Seizures Epilepsy MBBS IV Group C Tutor Prof
Seizures & Epilepsy MBBS IV Group C Tutor: Prof. V. Wong 16 th Feb 2004
Outline ® Definitions ® Pathophysiology ® Aetiology ® Classification ® Video demonstration ® Diagnostic approach ® Treatment ® Quiz
Definition ® Seizure • (Convulsion) 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
Definition ® Provoked seizures ® Seizures induced by somatic disorders originating outside the brain ® E. g. fever, infection, syncope, head trauma, hypoxia, toxins, cardiac arrhythmias
Definition ® Status epilepticus (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
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
Aetiology of seizures § Non-epileptic § § Febrile convulsions Metabolic § § § Hypoglycemia Hypo. Ca, Hypo. Mg, Hyper. Na, Hypo. Na Head trauma Meningitis Encephalitis Poisons/toxins
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
Pathophysiology ® Still unknown ® Some proposals: ® Excitatory glutamatergic synapses ® Excitatory amino acid neurotransmitter (glutamate, aspartate) ® Abnormal tissues — tumor, AVM, dead are ® Genetic factors ® Role of substantia nigra and GABA
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. 2000 Apr; 130(4 S Suppl): 1043 S-5 S
Pathophysiology ® Abnormal area ® These tissues — tumor, AVM, dead regions of the brain may promote development of novel hyperexcitable synapses that can cause seizures
Pathophysiology ® Genetic factors ® At least 20 % ® Some examples Benign neonatal convulsions--20 q and 8 q ® Juvenile myoclonic epilepsy--6 p ® Progressive myoclonic epilepsy--21 q 22. 3 ®
Pathophysiology ® Role of substantia nigra ® Studies with 2 -deoxyglucose indicate that a marked increase in metabolic activity in SN is a common feature of several types of generalized seizures; it is possible that some of this increased activity is associated with GABAergic nerve terminals that become activated in an attempt to suppress seizure spread. ® Because GABA has been shown to inhibit nigral efferents, it is likely that GABA terminals inhibit nigral projections that are permissive or facilitative to seizure propagation From Gale K. Role of the substantia nigra in GABAmediated anticonvulsant actions. Adv Neurol. 1986; 44: 343 -364
Pathophysiology ® Premature ® brain It is more susceptible to specific seizures than is the brain in older children and adults ® Kindling Repeated subconvulsive stimulation (e. g. to the amygdala) will lead to generalized convulsion ® This may explain the development of epilepsy after injury to the brain ® One temporal lobe seizure -> contralateral lobe ®
Classification of seizures
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
Partial Seizures Simple 1. w/ motor signs 2. w/ somatosensory symptoms 3. w/ autonomic symptoms 4. w/ psychic Complex 1. simple partial --> loss of consciousnes s 2. w/ loss of consciousnes s at onset Secondary generalized 1. simple partial --> generalized 2. complex partial --> generalized 3. simple partial --> complex partial --> generalized
Simple partial seizures with motor signs Focal motor w/o march ® Focal motor w/ march ® Versive ® Postural ® Phonatory ®
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 seizures with sensory symptoms ® Somato-sensory ® Visual ® Auditory ® Olfactory ® Gustatory ® Vertiginous
Simple partial seizures with sensory symptoms ® Vertiginous symptoms “Sudden sensation of falling forward as in empty space” ® No LOC ® Duration: 5 mins
Simple partial seizures with autonomic symptoms ® Vomiting ® Pallor ® Flushing ® Sweating ® Pupil dilatation ® Piloerection ® Incontinence
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
Simple partial seizures with psychic symptoms ® Dysphasia ® Dysmnesic ® Cognitive ® Affective ® Illusions ® Structured hallucinations
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
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
Simple Partial Seizures followed by Complex Partial Seizures ® Seizure starts from awake state ® Impairment of consciousness ® Automatisms lip-smacking ® right leg ®
Complex Partial Seizures with impairment of consciousness at onset ® Suddenly sit up ® Roll about with vehement movement
Partial Seizures evolving to Secondarily Generalised Seizures ® Simple Partial Seizures to Generalised Seizures ® Complex Partial Seizures to Generalised Seizures ® Simple Partial Seizures to Complex Partial Seizures to Generalised Seizures
Simple Partial Seizures to Generalised Seizures ® Turns to his R with upper body and bends his L arm ® Stretches body ® LOC ® Tonic-clonic seizure ® Relaxation phase ® Postictal sleep
Simple Partial Seizures to Complex Partial Seizures to Generalised Seizures Initially unable to communicate but understands ® Automatism ® ® ® Smacking Hand-rubbing Abolished communication ® Generalised tonicclonic seizure ®
Generalized seizures ® Absence ® Myoclonic ® Clonic ® Tonic-clonic ® Atonic
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
Absence seizures ® Stops hyperventilating ® Mild eyelid clonus ® Slight loss of neck muscle tone ® Oral automatisms
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)
Myoclonic seizures ® Symmetrical myoclonic jerks
Clonic seizures Repetitive biphasic jerky movements ® Repetitive vocalisation synchronous with clonic movements of the chest (mechanical) ® Venous injection of diazepam ® Passes urine ®
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 ®
