Epilepsy and Seizure

Question 1

Most common site of pathology that causes seizure

Answer 1

The temporal lobe, in particular the hippocampus, is the most common site of pathology in adults and adolescents with seizures that include alteration of awareness, accounting for as many as two thirds of cases.

Question 2

Hippocampal sclerosis

Answer 2

histopathologically defined pattern of cell loss along with astrogliosis in the hippocampal formation.

List-learning measures tend to be the most sensitive to hippocampal pathology.

Question 3

Three main features for classifying seizures:

Answer 3

Focal - have onset originating in networks limited within one cerebral hemisphere and may be discretely localized within the hemisphere, more widely distributed within the hemisphere, or originate in subcortical structures.

Generalized

Undetermined

Question 4

What is a seizure?

Answer 4

a transient occurrence of signs and/or symptoms due to abnormal excessive or synchronous neuronal activity in the brain

Question 5

A diagnosis of epilepsy is made when:

Answer 5

There have been at least two unprovoked seizures, at least 24 hours apart

or after a single unprovoked seizure when the risk for another is known to be high (>60%) based on other medical factors (e.g., positive imaging findings), or an epilepsy syndrome has been diagnosed (e.g., childhood absence epilepsy).

Question 6

New onset epilepsy in a previously healthy adult is uncommon, and often associated with…

Answer 6

Primary CNS neoplasm, neurovascular event, trauma,
infection, or autoimmune disorders (may be associated with primarily temporal lobe pathology)

Question 7

Neonatal seizures are frequently associated with…

Answer 7

Hypoxic ischemic encephalopathy, 35–45%

Question 8

What often contributes to childhood epilepsy?

Answer 8

malformations of cortical development (MCD) and low-grade brain tumors

Question 9

Types of malformations of cortical development

Answer 9

• abnormal neuronal and glial proliferation or apoptosis (programmed cell death)
• abnormal neuronal migration
• abnormal cortical organization

Question 10

Causes of increased mortality in epilepsy in the absence of other mortality risk factors include:

Answer 10

• SUDEP (sudden unexplained death in epilepsy)
• unintentional injury (e.g., falls, drowning)
• suicide
• complications associated with status epilepticus.

Question 11

Seizure variables associated with severity of cognitive impairment include

Answer 11

• Seizure frequency
• type epilepsy risk factor (e.g., tumor, central nervous system [CNS] infection, trauma)
• younger age of seizure onset - number of antiepileptic drugs (AEDs).

Question 12

Temporal lobe epilepsy (TLE) with hippocampal sclerosis (HS)

Answer 12

• associated with a history of febrile seizures as an infant or toddler
• difficult to treat; as many as 1/3rd of patients with TLE develop medically intractable seizures.

Question 13

Behavior associated with temporal lobe epilepsy (TLE)

Answer 13

Auras - GI symptoms (“butterflies” in the stomach) or psychic phenomena (e.g., déjà vu)

alteration of awareness and gradual alteration of awareness, but not necessarily with loss of consciousness

repetitive movements of the hands, tongue, mouth, or lips. Repetitive movements of the hand are typically ipsilateral to the side of seizure onset

Speech patterns during or immediately following a seizure in TLE are significant for lateralization
- absence of speech is not necessarily lateralizing, but the ability to continue speaking clearly is associated with non–language dominant temporal lobe onset
- aphasic or dysnomic speech typically following dominant TLE seizures.

Postictal confusion and/or fatigue is common, and the duration can vary from a few
minutes to a few hours

Secondary generalization to a tonic-clonic seizure occurs up to 50% of the time in TLE.

Question 14

Resection surgery to address TLE increases risk of

Answer 14

Decreased efficiency in learning and memory
word-finding deficits (if language dominant)
visual field defects

Question 15

Childhood absence epilepsy

Answer 15

Primary generalized epilepsy in that it involves widespread neural networks at seizure onset

most common epilepsy syndromes in childhood (15%)

self-limiting epilepsy syndrome - seizures typically do not
persist past adolescence

seizures can persist into adolescence and adulthood and, in approximately 15% of cases, can develop into juvenile myoclonic epilepsy.

Age of onset is typically between 3 and 8 years, with the peak occurring around 6 years.

high incidence of comorbid learning and/or attention disturbance.

involve frontal and subcortical networks involved in regulating attention.

