1. Prof.Mohammad Salah Abduljabbar
Seizures & Epilepsy
Prof.Mohammad Salah Abduljabbar

2. Outline Definitions Pathophysiology Aetiology Classification
Diagnostic approach
Treatment
Quiz

3. Definition
A chronic neurologic disorder manifesting by repeated epileptic seizures (attacks or fits) which result from paroxysmal uncontrolled discharges of neurons within the central nervous system (grey matter disease).
The clinical manifestations range from a major motor convulsion to a brief period of lack of awareness. The stereotyped and uncontrollable nature of the attacks is characteristic of epilepsy.

4. Definition Seizure (Convulsion) Epilepsy
Clinical manifestation of synchronised electrical discharges of neurons
Epilepsy
Present when 2 or more unprovoked seizures occur at an interval greater than 24 hours apart

5. Definition
Provoked seizures is a seizures induced by somatic disorders originating outside the brain
E.g. fever, infection, syncope, head trauma, hypoxia, toxins, cardiac arrhythmias

6. Definition Status epilepticus (SE) Idiopathic SE Symptomatic SE
Continuous convulsion lasting longer than 30 minutes OR occurrence of serial convulsions between which there is no return of consciousness
Idiopathic SE
Seizure develops in the absence of an underlying CNS lesion/insult
Symptomatic SE
Seizure occurs as a result of an underlying neurological disorder or a metabolic abnormality

7. Aetiology of seizures Epileptic Idiopathic (70-80%) Cerebral tumor
Neurodegenerative disorders
Neurocutaneous syndromes
Secondary to
Cerebral damage: e.g. congenital infections, HIE, intraventricular hemorrhage
Cerebral dysgenesis/malformation: e.g. hydrocephalus

8. Aetiology of seizures Non-epileptic Febrile convulsions Metabolic
Hypoglycemia
HypoCa, HypoMg, HyperNa, HypoNa
Head trauma
Meningitis
Encephalitis
Poisons/toxins

9. Aetiology of Status Epilepticus
Prolonged febrile seizure
Most common cause
Idiopathic status epilepticus
Non-compliance to anti-convulsants
Sudden withdrawal of anticonvulsants
Sleep deprivation
Intercurrent infection
Symptomatic status epilepticus
Anoxic encephalopathy
Encephalitis, meningitis
Congenital malformations of the brain
Electrolyte disturbances, drug/lead intoxication, extreme hyperpyrexia, brain tumor
Prolonged febrile seizure:
-lasting for more than 30min, particularly in a child younger than 3, is the most common cause of SE
Sudden withdrawal of anticonvulsants:
-Especially benzodiazepines and barbiturates

10. Pathogenesis
The 19th century neurologist Hughlings Jackson suggested “a sudden excessive disorderly discharge of cerebral neurons“ as the causation of epileptic seizures.
Recent studies in animal models of focal epilepsy suggest a central role for the excitatory neurotransmiter glutamate (increased) and inhibitory gamma amino butyric acid (GABA) (decreased)

11. Pathophysiology Still unknown Some proposals:
Excitatory glutamatergic synapses
Excitatory amino acid neurotransmitter (glutamate, aspartate)
Abnormal tissues — tumor, AVM, dead area
Genetic factors
Role of substantia nigra and GABA

12. Pathophysiology Excitatory glutamatageric synapses
And, excitatory amino acid neurotransmitter (glutamate, aspartate)
These are for the neuronal excitation
In rodent models of acquired epilepsy and in human temporal lobe epilepsy, there is evidence for enhanced functional efficacy of ionotropic N-methyl-D-aspartate (NMDA) and metabotropic (Group I) receptors
Chapman AG. Glutatmate and Epilepsy. J Nutr Apr; 130(4S Suppl): 1043S-5S

13. Pathophysiology Abnormal tissues — tumor, AVM, dead area
These regions of the brain may promote development of novel hyperexcitable synapses that can cause seizures

14. Pathophysiology Genetic factors At least 20 % Some examples
Benign neonatal convulsions.
Juvenile myoclonic epilepsy.
Progressive myoclonic epilepsy.

