-inducing AEDs chooses to take the combined oral contraceptive pill, guidance about dosage should be sought from the SPC and current edition of the BNF. [2004, amended 2012]
- 1.15.2.5.
The progestogen-only pill is not recommended as reliable contraception in women and girls taking enzyme-inducing AEDs. (In this recommendation, ‘progesterone’ has been replaced with ‘progestogen’ to reflect a change in terminology since the original guideline was published in 2004.) [2004, amended 2012]
- 1.15.2.6.
The progestogen implant is not recommended in women and girls taking enzyme-inducing AEDs. (In this recommendation, ‘progesterone’ has been replaced with ‘progestogen’ to reflect a change in terminology since the original guideline was published in 2004.) [2004, amended 2012]
- 1.15.2.7.
The use of additional barrier methods should be discussed with women and girls taking enzyme-inducing AEDs and oral contraception or having depot injections of progestogen. (In this recommendation, ‘progesterone’ has been replaced with ‘progestogen’ to reflect a change in terminology since the original guideline was published in 2004.) [2004, amended 2012]
- 1.15.2.8.
If emergency contraception is required for women and girls taking enzyme-inducing AEDs, the type and dose of emergency contraception should be in line with the SPC and current edition of the BNF. [2004, amended 2012]
- 1.15.2.9.
Discuss with women and girls who are taking lamotrigine that the simultaneous use of any oestrogen-based contraceptive can result in a significant reduction of lamotrigine levels and lead to loss of seizure control. When a woman or girl starts or stops taking these contraceptives, the dose of lamotrigine may need to be adjusted. [2012]
1.15.3. Pregnancy
- 1.15.3.1.
Women and girls with epilepsy need accurate information during pregnancy, and the possibility of status epilepticus and SUDEP should be discussed with all women and girls who plan to stop AED therapy (see the section on withdrawal of pharmacological treatment). [2004]
- 1.15.3.2.
All pregnant women and girls with epilepsy should be encouraged to notify their pregnancy, or allow their clinician to notify the pregnancy, to the UK Epilepsy and Pregnancy Register. [2004]
- 1.15.3.3.
The clinician should discuss with the woman and girl the relative benefits and risks of adjusting medication to enable her to make an informed decision. Where appropriate, the woman or girl’s specialist should be consulted. [2004]
- 1.15.3.4.
Women and girls with generalised tonic–clonic seizures should be informed that the fetus may be at relatively higher risk of harm during a seizure, although the absolute risk remains very low, and the level of risk may depend on seizure frequency. [2004]
- 1.15.3.5.
Women and girls should be reassured that there is no evidence that focal, absence and myoclonic seizures affect the pregnancy or developing fetus adversely unless they fall and sustain an injury. (In this recommendation, ‘partial seizures’ has been replaced with ‘focal seizures’ to reflect a change in terminology since the original guideline was published in 2004.) [2004, amended 2012]
- 1.15.3.6.
Women and girls should be reassured that an increase in seizure frequency is generally unlikely in pregnancy or in the first few months after birth. [2004]
- 1.15.3.7.
Generally, women and girls may be reassured that the risk of a tonic–clonic seizure during the labour and the 24 hours after birth is low (1–4%). [2004]
- 1.15.3.8.
Women and girls with epilepsy should be informed that although they are likely to have healthy pregnancies, their risk of complications during pregnancy and labour is higher than for women and girls without epilepsy. [2004]
- 1.15.3.9.
Care of pregnant women and girls should be shared between the obstetrician and the specialist. [2004]
- 1.15.3.10.
Pregnant women and girls who are taking AEDs should be offered a high-resolution ultrasound scan to screen for structural anomalies. This scan should be performed at 18–20 weeks’ gestation by an appropriately trained ultrasonographer, but earlier scanning may allow major malformations to be detected sooner. [2004]
- 1.15.3.11.
The risk of seizures during labour is low, but it is sufficient to warrant the recommendation that delivery should take place in an obstetric unit with facilities for maternal and neonatal resuscitation and treating maternal seizures. [2004]
- 1.15.3.12.
All children born to mothers taking enzyme-inducing AEDs should be given 1 mg of vitamin K parenterally at delivery. [2004]
- 1.15.3.13.
Genetic counselling should be considered if one partner has epilepsy, particularly if the partner has idiopathic epilepsy and a positive family history of epilepsy. [2004]
- 1.15.3.14.
Although there is an increased risk of seizures in children of parents with epilepsy, children, young people and adults with epilepsy should be given information that the probability that a child will be affected is generally low. However, this will depend on the family history. [2004]
- 1.15.3.15.
Advanced planning, including the development of local protocols for care, should be implemented in obstetric units that deliver babies of women and girls with epilepsy. [2004]
- 1.15.3.16.
Joint epilepsy and obstetric clinics may be convenient for mothers and healthcare professionals but there is insufficient evidence to recommend their routine use. [2004]
- 1.15.3.17.
It is, however, important that there should be regular follow-up, planning of delivery, and liaison between the specialist or epilepsy team and the obstetrician or midwife. [2004]
- 1.15.3.18.
Aim for seizure freedom before conception and during pregnancy (particularly for women and girls with generalised tonic–clonic seizures) but consider the risk of adverse effects of AEDs and use the lowest effective dose of each AED, avoiding polytherapy if possible. [2012]
- 1.15.3.19.
Do not routinely monitor AED levels during pregnancy. If seizures increase or are likely to increase, monitoring AED levels (particularly levels of lamotrigine and phenytoin, which may be particularly affected in pregnancy) may be useful when making dose adjustments. [2012]
1.15.4. Breastfeeding
- 1.15.4.1.