CAE is associated with attention problems that adversely affect encoding and storage of new information, with relatively greater impact on visuospatial and nonverbal memory.

Question 16

Behaviors of childhood absence epilepsy

Answer 16

alteration in awareness is apparent - described as “staring.”

possible minor motor automatisms, such as eyelid fluttering or lip movements,

Question 17

Landau-Kleffner syndrome

Answer 17

Progressive encephalopathy (sometimes referred to as acquired epileptic encephalopathy) that particularly affects language.

onset between the ages of three and seven years

Characterized by language and cognitive deficits:
- progressive aphasia begins with development of receptive language impairment and verbal auditory agnosia, followed by gradual development of expressive language deficits.
- progressive cognitive impairments: including regression of overall intellectual ability and deficits in attention

Typically, the course does not typically include spontaneous recovery of language

Question 18

Lennox-Gastaut syndrome

Answer 18

referred to as “encephalopathic generalized epilepsy syndrome” due to the progressive and severe cognitive impairments/regression that are typically observed.

may present with multiple different seizure types

Risk factor: history of infantile spasms, MCD, neurocutaneous disorders (e.g., tuberous sclerosis [TS] complex), CNS infection (meningitis, encephalitis), and hypoxic-ischemic injury.

Question 19

Rasmussen syndrome

Answer 19

characterized by a progressive unilateral encephalopathy and medically refractory seizures (drug resistant)

the most commonly reported presentation is in children between 3 and 14 years.

premorbid cognitive and behavior development is normal.

Once seizures begin, a progressive course generally results in loss of cognitive skills related to the side of seizure onset (e.g., language decline in dominant hemisphere; visuospatial decline in nondominant hemisphere). Ultimately, there is nearly complete loss of function in the affected hemisphere, including hemiparesis.

Question 20

Electrophysiological findings in Landau-Kleffner syndrome implicate…

Answer 20

the language-dominant perisylvian region but can be bilateral and also include frontal lobe pathology.

Question 21

Treatment of Rassmusen syndrome

Answer 21

aggressive surgical intervention (modified functional hemispherectomy) is often considered the best course.

Question 22

Factors associated with normal IQ

Answer 22

less severe epilepsy & more focal seizure onset

Question 23

risk factors for low IQ

Answer 23

age of seizure onset, with earlier onset associated with lower overall IQ

independent of other factors thought to be related to cognitive decline, such as seizure frequency or location of seizure onset.

localization of seizure onset may not have the expected influence on IQ; for example, verbal–nonverbal intellectual skill discrepancies have not been found to be a lateralizing sign in focal epilepsy syndromes.

Question 24

Risk factors for IQ decline

Answer 24

seizure severity and treatment with multiple medications (which may also be a result of seizure severity)

Question 25

encephalopathic epilepsies

Answer 25

Landau-Kleffner syndrome

Lennox-Gastaut syndrome

Rasmussen syndrome

Question 26

What tends to be more highly associated with attention problems than other kinds of seizures?

Answer 26

Absence seizures

Question 27

Attention difference in ADHD vs. secondary to seizures

Answer 27

More difficulties with sustained attention are observed in children with epilepsy,

compared with more complex and divided attention problems in children with ADHD who do not have epilepsy.

Question 28

Attention problems with AEDs

Answer 28

Attention problems are not accounted for by medication effects alone.

Problems with attention often precede development of seizures, suggesting that there may be antecedent neurobiological insult or developmental

Question 29

What deficits are among the commonly cited side effects of anticonvulsant medications?

Answer 29

processing speed

because AEDs reduce hyperexcitability and neuronal transmission by increasing inhibitory action (e.g., GABA-ergic inhibition) or reducing availability and function of excitatory neurotransmitters (e.g., glutamate).

Question 30

crowding effect

Answer 30

early-onset epileptic lesions that provoke reorganization of language from the left to the right hemisphere or engage bilateral support of language, visuospatial deficits can be observed.

When there is an early injury to the primary language system, those resources are shifted to “back-up” systems in homologous areas in the contralateral hemisphere, but at a cost to functions that would have been mediated by those areas in the absence of injury.

This is supported by a large body of literature that identifies relatively weak visuospatial function in epilepsy patients with early left-hemisphere injury and who are right- hemisphere dominant for language.

Question 31

Febrile seizure

Answer 31

seizure brought on by a fever

4–5% of children will have at least one febrile seizure.

do not constitute epilepsy and are not usually treated with AEDs.

but they are a risk factor for later development of unprovoked seizures, particularly within one year and seizures arising from the temporal lobe.