15. Classification of seizures

16. Epilepsy - Classification
The modern classification of the epilepsies is based upon the nature of the seizures rather than the presence or absence of an underlying cause.
Seizures which begin focally from a single location within one hemisphere are thus distinguished from those of a generalised nature which probably commence in a deeper structures (brainstem? thalami) and project to both hemispheres simultaneously.

17. Seizures
Partial
Electrical discharges in a relatively small group of dysfunctional neurones in one cerebral hemisphere
Aura may reflect site of origin
+ / - LOC
Generalized
Diffuse abnormal electrical discharges from both hemispheres
Symmetrically involved
No warning
Always LOC

18. Partial Seizures Simple Secondary generalized Complex
1. w/ motor signs
2. w/ somato-sensory symptoms
3. w/ autonomic symptoms
4. w/ psychic symptoms
1. simple partial --> loss of consciousness
2. w/ loss of consciousness at onset
1. simple partial
--> generalized
2. complex partial
3. simple partial
--> complex partial
Simple partial
In simple partial seizures, consciousness is not impaired.
Patients can present with motor, somatosensory, special sensory, autonomic or psychic symptoms
complex
A complex partial seizure describes a seizure where consciousness is impaired.
A partial seizure may begin with a simple seizure, conversely, its onset may coincide with the impairment of consciousness.
It may be presented with or without an aura.
2ndary generalized
Partial sezure evolve to secondarily generalized seizures
May be gen. Tonic-clonis, tonico or clonic

19. Focal (partial) seizures
Simple partial seizures
Motor, sensory, vegetative or psychic symptomato- logy
Typically consciousness is preserved

20. Simple partial seizures with motor signs
Focal motor w/o march
Focal motor w/ march
Versive
Postural
Phonatory
Focal motor may remain strictly focal OR
they may spread to contiguous cortical areas producing a sequential
involvement of body parts in an epileptic march - Jacksonian seizure
Versive : head turning to one side usually contraversive to the discharge

21. Simple partial seizures with motor signs
Sudden onset from sleep
Version of trunk
Postural
Left arm bent
Forcefully stretched fingers
Looks at watch
Note seizure
Simple partial seizure
with versive motor signs and postural motor signs
usually arising from sleep; version of trunk to R
L arm bent at elbow, finger forcefully stretched
R arm beats on arm of chair to warn the nurse
tonic contraction of face and eyes
jerking of head and L shoulder
turns back to normal position
support head with R hand
look at watch for note seizure in calender

22. Simple partial seizures with sensory symptoms
Somato-sensory
Visual
Auditory
Olfactory
Gustatory
Vertiginous
Areas of cortex subserving sensory function, described as pins and needles / numbness
Visual: flashing lights - structured visual hallucinatory phenomena e.g. persons, scenes.
Auditory: crude aud sensations - highly integrated functions e.g. music
Olfactory: unpleasant odours
Gustatory sensations: pleasant / odious taste often described as metallic
Vertiginous: sensations of falling in space, floating

23. Simple partial seizures with sensory symptoms
Vertiginous symptoms
“Sudden sensation of falling forward as in empty space”
No LOC
Duration: 5 mins

24. Simple partial seizures with autonomic symptoms
Vomiting
Pallor
Flushing
Sweating
Pupil dilatation
Piloerection
Incontinence
borborygmi

25. Simple partial seizures with autonomic symptoms
Stiffness in L cheek
Difficulty in articulating
R side of mouth is dry
Salivating on the L side
Progresses to tongue and back of throat

26. Simple partial seizures with psychic symptoms
Dysphasia
Dysmnesic
Cognitive
Affective
Illusions
Structured hallucinations
Psychic: disturbance of higher mental function
Dysmnesic symptoms: deja-vu or jamais-vu,
forced thinking - panoramic vision ( a rapid recollection of episodes from his/her past life)
Cognitive: dreamy states, distorsions of time sense. Detachment or depersonalisation
Affective: Anger and Fear which is apparently unprovoked and abates rapidly