All women and girls with epilepsy should be encouraged to breastfeed, except in very rare circumstances. Breastfeeding for most women and girls taking AEDs is generally safe and should be encouraged. However, each mother needs to be supported in the choice of feeding method that bests suits her and her family. [2004]
- 1.15.4.2.
Prescribers should consult individual drug advice in the SPC and the BNF when prescribing AEDs for women and girls who are breastfeeding. The decision regarding AED therapy and breastfeeding should be made between the woman or girl and the prescriber, and be based on the risks and benefits of breastfeeding against the potential risks of the drug affecting the child. (In this recommendation, the original referral to appendix 5 of the BNF has been removed and replaced with more up-to-date source reference material because this appendix no longer exists and has therefore become obsolete since the original guideline was published in 2004.) [2004, amended 2012]
1.15.5. After the birth
- 1.15.5.1.
Parents of new babies or young children should be informed that introducing a few simple safety precautions may significantly reduce the risk of accidents and minimise anxiety. An approaching birth can be an ideal opportunity to review and consider the best and most helpful measures to start to ensure maximum safety for both mother and baby. [2004]
- 1.15.5.2.
Information should be given to all parents about safety precautions to be taken when caring for the baby (see appendix D of the full guideline for a checklist of the information needs of women and girls with epilepsy, and practical information for mothers with epilepsy). [2004]
- 1.15.5.3.
Parents should be reassured that the risk of injury to the infant caused by maternal seizure is low. [2004]
1.16. Children, young people and adults with learning disabilities (also see the sections on pregnancy and young people with epilepsy)
1.16.1. Diagnosis in people with learning disabilities (also see the section on diagnosis)
- 1.16.1.1.
It can be difficult to diagnose epilepsy in children, young people and adults with learning disabilities, and so care should be taken to obtain a full clinical history. Confusion may arise between stereotypic or other behaviours and seizure activity. [2004]
- 1.16.1.2.
It is important to have an eye witness account supplemented by corroborative evidence (for example, a video account), where possible. [2004]
- 1.16.1.3.
Clear, unbiased reporting is essential. Witnesses may need education to describe their observations accurately. [2004]
1.16.2. Investigations in people with learning disabilities (also see the section on investigations)
- 1.16.2.1.
Those with learning disabilities may require particular care and attention to tolerate investigations. [2004]
- 1.16.2.2.
Facilities should be available for imaging under anaesthesia, if necessary. [2004]
- 1.16.2.3.
In the child or young person presenting with epilepsy and learning disability, investigations directed at determining an underlying cause should be undertaken. [2004]
1.16.3. Management in people with learning disabilities (also see the section on management)
- 1.16.3.1.
Enable children, young people and adults who have learning disabilities, and their family and/or carers where appropriate, to take an active part in developing a personalised care plan for treating their epilepsy while taking into account any comorbidities. [2012]
- 1.16.3.2.
Ensure adequate time for consultation to achieve effective management of epilepsy in children, young people and adults with learning disabilities. [2012]
- 1.16.3.3.
In making a care plan for a child, young person or adult with learning disabilities and epilepsy, particular attention should be paid to the possibility of adverse cognitive and behavioural effects of AED therapy. [2004]
- 1.16.3.4.
The recommendations on choice of treatment and the importance of regular monitoring of effectiveness and tolerability are the same for those with learning disabilities as for the general population. [2004]
- 1.16.3.5.
Do not discriminate against children, young people and adults with learning disabilities, and offer the same services, investigations and therapies as for the general population. [2012]
- 1.16.3.6.
Every therapeutic option should be explored in children, young people and adults with epilepsy in the presence or absence of learning disabilities. [2004]
- 1.16.3.7.
Healthcare professionals should be aware of the higher risks of mortality for children, young people and adults with learning disabilities and epilepsy and discuss these with them, their families and/or carers. [2004]
- 1.16.3.8.
All children, young people and adults with epilepsy and learning disabilities should have a risk assessment including:
- bathing and showering
- preparing food
- using electrical equipment
- managing prolonged or serial seizures
- the impact of epilepsy in social settings
- SUDEP
- the suitability of independent living, where the rights of the child, young person or adult are balanced with the role of the carer. [2004]
1.17. Young people with epilepsy (also see the section on women and girls with epilepsy)
- 1.17.1.
The physical, psychological and social needs of young people with epilepsy should always be considered by healthcare professionals. Attention should be paid to their relationships with family and friends, and at school. [2004]
- 1.17.2.
Healthcare professionals should adopt a consulting style that allows the young person with epilepsy to participate as a partner in the consultation. [2004]
- 1.17.3.
Decisions about medication and lifestyle issues should draw on both the expertise of the healthcare professional and the experiences, beliefs and wishes of the young person with epilepsy as well as their family and/or carers. [2004]
- 1.17.4.
During adolescence a named clinician should assume responsibility for the ongoing management of the young person with epilepsy and ensure smooth transition of care to adult services, and be aware of the need for continuing multi-agency support. [2004]
- 1.17.5.
Multidisciplinary services provided jointly by adult and paediatric specialists have a key role in the care of the young person with epilepsy. This can facilitate the transition from paediatric to adult services and aid in the dissemination of information. [2004]
- 1.17.6.
Before the transition to adult services is made, diagnosis and management should be reviewed and access to voluntary organisations, such as support groups and epilepsy charities, should be facilitated. [2004]
- 1.17.7.
The information given to young people should cover epilepsy in general and its diagnosis and treatment, the impact of seizures and adequate seizure control, treatment options including side effects and risks, and the risks of injury. Other important issues to be covered are the possible consequences of epilepsy on lifestyle and future career opportunities and decisions, driving and insurance issues, social security and welfare benefit issues, sudden death and the importance of adherence to medication regimes. Information on lifestyle issues should cover recreational drugs, alcohol, sexual activity and sleep deprivation (see the section on information). [2004]
- 1.17.8.