Question 32

The highest rate of new onset seizures occurs those…?

Answer 32

5 years or younger

Question 33

The second highest rate of new onset seizures occurs in those…?

Answer 33

over 70 years old

Question 34

Although seizures can occur at any age, new onset epilepsy in adolescents and adults is less common and more frequently associated with..

Answer 34

new onset neurological risk factor (e.g., brain tumor).

Question 35

Is there a lateralizing mood effect in temporal lobe epilepsy (TLE)?

Answer 35

No. studies show higher level of anxiety and depression in persons with epilepsy regardless of laterality of seizure onset

Question 36

Supplementary motor area focal seizures often include:

Answer 36

Fencing posture with extension of contralateral upper extremity

Tonic posturing

speech arrest and unusual sounds

Question 37

What % of the population will experience at least one seizure in their lifetime?

Answer 37

5%

Question 38

Classification of Seizures

Answer 38

Question 39

Neonatal Period (Syndromes)

Answer 39

Neonatal Seizures

Familial neonatal epilepsy

Ohtahara syndrome (Rare)

Early Myoclonic encephalopathy

Question 40

Infancy (Syndromes)

Answer 40

Febrile seizures

Self-limited infantile epilepsy

Self-limited familial infantile epilepsy

West syndrome

Dravet syndrome (Mutation in SCN1 Gene)

Myoclonic epilepsy of infancy

Myoclonic encephalopathy in non-progressive disorders

Epilepsy of infancy with migrating focal seizures

Question 41

Childhood (Syndromes)

Answer 41

Febrile seizures, Febrile seizures plus Early onset childhood occipital epilepsy

Epilepsy with myoclonic atonic seizures (formerly “astatic” seizures)

Childhood absence epilepsy (CAE)

Self-limited epilepsy with centrotemporal spikes (BECTS)

Late-onset childhood occipital epilepsy

Autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE)

Epilepsy with myoclonic absences

Lennox-Gastaut syndrome

Epileptic encephalopathy with continuous spike and wave during sleep (CSWS; also referred to as Electrical Status Epilepticus during Slow Sleep (ESES)

Landau-Kleffner syndrome

Question 42

Adolescent/Adults

Answer 42

Juvenile absence epilepsy

Juvenile myoclonic epilepsy (JME)

Epilepsy with generalized tonic-clonic seizures alone

Autosomal dominant epilepsy with auditory features (ADEAF)

Other familial temporal lobe epilepsies

Question 43

Variable Age of Onset (Syndromes)

Answer 43

Familial focal epilepsy with variable foci

New onset refractory status epilepticus (NORSE)

Febrile illness related epilepsy syndrome (FIRES)

Progressive myoclonus epilepsies

Reflex epilepsy

Question 44

Distinctive constellations/Surgical Syndromes

Answer 44

Mesial temporal lobe epilepsy with hippocampal sclerosis

Rasmussen syndrome

Gelastic seizures with hypothalamic hamartoma

Hemiconvulsive-hemiplegic epilepsy

Question 45

Nosyndromic Epilepsies (metabolic reasons)

Answer 45

Malformations of cortical development

Neurocutaneous syndromes (tuberous sclerosis complex, Sturge-Weber)

Tumor, infection, trauma, vascular, antenatal/perinatal insults, etc.

Question 46

Epileptogenic Network

Answer 46

Areas that propagate electrical abnormalities.

Dual pathology (synaptic reorganizations vs. cell loss in the hippocampus along with the presence of other abnormalities).

Question 47

Malformation of Cortical Development (MCD) cause by abnormal neuronal and glial proliferation or apoptosis

Answer 47

Decreased proliferation/increased apoptosis (microcephalies)

Increased proliferation/decreased apoptosis with normal cell types (megalencephalies)

Question 48

Abnormal proliferation in MCD

Answer 48

Non-neoplastic (e.g., hamartomas of tuberous sclerosis, focal cortical dysplasia, hemimegencephaly)

Neoplastic (e.g., dysembryoplastic
neuroepithelial tumor, or DNET, ganglioglioma)

Question 49

MCD causes by abnormal neuronal migration

Answer 49

Lissencephaly and subcortical band heterotopias

Cobblestone brain malformation with congenital muscular dystrophy

Heterotopia (subependymal heterotopias, subcortical [other than band] heterotopias)