27. Simple partial seizure with pyschic symptoms
Dysmnesic symptoms
“déjà-vu”
Affective symptoms
fear and panic
Cognitive
Structured hallucination
living through a scene of her former life again

28. Complex Partial Seizures
Simple partial onset followed by impaired consciousness
with or without automatism
With impairment of consciousness at onset
with impairment of consciousness only
with automatisms

29. Partial Seizures evolving to Secondarily Generalized Seizures
Simple Partial Seizures to Generalised Seizures
Complex Partial Seizures to Generalised Seizures
Simple Partial Seizures to Complex Partial Seizures to Generalised Seizures

30. Generalized seizures Absence Myoclonic Clonic Tonic Tonic-clonic
Atonic
Generalized seizure:
Atonic1: lack of normal tone
Tonic1: under continuous tension
Clonic1: rhythmic contractions and relaxations of a muscle in rapid succession
Myoclonic1: single or repetitive sudden twitching or spasm of a muscle or a group of muscles

31. Generalized seizures (convulsive or non-convulsive)
Absences
Myoclonic seizures
Clonic seizures
Tonic seizures
Atonic seizures

32. Absence seizures Sudden onset Interruption of ongoing activities
Blank stare
Brief upward rotation of eyes
Duration: a few seconds to 1/2 minute
Evaporates as rapidly as it started

33. Absence seizures Stops hyperventilating Mild eyelid clonus
Slight loss of neck muscle tone
Oral automatisms
Slight impairment of mental performance:
Heard what was spoken to her before the seizure stopped, but has probably not understood it qte right
“are you there” and “is it there” sound very close to each other in Danish

34. Myoclonic seizures Sudden, brief, shock-like
Predominantly around the hours of going to or awakening from sleep
May be exacerbated by volitional movement (action myoclonus)

35. Myoclonic seizures
Symmetrical myoclonic jerks

36. Clonic seizures Repetitive biphasic jerky movements
Repetitive vocalisation synchronous with clonic movements of the chest (mechanical)
Venous injection of diazepam
Passes urine

37. Tonic seizures Rigid violent muscle contraction
Limbs are fixed in strained position
patient stands in one place
bends forward with abducted arms
deep red face
noises - pressing air through a closed mouth

38. Tonic seizures Elevates both hands Extreme forward bending posture
Keeps walking without faling
Passes urine
Usually:
patient stands in one place
bends forward with abducted arms
deep red face
noises - pressing of air through a closed mouth

39. Tonic-clonic seizures (grand mal)
Tonic Phase
Sudden sharp tonic contraction of respiratory muscle: stridor / moan
Falls
Respiratory inhibition cyanosis
Tongue biting
Urinary incontinence
Clonic Phase
Small gusts of grunting respiration
Frothing of saliva
Deep respiration
Muscle relaxation
Remains unconscious
Goes into deep sleep
Awakens feeling sore, headaches

40. Tonic-clonic seizures
Tonic stretching of arms and legs
Twitches in his face and body
Purses his lips and growls
Clonic phase
EEG show generalized sharp waves
spikes decrease in frequency

41. Atonic seizures
Sudden reduction in muscle tone
Atonic head drop

42. Epilepsy syndrome Epilepsy syndromes may be classified according to:
Whether the associated seizures are partial or generalized
Whether the etiology is idiopathic or symptomatic/ cryptogenic
Several important pediatric syndromes can further be grouped according to age of onset and prognosis
EEG is helpful in making the diagnosis
Children with particular syndromes show signs of slow development and learning difficulties from an early age