The diagnosis and management of epilepsy should be reviewed during adolescence. [2004]
1.18. Older people with epilepsy
- 1.18.1.
Do not discriminate against older people, and offer the same services, investigations and therapies as for the general population. [2012]
- 1.18.2.
Pay particular attention to pharmacokinetic and pharmacodynamic issues with polypharmacy and comorbidity in older people with epilepsy. Consider using lower doses of AEDs and, if using carbamazepine, offer controlled-release carbamazepine preparations. [2012]
1.19. Children, young people and adults from black and minority ethnic groups
- 1.19.1.
Children, young people and adults from black and minority ethnic groups may have different cultural and communication needs and these should be considered during diagnosis and management. The need for interpretation should be considered alongside other means of ensuring that a person’s needs are appropriately met. [2004]
- 1.19.2.
An interpreter should have both cultural and medical knowledge. Interpreters from the family are generally not suitable because of issues such as confidentiality, privacy, personal dignity, and accuracy of translation. [2004]
- 1.19.3.
Information, including information about employment rights and driving, should be available in an appropriate format or through other appropriate means for children, young people and adults who do not speak or read English. [2004]
1.20. Review
- 1.20.1.
Children, young people and adults with epilepsy should have a regular structured review and be registered with a general medical practice. [2004]
- 1.20.2.
Adults should have a regular structured review with their GP, but depending on the person’s wishes, circumstances and epilepsy, the review may be carried out by the specialist. [2004]
- 1.20.3.
Children and young people should have a regular structured review with a specialist. [2004]
- 1.20.4.
For adults, the maximum interval between reviews should be 1 year but the frequency of review will be determined by the person’s epilepsy and their wishes. [2004]
- 1.20.5.
For children and young people, the maximum interval between reviews should be 1 year, but the frequency of reviews should be determined by the child or young person’s epilepsy and their wishes and those of the family and/or carers. The interval between reviews should be agreed between the child or young person, their family and/or carers as appropriate, and the specialist, but is likely to be between 3 and 12 months. [2004]
- 1.20.6.
Adults should have regular reviews. In addition, access to either secondary or tertiary care should be available to ensure appropriate diagnosis, investigation and treatment if the person or clinician view the epilepsy as inadequately controlled. [2004]
- 1.20.7.
Adults with well-controlled epilepsy may have specific medical or lifestyle issues (for example, pregnancy or drug cessation) that may need the advice of a specialist. [2004]
- 1.20.8.
If the structured review is to be conducted by the specialist, this may be best provided in the context of a specialist clinic. [2004]
- 1.20.9.
Treatment should be reviewed at regular intervals to ensure that children, young people and adults with epilepsy are not maintained for long periods on treatment that is ineffective or poorly tolerated and that concordance with prescribed medication is maintained. [2004]
- 1.20.10.
Annual review should include an enquiry about side effects and a discussion of the treatment plan to ensure concordance and adherence to medication. [2004]
- 1.20.11.
At the review, children, young people and adults should have access to: written and visual information; counselling services; information about voluntary organisations; epilepsy specialist nurses; timely and appropriate investigations; referral to tertiary services including surgery, where appropriate. [2004]
2. Implementation
NICE has developed tools to help organisations implement this guidance.
3. Research recommendations
The Guideline Development Group has made the following recommendations for research, based on its review of evidence, to improve NICE guidance and patient care in the future.
3.1. Newly diagnosed seizures (focal and generalised) – monotherapy
How do the newer AEDs compare in efficacy to the standard AEDs in the treatment of newly diagnosed epilepsy?
- Focal seizures: carbamazepine, eslicarbazepine acetate, lacosamide, lamotrigine, levetiracetam, pregabalin and zonisamide.
- Generalised seizures: lamotrigine, levetiracetam, sodium valproate and zonisamide.
As of 1 April 2019, gabapentin and pregabalin are Class C controlled substances (under the Misuse of Drugs Act 1971) and scheduled under the Misuse of Drugs Regulations 2001 as Schedule 3. Evaluate patients carefully for a history of drug abuse before prescribing and observe patients for development of signs of abuse and dependence (MHRA, Drug Safety Update April 2019).
Why this is important
Levetiracetam and other AEDs licensed for the treatment of focal and generalised seizures since publication of the original NICE guideline on epilepsy in 2004 have not been evaluated as first-line monotherapy.
The research should include:
- a prospective randomised controlled trial
- all age groups
- subgroup analyses on seizure types and syndromes
- primary outcome of seizure freedom
- secondary outcomes, including seizure reduction, quality of life and cognitive outcome
- an attempt to obtain data on pharmaco-resistance.
3.2. Epilepsy syndromes
What are the initial and add-on AEDs of choice in the treatment of the epilepsy syndromes with onset in childhood, for example, myoclonic-astatic epilepsy and Dravet syndrome?
Why this is important
Despite the need to diagnose individual epilepsy syndromes, there is little evidence on the most appropriate initial or add-on AEDs in the treatment of the rarer epilepsies.
The research should include:
- multicentre randomised controlled comparative trials with centralised national data collection
- the ketogenic diet as one of the randomised treatments
- primary outcome of seizure freedom
- secondary outcomes, including seizure reduction, quality of life and cognitive outcome
- an attempt to obtain data on pharmaco-resistance
- the possibility of including all children with specific epilepsy syndromes for consideration in the trial.
3.3. Infantile spasms
Does treatment response relate to cause in infantile spasms? Does early treatment success in seizure control and resolution of the hypsarrhythmic EEG influence the long-term developmental and cognitive outcomes more than the underlying cause of the spasms?