Question 50

MCD causes by abnormal cortical organization

Answer 50

Polymicrogyria and schizencephaly

Cortical dysplasia without balloon cells

Microdysgenesis

Question 51

MCD not otherwise specified

Answer 51

Malformations due to inborn errors of metabolism

Other unclassified malformations (e.g., sublobar dysplasia)

Question 52

Genetic contributions to epilepsy

Answer 52

monogenic genes (e.g., causes epilepsies or syndromes with epilepsy as the core symptom)

neurodevelopment related (e.g., associated with gross brain developmental)

epilepsy related genes (e.g., genes associated with gross physical or other systemic abnormalities that may be accompanied by epilepsy).

Question 53

What presents as a greater risk factor for development of TLE in infants?

Answer 53

Febrile Seizures

Other risk factors include:
- perinatal complications
- hypoxic ischemic injury
- CNS injury
- limbic encephalitis

Question 54

Difference between non-language dominant vs. dominant epilepsy

Answer 54

Absence of speech does not necessarily suggest lateralization. However, the ability to speak during seizure is associated with non-dominant language temporal lobe onset.

Question 55

What type of speech patterns are common after TLE?

Answer 55

aphasic or dysnomic (e.g., trouble creating speech patterns to communicate)

Question 56

Common surgical interventions of TLE

Answer 56

Standard temporal lobectomy

Modified anterior temporal lobectomy

selective amygdalahippocampectomy

*associated with risk including decreased efficiency in learning/memory, word finding, visual field

Question 57

Thermal laser ablation

Answer 57

Applied to medial TLE – reduce seizure control and cognitive morbidity, but more studies are needed.

Question 58

Neurosttimulation system (“Neuropace”)

Answer 58

holds promise to those who are not candidate for surgery.

Subdural electrodes are implants in the brain over the epileptic region, then device is programmed to monitor (like pacemaker), and then triggers stimulation when abnormal activity occurs.

Question 59

What type of epilepsy is childhood absence epilepsy (CAE)?

Answer 59

generalized epilepsy

Accounts for ~15% of all childhood epilepsy and is among the most common.

Do not persist past childhood (e.g., self-limiting)

SLC2A1 gene

Age of onset: 3 to 8 years with peak at 6 years.

Behaviors:
- staring
- eyelid fluttering (automatism)
- unaware
- may immediately resume previous activity
- cannot be redirected during the event

*May developing into juvenile myoclonic epilepsy.

Question 60

Medications for CAE

Answer 60

ethosuximide (Best for seizure relief with sig. Side effects related to cognitive function).
lamotrigine
valproic acid

Question 61

Key Differences between Dravet vs. Lennox Gastaut vs. Landau-Kleffner vs. Rasmussen

Answer 61

Age of onset: Dravet syndrome starts earliest in infancy, while the others typically begin in early childhood.

Seizure symptoms: Each syndrome has distinct seizure patterns, with Dravet and Lennox-Gastaut having multiple types, while Landau-Kleffner and Rasmussen have more specific seizure presentations.

Distinguishing features: Dravet is associated with a specific gene mutation, Landau-Kleffner with language impairment, Lennox-Gastaut with developmental delay, and Rasmussen with progressive hemiplegia.

Type of seizure: The seizure types vary across syndromes, reflecting their different underlying mechanisms.

Cognitive deficits: All syndromes involve cognitive impairments, but they manifest differently - from general developmental delays in Dravet to specific language deficits in Landau-Kleffner

Question 62

What are some of the psychological issues present in individuals with epilepsy?

Answer 62

Driving

Underemployment

reduced overall sense of independence

Control

Question 63

What are reasons why employment is an issues in individuals with epilepsy?

Answer 63

When epilepsy emerges in childhood, creates education problems due to cognitive and learning difficulties further limiting choices in the future.

Work options are reduced due to safety reasons, limited work opportunities due to transportation reasons.

Question 64

What are the common side effects of AED

Answer 64

Problems with psychomotor speed
attention
memory
*some meds have more specific side effects (e.g., topiramate in language)

Question 65

What is the most common underlying pathology in pediatric epilepsy?

Answer 65

Malformation of Cortical development

It is estimated that 25–40% of intractable or medication resistant epilepsy is attributable to malformations of cortical development, and that up to 75% of children with MCDs have epilepsy.