43. Table 1. Modified ILAE Classification of Epilepsy Syndromes
Category
Localization-related
Generalized
Idiopathic
Benign epilepsy of childhood with centrotemporal spikes (benign rolandic epilepsy) Benign occipital epilepsy
Benign myoclonic epilepsy in infancy Childhood absence epilepsy Juvenile absence epilepsy Juvenile myoclonic epilepsy
Symptomatic (of underlying structural disease)
Temporal lobe Frontal lobe Parietal lobe Occipital lobe
Early myoclonic encephalopathy Cortical dysgenesis Metabolic abnormalities West syndrome Lennox-Gastaut syndrome
Cryptogenic
Any occurrence of partial seizures without obvious pathology
Epilepsy with myoclonic absences West syndrome (with unidentified pathology) Lennox-Gastaut syndrome (with unidentified pathology)

44. (cond’) Table 1. Modified ILAE Classification of Epilepsy Syndromes
Special syndromes
Febrile convulsions Seizures occurring only with toxic or metabolic provoking factors Neonatal seizures of any etiology Acquired epileptic aphasia (Landau-Kleffner syndrome)

45. Three most common epilepsy syndromes:
Benign childhood epilepsy
Childhood absence epilepsy
Juvenile myoclonic epilepsy
Three devastating catastrophic epileptic
syndromes:
West syndrome
Lennox-Gastaut syndrome
Landau Kleffner Syndrome

46. Benign childhood epilepsy with centrotemporal spike
(Benign Rolandic Epilepsy)
Typical seizure affects mouth, face, +/- arm. Speech arrest if dominant hemisphere, consciousness often preserved, may generalize especially when nocturnal, infrequent and easily controlled
Onset is around 3-13 years old, good respond to medication, always remits by mid-adolescence
Idiopathic (with age-related onset) – normal neuro exam, development and neuroimaging, typically nocturnal, usually stop in adolescence, family history 40%
1. Benign childhood epilepsy with centrotemporal spike (aka benign rolandic epilepsy)
a. Age of onset 2-13 yrs, accounts for % of childhood epilepsy (autosomal dominant with variable penetrance). Always remits by mid-adolescence.
b. Typical seizure affects mouth, face, +/- arm. Speech arrest if dominant hemisphere, consciousness often preserved, may generalize especially when nocturnal, infrequent and easily controlled
c. Interictal EEG normal background, midtemporal and central high-amplitude spikes and sharp waves, increased in sleep, can be unilateral (less often) or bilateral but independent (more often). Ictal EEG shows unilateral sharps which can occasionally be bilateral. Sharps can be occipital in <5 yo.

47. Childhood absence epilepsy
School age ( 4-10 years ) with a peak age of onset at 6-7 years
Brief seizures, lasting between 4 and 20 seconds
3Hz Spike and wave complexes is the typical EEG abnormality
Sudden onset and interruption of ongoing activity, often with a blank stare.
Precipitated by a number of factors i.e. fear, embarrassment, anger and surprise. Hyperventilation will also bring on attacks.
Juvenile myoclonic seizure
Around time of puberty
Myoclonic ( sudden spasm of muscles ) jerks → generalized tonic clonic seizure without loss of consciousness
Precipitated by sleep deprivation

48. West’s syndrome (infantile spasms) Triad: infantile spasms
arrest of psychomotor development
hypsarrhythmia
Spasms may be flexor, extensor, lightning, nods, usually mixed. Peak onset 4-7 months, always before 1 year.
Lennox-Gastaut syndrome
Characterized by seizure, mental retardation and psychomotor slowing
Three main type:
tonic
atonic
atypical absence
Landau- Kleffner syndrome ( acquired aphasia )
Prognosis related to underlying cause, response to treatment. ACTH or steroids
West
Lennox-Gastaut syndrome
Three main type:
tonic
atonic
atypical absence
Begins age 1-8 yo, seizures can be tonic-axial, atonic, absence, myoclonic, GTC, usually frequent sz, frequent status epilepticus, seizures difficult to control. EEG abnormal background, slow spike and wave (<3Hz), often multifocal abnormalities. Usually has mental retardation.