Why this is important
The UK Infantile Spasms Study (UKISS; Lux et al. 2004) demonstrated 14-day outcome efficacy of steroids over vigabatrin, although this excluded children with tuberous sclerosis. This study provided no specific subgroup analysis based on the cause of the spasms. There was also no analysis on the effect of treatment lag (delay) on the study findings. Further data are available on behavioural outcomes with different treatments at 14 months and 4 years but with no analysis based on cause or treatment lag. Further developmental and cognitive outcomes would be useful, including response by specific cause and by treatment lag.
The research should include:
- prospective randomised design, including subgroup analyses based on both cause and treatment lag; this would require large numbers of patients and would need to be multicentre, possibly involving Western Europe
- EEG outcomes
- developmental status at presentation, and at follow-up
- an attempt to obtain data on pharmaco-resistance.
Reference
- Lux AL, Edwards SW, Hancock E et al. (2004) The United Kingdom Infantile Spasms Study comparing vigabatrin with prednisolone or tetracosactide at 14 days: a multicentre, randomised controlled trial. Lancet 364: 1773–8. [PubMed: 15541450]
3.4. Treatment of convulsive status epilepticus (that is, not just refractory)
What is the most effective and safest AED to treat:
- established (usually lasting longer than 30 minutes) convulsive status epilepticus
- refractory convulsive status epilepticus?
Why this is important
Convulsive status epilepticus (CSE) should be treated as an emergency. The most important aspect of treatment is to try to stop the seizure. Prompt, successful treatment of CSE avoids the need for admission to an intensive care unit (ICU). The most commonly used medication is phenytoin. This should be used with care and close monitoring because of the risk of hypotension and cardiac arrhythmia. Sodium valproate and levetiracetam are potentially as effective and safer alternatives but there are very limited comparative data.
CSE that is refractory to first-line treatment (RCSE) is rare and often complicated by irreversible neurological and intellectual sequelae, including death. Reasons for these complications include the underlying cause of RCSE, its duration and management. The majority, if not all patients with RCSE are managed in an ICU. There are no agreed drugs or treatment protocols for treating RCSE. The three most commonly used anticonvulsants are thiopental sodium, midazolam and propofol (propofol is rarely used in children). Data on treatment in children, young people and adults are limited and anecdotal. A recently completed 2-year audit of everyone younger than 16 years with RCSE treated in an ICU in England, Wales and Scotland will provide unique epidemiological data on paediatric RCSE, its causes and current management. These data could be used to design a randomised controlled trial (RCT) of specific drug treatments and protocols.
The research should include:
- a multicentre randomised comparative trial of intravenous levetiracetam, sodium valproate and phenytoin in initial treatment of status epilepticus
- a multicentre RCT of treatment of refractory status epilepticus in ICUs, including midazolam and thiopental sodium (and propofol in adults)
- primary outcome of cessation of CSE
- secondary outcomes including recurrence within a designated period (probably 12 hours), mortality and morbidity
- cost data including treatment costs and days in intensive care.
3.5. AEDs and pregnancy
What is the malformation rate and longer term neurodevelopmental outcome of children born to mothers who have taken AEDs during pregnancy?
Why this is important
Pregnancy registers are increasing the data that are available on established AEDs; however, these registers may give malformation rates but do not provide controlled long-term data on neurodevelopmental outcome.
The research should include:
- measures of maternal outcome, including seizure frequency and quality of life
- major and minor rates of congenital malformations
- prospective neurodevelopmental (including cognitive) and behavioural outcomes in children born to women and girls with epilepsy (these should be undertaken on a long-term basis and ideally using a cohort study, followed from birth until adult life).
Appendix C. Outline care algorithms
These algorithms are available in the tools and resources for this guideline.
Appendix D. Differential diagnosis of epilepsy in children, young people and adults
These algorithms are available in the tools and resources for this guideline.
Appendix E. Pharmacological treatment
These tables were removed in February 2020 because they are no longer current. See the BNF or BNFC for more information on medicines for epilepsy.
Appendix F. Protocols for treating convulsive status epilepticus in adults and children (adults published in 2004 and children published in 2011)
Notes
Emergency investigations: Blood should be taken for blood gases, glucose, renal and liver function, calcium and magnesium, full blood count (including platelets), blood clotting, AED drug levels; 5 ml of serum and 50 ml of urine samples should be saved for future analysis, including toxicology, especially if the cause of the convulsive status epilepticus is uncertain. Chest radiograph to evaluate possibility of aspiration. Other investigations depend on the clinical circumstances and may include brain imaging, lumbar puncture.
Monitoring: Regular neurological observations and measurements of pulse, blood pressure, temperature. ECG, biochemistry, blood gases, clotting, blood count, drug levels. Patients require the full range of intensive therapy unit facilities and care should be shared between anaesthetist and neurologist.
EEG monitoring is necessary for refractory status. Consider the possibility of non-epileptic status. In refractory convulsive status epilepticus, the primary end-point is suppression of epileptic activity on the EEG, with a secondary end-point of burst-suppression pattern (that is, short intervals of up to 1 second between bursts of background rhythm).
In the above scheme, the refractory stage (general anaesthesia) is reached 60/90 minutes after the initial therapy.
This scheme is suitable for usual clinical hospital settings. In some situations, general anaesthesia should be initiated earlier and, occasionally, should be delayed.
Experience with long-term administration (hours or days) of the newer anaesthetic drugs is very limited. The modern anaesthetics have, however, important pharmacokinetic advantages over the more traditional barbiturates.
AED therapy must be given in parallel with emergency treatment. The choice of drug depends on previous therapy, the type of epilepsy, and the clinical setting. Any pre-existing AED therapy should be continued at full dose, and any recent reductions reversed.