Tonic seizures ® Elevates both hands ® Extreme forward bending posture ® Keeps walking without faling ® Passes urine
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
Tonic-clonic seizures ® Tonic stretching of arms and legs ® Twitches in his face and body ® Purses his lips and growls ® Clonic phase
Atonic seizures ® Sudden reduction in muscle tone ® Atonic head drop
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
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 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)
Table 1. Modified ILAE Classification of Epilepsy Syndromes (cond’) Special syndromes Febrile convulsions Seizures occurring only with toxic or metabolic provoking factors Neonatal seizures of any etiology Acquired epileptic aphasia (Landau-Kleffner syndrome)
Three most common epilepsy syndromes: 1. Benign childhood epilepsy 2. Childhood absence epilepsy 3. Juvenile myoclonic epilepsy Three devastating catastrophic epileptic syndromes: 1. West syndrome 2. Lennox-Gastaut syndrome 3. Landau Kleffner Syndrome
Benign childhood epilepsy with centrotemporal spike (Benign Rolandic Epilepsy) 1. 2. 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
Childhood absence epilepsy 1. 2. 3. 4. 5. School age ( 4 -10 years ) with a peak age of onset at 6 -7 years Brief seizures, lasting between 4 and 20 seconds 3 Hz 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 1. 2. 3. Around time of puberty Myoclonic ( sudden spasm of muscles ) jerks → generalized tonic clonic seizure without loss of consciousness Precipitated by sleep deprivation
West’s syndrome (infantile spasms) Triad: 1. infantile spasms 2. arrest of psychomotor development 3. 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: 1. tonic 2. atonic 3. atypical absence Landau- Kleffner syndrome ( acquired aphasia )
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
Diagnosis in epilepsy ® Approach: ® History (from patient and witness) ® Physical examination ® Investigations
History ® Event ® Localization ® Temporal relationship ® Factors ® Nature ® Associated features ® Past medical history ® Developmental history ® Drug and immunization history ® Family history ® Social history
Physical Examination ® General ® esp. syndromal or non-syndromal dysmorphic features, neurocutaneous features ® Neurological ® Other ® E. g. system as indicated Febrile convulsion, infantile spasm
Investigations ® I. Exclusion of differentials: Bedside: urinalysis ® Haematological: CBP ® Biochemical: U&Es, Calcium, glucose, ABGs ® Radiological: CXR, CT head ® Toxicological: screen ® Microbiological: LP (Always used with justification) ®
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
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
International 10 -20 System of Electrode Placement in EEG
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
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 spikewave 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
Electroencephalography (EEG) ® E. g. Brief absence seizure in an 18 -year-old patient with primary generalized epilepsy
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 seizure in the light of proximity to
Neuroimaging ® Structural neuroimaging ® Functional neuroimaging
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
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)
Functional Neuroimaging ® Principles ® When in diagnosis of epilepsy: 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
Functional Neuroimaging ® Modalities available: Positron Emission Tomography (PET) ® Single Photon Emission Computerized Tomography (SPECT) ® Functional Magnetic Resonance Imaging (f. MRI) ® ® Mostly used in: Planning epilepsy surgery ® Identifying epileptogenic region ® Localizing brain function ®
Venn Diagram
Seizure Therapy Seizure Specific Treatments Anticonvulsant Surgery General Treatment Reassurance and Education
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
Anticonvulsants ® Suppress repetitive action potentials in epileptic foci in the brain ® Sodium channel blockade ® GABA-related targets ® Calcium channel blockade ® Others: neuronal membrane hyperpolarisation
Anticonvulsants Drugs used in seizure disorders Tonic-clonic and partial Cabamazepine Phenytoin Valproic acid Absence seizures Ethosuximide Valproic acid Clonazepam Myoclonic seizures Valproic acid Clonazepam Status Epilepticus Short term control Diazepam Lorazepam Infantile Spasms Prolonged therapy Phenytoin Phenobarbital Corticotropin Corticosteroids
Adverse Effects ® Teratogenicity ® Neural tube defects ® Fetal hydantoin syndrome ® Overdosage toxicity ® Life-threatening toxicity ® Hepatotoxicity ® Stevens-Johnson ® Abrupt syndrome withdrawal
Medical Intractability ® No known universal definition ® Risk factors ® High seizure frequency ® Early seizure onset ® Organic brain damage ® Established ® Operability after adequate drug trials
Surgery ® Curative ® Catastrophic unilateral or secondary generalised epilepsies of infants and young children Sturge-Weber syndrome ® Large unilateral developmental abnormalities ® ® Palliative ® Vagal nerve stimulation
Surgical Outcome ® Medical Intractability ® A well-localised epileptogenic zone ® EEG, ® Low MRI risk of new post-operative deficits
References 1. 2. 3. 4. 5. 6. 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, 2 nd edn. Butterworth Heinemann. Manford M, 2003, Practical Guide to Epilepsy, Butterworth Heinemann.
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