49. Diagnosis in epilepsy Aims:
Differentiate between events mimicking epileptic seizures
E.g. syncope, vertigo, migraine, psychogenic non-epileptic seizures (PNES)
Confirm the diagnosis of seizure (or possibly associated syndrome) and the underlying etiology

50. Epilepsy Differential Diagnosis
The following should be considered in the diff. dg. of epilepsy:
Syncope attacks (when pt. is standing; results from global reduction of cerebral blood flow; prodromal pallor, nausea, sweating; jerks!)
Cardiac arrythmias (e.g. Adams-Stokes attacks). Prolonged arrest of cardiac rate will progressively lead to loss of consciousness – jerks!
Migraine (the slow evolution of focal hemisensory or hemimotor symptomas in complicated migraine contrasts with more rapid “spread“ of such manifestation in SPS. Basilar migraine may lead to loss of consciousness!
Hypoglycemia – seizures or intermittent behavioral disturbances may occur.
Narcolepsy – inappropriate sudden sleep episodes
Panic attacks
PSEUDOSEIZURES – psychosomatic and personality disorders

51. Diagnosis in epilepsy Approach: History (from patient and witness)
Physical examination
Investigations

52. History Event Past medical history Developmental history
Localization
Temporal relationship
Factors
Nature
Associated features
Past medical history
Developmental history
Drug and immunization history
Family history
Social history
Localization: aspects involved e.g. motor, sensory? Any specific site e.g. one limb involved, or generalized involvement?
Temporal relationship: number of episode? Diurnal pattern? Duration? Onset and offset? Progression? Persistency?
Factors: precipitating?
Nature: consciousness impaired? Type of sensory/ motor/ psychic/ emotional disturbances observed/ experienced?
Associated features: Prodrome? Aura? Postictal state? Colour of patient? Focal neurological sign?

53. Physical Examination General Neurological Other system as indicated
esp. syndromal or non-syndromal dysmorphic features, neurocutaneous features
Neurological
Other system as indicated
E.g. Febrile convulsion, infantile spasm

54. Epilepsy – Investigation
The concern of the clinician is that epilepsy may be symptomatic of a treatable cerebral lesion.
Routine investigation: Haematology, biochemistry (electrolytes, urea and calcium), chest X-ray, electroencephalogram (EEG).
Neuroimaging (CT/MRI) should be performed in all persons aged 25 or more presenting with first seizure and in those pts. with focal epilepsy irrespective of age.
Specialised neurophysiological investigations: Sleep deprived EEG, video-EEG monitoring.
Advanced investigations (in pts. with intractable focal epilepsy where surgery is considered): Neuropsychology, Semiinvasive or invasive EEG recordings, MR Spectroscopy, Positron emission tomography (PET) and ictal Single photon emission computed tomography (SPECT)

55. Investigations I. Exclusion of differentials: Bedside: urinalysis
Hematological:CBP
Biochemical: U&Es, Calcium, glucose, ABGs
Radiological: CXR, CT head
Toxicological: screen
Microbiological: LP
(Always used with justification)

56. Investigations II. Confirmation of epilepsy:
Dynamic investigations : result changes with attacks
E.g. EEG
Static investigations : result same between and during attacks
E.g. Brain scan

57. Electroencephalography (EEG)
EEG indicated whenever epilepsy suspected
Uses of EEG in epilepsy
Diagnostic: support diagnosis, classify seizure, localize focus, quantify
Prognostic: adjust anti-epileptic treatment

58. International 10-20 System of Electrode Placement in EEG

59. Electroencephalography (EEG)
EEG interpretation in epilepsy
Hemispheric or lobar asymmetries
Periodic (regular, recurring)
Background activity:
Slow or fast
Focal or generalized
Paroxysmal activity:
Epileptiform features – spikes, sharp waves
Interictal or ictal
Spontaneous or triggered