If phenytoin or phenobarbital has been used in emergency treatment, maintenance doses can be continued orally or intravenously guided by serum level monitoring. Other maintenance AEDs can be started also, with oral loading doses. Care needs to be taken with nasogastric feeds, which can interfere with the absorption of some AEDs. Once the patient has been free of seizures for 12–24 hours and provided that there are adequate plasma levels of concomitant AEDs, then the anaesthetic should be slowly tapered.
Guidelines for treating convulsive status epilepticus in children (published in 2011)
The original guidelines for the treatment of convulsive status epilepticus (CSE) were published in 2000. They were subsequently adopted by the Advanced Life Support Group (ALSG) and taught in their courses across the UK and Europe. They represent the basis for much of the management of CSE by junior doctors although they are not intended to cover all situations. They are hospital guidelines and take no account of pre-hospital treatment. They do not include infants, those born very prematurely and/or less than 28 days of age. Also, they do not cover children who have frequent episodes of CSE for whom an individually tailored guideline is the best option as their seizures may respond better to specific treatments than others.
Generalised convulsive (tonic–clonic) status epilepticus is defined as a generalised convulsion lasting 30 minutes or longer, or repeated tonic–clonic convulsions occurring over a 30 minutes period without recovery of consciousness between each convulsion. However, the guideline stated that ‘for practical purposes, the approach to the child who presents with a tonic–clonic convulsion lasting more than 5 minutes should be the same as the child who is in “established” status – to stop the seizure and to prevent the development of status epilepticus’. The consensus guideline can be seen in the table below.
When the protocol is initiated it is important to consider what pre-hospital treatment has been received and to modify the protocol accordingly.
Non-convulsive status epilepticus in adults and children (2004 guideline)
Suggested by the 2004 Guideline Development Group.
This is less common than tonic–clonic status epilepticus. Treatment for non-convulsive status epilepticus is less urgent than for convulsive status epilepticus. Treatment should be considered as follows:
- maintenance or reinstatement of usual oral AED therapy
- use of intravenous benzodiazepines under EEG control, particularly if the diagnosis is not established
- referral for specialist advice and/or EEG monitoring.
Appendix G. Terms used in this guideline
- AED
Anti-epileptic drug
- BECTS
Benign epilepsy with centrotemporal spikes
- BNF
British national formulary
- CT
Computed tomography
- ECG
Electrocardiogram
- EEG
Electroencephalogram
- ESNs
Epilepsy specialist nurses
- GTC
Generalised tonic–clonic
- IGE
Idiopathic generalised epilepsy
- IUD
Intrauterine device
- JME
Juvenile myoclonic epilepsy
- MRI
Magnetic resonance imaging
- SPC
Summary of product characteristics
- SUDEP
Sudden unexpected death in epilepsy
- VNS
Vagus nerve stimulation
Unless otherwise stated, definitions are taken from ‘Mosby’s medical, nursing and allied health dictionary’ 5th edition and supplemented by the text of the epilepsy full guideline published in 2004.
- Absence seizure
A seizure characterised by behavioural arrest associated with generalised spike wave activity on EEG.
- Adherence
The extent to which the person’s behaviour matches the prescriber’s recommendations. Adherence emphasises the need for agreement and that the patient is free to decide whether or not to adhere to the doctor’s recommendation. (Based on: National Collaborating Centre for Primary Care (2009) Medicines adherence: involving patients in decisions about prescribed medicines and supporting adherence. London: Royal College of General Practitioners [PubMed: 21834197].)
- Adjunctive treatment
When a medication is added to a first-line AED for combination therapy.
- Aetiology
The cause or origin of a disease or disorder as determined by medical diagnosis.
- Anti-epileptic drug (AED)
Medication taken daily to prevent the recurrence of epileptic seizures. Refer to the BNF or BNFC concerning the choice of drug, side effects and suitability to syndrome.
- Atonic seizure
A generalised seizure characterised by sudden onset of loss of muscle tone.
- Attack
An episode in the course of an illness.
- Baseline
The initial set of measurements at the beginning of a study (after run-in period where applicable), with which subsequent results are compared.
- Benign epilepsy with centrotemporal spikes (BECTS)
An epilepsy syndrome of childhood (5–14 years) characterised by focal motor and/or secondarily generalised seizures, the majority from sleep, in an otherwise normal individual, with centrotemporal spikes seen on EEG.
- Carer
Someone other than a healthcare professional who is involved in caring for a person with a medical condition.
- Childhood absence epilepsy
An epilepsy syndrome with an age of onset of 4–9 years, characterised by frequent absence seizures associated with 3 Hz spike wave activity on EEG.
- Clinical presentation
The description of the history and presentation of the clinical condition to the assessing medical team.
- Clinician
A healthcare professional providing direct patient care (for example, doctor, nurse or physiotherapist).
- Comorbidity
Co-existence of more than one disease or an additional disease (other than that being studied or treated) in a person.
- Concordance
This is a recent term, the meaning of which has changed. It was initially applied to the consultation process in which doctor and patient agree therapeutic decisions that incorporate their respective views, but now includes supporting patients in medicine-taking as well as communication when prescribing. Concordance reflects social values but does not address medicine-taking and may not lead to improved adherence. (Based on: National Collaborating Centre for Primary Care (2009) Medicines adherence: involving patients in decisions about prescribed medicines and supporting adherence. London: Royal College of General Practitioners [PubMed: 21834197].)
- Continuous spike and wave during slow sleep (CSWS)
An epilepsy syndrome with childhood onset, characterised by a plateau and regression of cognitive abilities associated with dramatic increase in spike wave activity in slow wave sleep (> 85% of slow sleep). There may be few seizures at presentation.