60. Electroencephalography (EEG)
Certain epilepsy syndromes have characteristic or suggestive features
E.g.
Infantile spasms
Hypsarrhythmia
Childhood absence epilepsy
Generalized 3-Hz spike-wave
Juvenile myoclonic epilepsy
Generalized/ multifocal 4-5 Hz spike-wave and polyphasic-wave
Benign occipital epilepsy
Unilateral/ bilateral occipital sharp/ sharp-slow activity that attenuates on eye opening
Lennox-Gastaut syndrome
Generalized/ bianterior spike-wave activity at <2.5 Hz

61. Electroencephalography (EEG)
E.g. Brief absence seizure in an 18-year-old patient with primary generalized epilepsy

62. Electroencephalography (EEG)
Note:
Normal in 10-20% of epileptic patients
Background slowed by:
AED, diffuse cerebral process, postictal state
Artifact from:
Eye rolling, tremor, other movement, electrodes
Interpreted in the light of proximity to seizure

63. Neuroimaging
Structural neuroimaging
Functional neuroimaging

64. Structural Neuroimaging
Who should have a structural neuroimaging?
Status epilepticus or acute, severe epilepsy
Develop seizures when > 20 years old
Focal epilepsy (unless typical of benign focal epilepsy syndrome)
Refractory epilepsy
Evidence of neurocutaneous syndrome

65. Structural Neuroimaging
Modalities available:
Magnetic Resonance Imaging (MRI)
Computerized Tomography (CT)
What sort of structural scan?
MRI better than CT
CT usually adequate if to exclude large tumor
MRI not involve ionizing radiation
I.e. not affect fetus in pregnant women (but nevertheless avoided if possible)

66. Functional Neuroimaging
Principles in diagnosis of epilepsy:
When a region of brain generates seizure, its regional blood flow, metabolic rate and glucose utilization increase
After seizure, there is a decline to below the level of other brain regions throughout the interictal period

67. Functional Neuroimaging
Modalities available:
Positron Emission Tomography (PET)
Single Photon Emission Computerized Tomography (SPECT)
Functional Magnetic Resonance Imaging (fMRI)
Mostly used in:
Planning epilepsy surgery
Identifying epileptogenic region
Localizing brain function

68. Venn Diagram

69. Seizure Therapy Seizure Specific Treatments General Treatment
Reassurance and Education
Anticonvulsant
Surgery

70. Education & Support
Information leaflets and information about support group
Avoidance of hazardous physical activities
Management of prolonged fits
Recovery position
Rectal diazepam
Side effects of anticonvulsants

71. Treatment
The majority of pts respond to drug therapy (anticonvulsants). In intractable cases surgery may be necessary. The treatment target is seizure-freedom and improvement in quality of life!
The commonest drugs used in clinical practice are: Carbamazepine, Sodium valproate, Lamotrigine (first line drugs) Levetiracetam, Topiramate, Pregabaline (second line drugs) Zonisamide, Eslicarbazepine, Retigabine (new AEDs)
Basic rules for drug treatment: Drug treatment should be simple, preferably using one anticonvulsant (monotherapy). “Start low, increase slow“ Add-on therapy is necessary in some patients…

72. Treatment
If pt is seizure-free for three years, withdrawal of pharmacotherapy should be considered. Withdrawal should be carried out only if pt is satisfied that a further attack would not ruin employment etc. (e.g. driving licence). It should be performed very carefully and slowly! 20% of pts will suffer a further sz within 2 yrs.
The risk of teratogenicity is well known (~5%), especially with valproates, but withdrawing drug therapy in pregnancy is more risky than continuation. Epileptic females must be aware of this problem and thorough family planning should be recommended. Over 90% of pregnant women with epilepsy will deliver a normal child.