- Convulsive status epilepticus
When a convulsive seizure continues for a prolonged period (longer than 5 minutes), or when convulsive seizures occur one after the other with no recovery between. Convulsive status epilepticus is an emergency and requires immediate medical attention.
- Dosage
The prescribed amount of a drug to be taken, including the size and timing of the doses.
- Dravet syndrome
Previously known as severe myoclonic epilepsy of infancy. An epilepsy syndrome with onset in infancy, characterised by initial prolonged, typically lateralised, febrile seizures, subsequent development of multiple seizure types including myoclonic, absence, focal and generalised tonic–clonic seizures, with developmental plateau or regression.
- Electrocardiogram (ECG)
A test that records the heart’s electrical activity.
- Electroencephalogram (EEG)
An investigation that involves recording the electrical activity of the brain. Electrodes are attached to standardised points on the person’s head with collodion. Recordings are usually taken across two points.
- Epilepsy
A condition in which a person is prone to recurrent epileptic seizures.
- Epilepsy syndrome
A distinctive disorder identifiable on the basis of a typical age of onset, seizure types, specific EEG characteristics, and often other features. Identification of epilepsy syndrome has implications for treatment, management and prognosis. (Definition from the International League Against Epilepsy [ILAE] Task Force on Classification [2001].)
- Epileptic seizure
A transient occurrence of signs and/or symptoms, the result of a primary change to the electrical activity (abnormally excessive or synchronous) in the brain.
- Focal seizure
A seizure that originates within networks limited to one hemisphere, discretely localised or more widely distributed. Replaces the terms partial seizure and localisation-related seizure.
- Generalised seizure
A seizure that originates in, and rapidly engages, bilaterally distributed networks. Such bilateral networks can include cortical and subcortical structures but do not necessarily include the entire cortex.
- Generalised tonic–clonic (GTC) seizure
A seizure of sudden onset involving generalised stiffening and subsequent rhythmic jerking of the limbs, the result of rapid widespread engagement of bilateral cortical and subcortical networks in the brain.
- Genetic (with reference to epilepsy)
The epilepsy is, as best as understood, the direct result of a known or presumed genetic defect(s) in which seizures are the core symptom of the disorder.
- Ictal phenomenology
Description or history of ictal events (seizures).
- Idiopathic
A syndrome that is only epilepsy, with no underlying structural brain lesion or other neurological signs or symptoms. These are presumed to be genetic in aetiology and are usually age dependent.
- Idiopathic generalised epilepsy (IGE)
A well-defined group of disorders characterised by typical absences, myoclonic and generalised tonic–clonic seizures, alone or in varying combinations in otherwise normal individuals. The EEG is also characteristic, demonstrating a distinct pattern of generalised polyspike wave discharges and/or generalised spike wave. Presumed to have a genetic aetiology. The new classification of the ILAE (2010) suggests the terminology should change to ‘genetic generalised epilepsy’ (GGE).
- Indication (specific)
The defined use of a technology as licensed by the Medicines and Healthcare products Regulatory Agency (MHRA).
- Infantile spasms
A specific seizure type presenting in the first year of life, most commonly between 3 and 9 months. Spasms are brief axial movements lasting 0.2–2 seconds, most commonly flexor in nature, involving flexion of the trunk with extension of the upper and lower limbs. They are occasionally referred to as ‘salaam seizures’.
- Intervention
Healthcare action intended to benefit the patient, for example, drug treatment, surgical procedure or psychological therapy.
- Juvenile absence epilepsy
An epilepsy syndrome with an age of onset of 9–13 years characterised by absence seizures, associated with 3–4 Hz spike wave on EEG. Generalised tonic–clonic seizures may occur.
- Juvenile myoclonic epilepsy (JME)
An epilepsy syndrome with an age of onset of 5–20+ years (peak 10–16 years) characterised by myoclonic seizures that most commonly occur soon after waking. Absence and generalised tonic–clonic seizures may occur in between 50 and 80% of people with JME. EEG demonstrates 3–6 Hz generalised polyspike and wave activity, with photosensitivity in more than 30% of people.
- Ketogenic diet
A specific diet that is high in fat but low in carbohydrates and protein.
- Landau–Kleffner syndrome (LKS)
A very rare epilepsy syndrome with an age of onset of 3–6 years characterised by loss of language (after a period of normal language development) associated with an epilepsy of centrotemporal origin, more specifically bitemporal spikes on EEG with enhancement in sleep or continuous spike and wave during slow sleep.
- Late-onset childhood occipital epilepsy (Gastaut type)
Epilepsy with an age of onset in mid-childhood to adolescence with frequent brief seizures characterised by initial visual hallucinations, ictal blindness, vomiting and post-ictal headache. EEG typically shows interictal occipital spikes attenuated by eye opening.
- Lennox–Gastaut syndrome
An epilepsy syndrome with an age of onset of 3–10 years characterised by multiple seizure types (including atonic, tonic, tonic–clonic and atypical absence seizures), cognitive impairment and specific EEG features of diffuse slow spike and wave (< 2 Hz) as well as paroxysmal fast activity (10 Hz or more) in sleep.
- Monotherapy
Use of a single drug in treatment.
- Myoclonic-astatic epilepsy (MAE)
Also known as Doose syndrome. An epilepsy syndrome with an age of onset of 18–60 months, characterised by different seizure types with myoclonic and myoclonic-astatic seizures seen in all, causing children to fall. The EEG shows generalised spike/polyspike and wave activity at 2–6 Hz.
- Myoclonic seizures
Sudden brief (< 100 ms) and almost shock-like involuntary single or multiple jerks due to abnormal excessive or synchronous neuronal activity and associated with polyspikes on EEG.