73. Anticonvulsants
Suppress repetitive action potentials in epileptic foci in the brain
Sodium channel blockade
GABA-related targets
Calcium channel blockade
Others: neuronal membrane hyperpolarisation
Na channel blockade: phenytoin, carbamazepine, lamotrigine
GABA-related targets: benzodiazepines interact with specific receptors on GABAa receptor-chloride ion channel macromolecular complex
Ca channel blockade: ethosuxamide inhibits low-threshold Ca currents especially in thalamic neurons that act as pacemakers to generate rhythmic cortical discharge
Other mechanisms:
Valproic acid - neuronal membrane hyperpolarisation possibly by enhancing K channel permeability

74. Anticonvulsants Drugs used in seizure disorders Absence seizures
Tonic-clonic and partial
Absence seizures
Myoclonic seizures
Status Epilepticus
Infantile Spasms
Cabamazepine
Ethosuximide
Corticotropin
Valproic acid
Short term control
Prolonged
therapy
Phenytoin
Valproic acid
Corticosteroids
Clonazepam
Valproic acid
Clonazepam
Infantile spasms: corticotropin and corticosteroids are commonly used but cause cushingoid side effects.
Diazepam
Phenytoin
Lorazepam
Phenobarbital

75. Adverse Effects Teratogenicity Overdosage toxicity
Neural tube defects
Fetal hydantoin syndrome
Overdosage toxicity
Life-threatening toxicity
Hepatotoxicity
Stevens-Johnson syndrome
Abrupt withdrawal
Neural tube defects (spina bifida) associated with valproic acid
Fetal hydantoin syndrome - phenytoin
Overdosage: most of the commonly used anticonvulsants are CNS depressants - respiratory depression
Life threatening toxicity
fatal hepato. - valproic acid
greatest risk to children <2 yrs of age and patients taking multiple anticonvulsant drugs
Lamotrigin - skin rashes and life-threatening Stevens Johnsons syndrome
Abrupt withdrawal - increased seizure frequency and severity

76. Medical Intractability
No known universal definition
Risk factors
High seizure frequency
Early seizure onset
Organic brain damage
Established after adequate drug trials
Operability
Intractability can be established after:
2-3 of the established newer first and second line AED, as monotherapy at least one in combination
max tolerated dose
High seizure frequency: daily / weekly episode
brain damage: the more severe the brain damage, the greater the likelihood of seizure persistence
Assess operability using imaging studies

77. Surgery Curative Palliative
Catastrophic unilateral or secondary generalised epilepsies of infants and young children
Sturge-Weber syndrome
Large unilateral developmental abnormalities
Palliative
Vagal nerve stimulation
Large unilateral developmental abnormalities such as cortical dysplasias and porencephalic cysts

78. Surgical Treatment
A proportion of the pts with intractable epilepsy will benefit from surgery.
Epilepsy surgery procedures: Curative (removal of epileptic focus) and palliative (seizure-related risk decrease and improvement of the QOL)
Curative (resective) procedures: Anteromesial temporal resection, selective amygdalohippocampectomy, extensive lesionectomy, cortical resection, hemispherectomy.
Palliative procedures: Corpus callosotomy and Vagal nerve stimulation (VNS).

79. Surgical Outcome Medical Intractability
A well-localised epileptogenic zone
EEG, MRI
Low risk of new post-operative deficits

80. Status Epilepticus
A condition when consciousness does not return between seizures for more than 30 min. This state may be life-threatening with the development of pyrexia, deepening coma and circullatory collapse. Death occurs in 5-10%.
Status epilepticus may occur with frontal lobe lesions (incl. strokes), following head injury, on reducing drug therapy, with alcohol withdrawal, drug intoxication, metabolic disturbances or pregnancy.
Treatment: AEDs intravenously ASAP, event. general anesthesia with propofol or thipentone should be commenced immediately.

81. References Stedman’s Medical Dictionary. MDConsult: Nelson’s textbook.
Illustrated Textbook of Pediatrics.
Video atlas of epileptic seizures – Classical examples, International League against epilepsy.
Guberman AH, Bruni J, 1999, Essentials of Clinical Epilepsy, 2nd edn. Butterworth Heinemann.
Manford M, 2003, Practical Guide to Epilepsy, Butterworth Heinemann.