- Neurological deficit
A deficiency or impairment of the nervous system.
- Non-convulsive status epilepticus
A change in mental status or behaviour from baseline, associated with continuous seizure activity on EEG, which is also seen to be a change from baseline.
- Non-epileptic attack disorder (NEAD)
A disorder characterised by episodes of change in behaviour or movement, not caused by a primary change in electrical activity of the brain. Movements are varied, and the attacks can be difficult to differentiate from epileptic seizures. Refer to appendix A of the full guideline for the differentiation of epileptic attacks from NEAD and its subgroups.
- Older people
For the purposes of this guideline, older people are defined as 65 years or older; however, this is based on the cut-off point in the majority of the literature.
- Panayiotopoulos syndrome
Epilepsy syndrome presenting in early childhood (mean 4–7 years) with rare seizures that are prolonged. Characterised by autonomic features including vomiting, pallor and sweating followed by tonic eye deviation, impairment of consciousness with possible evolution into a secondarily generalised seizure. Prognosis is excellent and treatment often unnecessary.
- Pharmacokinetics
The way in which a drug is processed by the body, influencing absorption, metabolism, distribution and excretion.
- Polypharmacy
Multiple different drugs used in a patient’s treatment, which could include AEDs.
- Polytherapy
Two or more medications used in combination therapy. The guideline specifically refers to AEDs.
- Prognosis
A probable course or outcome of a disease. Prognostic factors are patient or disease characteristics that influence the course of a disease. Good prognosis is associated with a low rate of undesirable outcomes; poor prognosis is associated with a high rate of undesirable outcomes.
- Provocation techniques
Methods used to provoke seizures, such as hyperventilation, photic stimulation, sleep deprivation and withdrawal of medication.
- Quality of life
A combination of a person’s physical, mental and social wellbeing; not just the absence of disease.
- Refractory status epilepticus
Continued status epilepticus despite treatment with two anticonvulsants in appropriate doses. This can occur in both convulsive and non-convulsive status epilepticus.
- Secondarily generalised seizure
Now referred to as a ‘focal seizure evolving to a bilateral convulsive seizure’. (Definition from the International League Against Epilepsy [ILAE] Task Force on Classification [2001].)
- Simple and complex partial epileptic seizures
These terms are no longer recommended. They have been generally replaced with the single word, ‘focal’. Focal seizures should include a clear description of the impairment of consciousness. (Definition from the International League Against Epilepsy [ILAE] Task Force on Classification [2001].)
- Specialist (as used in this guideline)
For adults: a medical practitioner with training and expertise in epilepsy. For children and young people: a paediatrician with training and expertise in epilepsy.
- Sudden unexpected (or unexplained) death in epilepsy (SUDEP)
Sudden, unexplained, witnessed or unwitnessed, non-traumatic and non-drowning death in people with epilepsy, with or without evidence for a seizure, and excluding documented status epilepticus, in which post-mortem examination does not reveal a toxicological or anatomic cause for death. (Provided by Nashef [1997] Sudden unexpected death in epilepsy: terminology and definitions. Epilepsia 38: S20–2 [PubMed: 19909317].)
- Syncope
A brief lapse in consciousness caused by transient reduction in blood flow to the brain. May be caused by many different factors, including emotional stress, vagal stimulation, vascular pooling in the legs, diaphoresis, or sudden change in environmental temperature or body position.
- Tertiary epilepsy specialist
A tertiary epilepsy specialist is an adult or paediatric neurologist who devotes the majority of their working time to epilepsy, is working in a multidisciplinary tertiary referral centre with appropriate diagnostic and therapeutic resources, and is subject to regular peer review.
- Tertiary service
Specialist care delivery unit, to which people may be referred from secondary care.
- Tonic seizure
An epileptic seizure characterised by abrupt generalised muscle stiffening possibly causing a fall. The seizure usually lasts less than a minute and recovery is rapid.
- Tonic–clonic seizure
An epileptic seizure characterised by initial generalised muscle stiffening, followed by rhythmical jerking of the limbs, usually lasting a few minutes. The person may bite their tongue and may be incontinent. They may feel confused or sleepy afterwards, and take a while to recover fully.
Finding more information and committee details
You can see everything NICE says on this topic in the NICE Pathway on epilepsy.
To find NICE guidance on related topics, including guidance in development, see the NICE web page on neurological conditions.
For full details of the evidence and the guideline committee’s discussions, see the evidence reviews. You can also find information about how the guideline was developed, including details of the committee.
NICE has produced tools and resources to help you put this guideline into practice. For general help and advice on putting NICE guidelines into practice see putting recommendations into practice: quick tips.
Update information
Recommendations are marked as [2004], [2004, amended 2012], [2012], [amended 2020] or [amended 2021].
- [2004] indicates that the evidence has not been updated and reviewed since 2004.
- [2004, amended 2012] indicates that the evidence has not been updated and reviewed since 2004 but a small amendment has been made to the recommendation.
- [2012] indicates that the evidence has been reviewed but no changes have been made to the recommendation.
- [amended 2020] indicates that a recommendation has been amended to strengthen warnings in line with the MHRA guidance on valproate use by women and girls.
- [amended 2021] indicates that a recommendation has been amended in line with updated MHRA guidance on antiepileptic drugs in pregnancy.
May 2021: We amended recommendations on carbamazepine, gabapentin, lamotrigine, levetiracetam, oxcarbazepine, phenobarbital, phenytoin, pregabalin, topiramate and zonisamide in line with updated MHRA safety advice on antiepileptic drugs in pregnancy.
February 2020: We amended recommendations in line with the MHRA guidance on valproate use by women and girls. The MHRA states that valproate must not be used in women and girls of childbearing potential (including young girls who are likely to need treatment into their childbearing years), unless other options are unsuitable and the pregnancy prevention programme is in place. We did this by:
- moving cautions and links to the MHRA’s latest advice on sodium valproate into the recommendations
- adding bullet points to some recommendations to clarify that sodium valproate is not an option for women and girls of childbearing potential, but is an option for men, boys and women who are not of childbearing potential.
Medicines containing valproate taken in pregnancy can cause malformations in 11% of babies and developmental disorders in 30% to 40% of children after birth. Valproate treatment must not be used in girls and women including in young girls below the age of puberty, unless other treatments are unsuitable and the terms of the European Medicines Agency’s pregnancy prevention programme are met. This programme includes: assessment of patients for the potential of becoming pregnant; pregnancy tests; counselling patients about the risks of valproate treatment; explaining the need for effective contraception throughout treatment; regular (at least annual) reviews of treatment by a specialist, and completion of a risk acknowledgement form. In pregnancy, valproate is contraindicated and an alternative treatment should be decided on, with appropriate specialist consultation. See the MHRA toolkit to ensure female patients are better informed about the risks of taking valproate during pregnancy.
We removed the tables from appendix E because they are no longer current.
October 2019: Because of a risk of abuse and dependence, gabapentin and pregabalin are controlled under the Misuse of Drugs Act 1971 as Class C substances and scheduled under the Misuse of Drugs Regulations 2001 as Schedule 3 (as of 1 April 2019). Tables have been amended and a footnote has been added to this guideline to reflect this change.
Appendices A and B (details of internal/external staff and committee members) were removed as this information is now available elsewhere on the NICE website.
February 2016: The Medicines and Healthcare products Regulatory Agency (MHRA) has produced the MHRA toolkit to ensure female patients are better informed about the risks of taking valproate during pregnancy. Healthcare professionals are advised to use the NICE guideline in conjunction with the latest MHRA advice and resources. Footnotes and cautions in the guideline have also been added and amended to link to the MHRA’s latest advice and resources.
January 2015: The Medicines and Healthcare products Regulatory Agency (MHRA) has strengthened its warnings on the use of valproate in women of childbearing potential. We are assessing the impact of this on the guideline. In the meantime, healthcare professionals are advised to use the guideline in conjunction with the latest MHRA advice.
November 2013: A footnote has been added to recommendation 1.9.1.4 highlighting new advice issued by the MHRA about oral anti-epileptic drugs (AEDs).
Minor changes since publication
September 2020: We incorporated text from the footnote into recommendation 1.9.17.1.
Your responsibility: The recommendations in this guideline represent the view of NICE, arrived at after careful consideration of the evidence available. When exercising their judgement, professionals and practitioners are expected to take this guideline fully into account, alongside the individual needs, preferences and values of their patients or the people using their service. It is not mandatory to apply the recommendations, and the guideline does not override the responsibility to make decisions appropriate to the circumstances of the individual, in consultation with them and their families and carers or guardian.
Local commissioners and providers of healthcare have a responsibility to enable the guideline to be applied when individual professionals and people using services wish to use it. They should do so in the context of local and national priorities for funding and developing services, and in light of their duties to have due regard to the need to eliminate unlawful discrimination, to advance equality of opportunity and to reduce health inequalities. Nothing in this guideline should be interpreted in a way that would be inconsistent with complying with those duties.
Commissioners and providers have a responsibility to promote an environmentally sustainable health and care system and should assess and reduce the environmental impact of implementing NICE recommendations wherever possible.
Created: January 11, 2012; Last Update: May 12, 2021.
- Overview
- Introduction
- Key priorities for implementation
- Guidance
- Implementation
- Research recommendations
- Outline care algorithms
- Differential diagnosis of epilepsy in children, young people and adults
- Pharmacological treatment
- Protocols for treating convulsive status epilepticus in adults and children (adults published in 2004 and children published in 2011)
- Terms used in this guideline
- Finding more information and committee details
- Update information
- NICE Clinical Guideline 137: The Epilepsies: The Diagnosis and Management of the Epilepsies in Adults and Children in Primary and Secondary Care: Pharmacological Update of Clinical Guideline 20
- The epilepsies: Evidence Update February 2014: A summary of selected new evidence relevant to NICE clinical guideline 137 'The epilepsies: the diagnosis and management of the epilepsies in adults and children in primary and secondary care' (2012)
- Surveillance report 2018 - Epilepsies: diagnosis and management (2012) NICE guideline CG137
- NLM CatalogRelated NLM Catalog Entries
- PubMedLinks to PubMed
- Review Epilepsies in children, young people and adults[ 2022]Review Epilepsies in children, young people and adults. 2022 Apr 27
- Review Rehabilitation for adults with complex psychosis[ 2020]Review Rehabilitation for adults with complex psychosis. 2020 Aug 19
- Review Bipolar disorder: assessment and management[ 2023]Review Bipolar disorder: assessment and management. 2023 Dec 21
- Review Neuropathic pain in adults: pharmacological management in non-specialist settings[ 2020]Review Neuropathic pain in adults: pharmacological management in non-specialist settings. 2020 Sep 22
- Comparative risk of major congenital malformations with eight different antiepileptic drugs: a prospective cohort study of the EURAP registry.[Lancet Neurol. 2018]Comparative risk of major congenital malformations with eight different antiepileptic drugs: a prospective cohort study of the EURAP registry.Tomson T, Battino D, Bonizzoni E, Craig J, Lindhout D, Perucca E, Sabers A, Thomas SV, Vajda F, EURAP Study Group. Lancet Neurol. 2018 Jun; 17(6):530-538. Epub 2018 Apr 18.
- Epilepsies: diagnosis and managementEpilepsies: diagnosis and management
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