Exam 3- Seizures Flashcards

Question 1

Q

Seizure

Answer

A

Characterized by excessive or hypersynchronous discharge of neurons in the cortex. Paroxysmal (sudden, rapid onset)

Question 2

Q

Epilepsy

Answer

A

Chronic disorder characterized by recurrent, spontaneous seizures

Question 3

Q

Potential causes for epilepsy

Answer

A

Head trauma, stroke, CNS lesion, metabolic disorder, genetic

70-80% of epilepsy has no known cause

Question 4

Q

Can drug withdrawal and overdose cause epilepsy?

Answer

A

No, they can precipitate a seizure but not epilepsy.

Question 5

Q

Ion channels and neuronal firing

Answer

A

Na channels opening leads to Na influx and depolarization/ action potential. K channels openings leads to K efflux and hyperpolarization.
Na and K impose limits on neuronal firing. They are targets for ASDs.

Question 6

Q

Neuronal networks and surround inhibition: Glutamate- GABA interactions

Answer

A

Excitatory neurons (glutamate) activates other excitatory neurons and inhibitory neurons (GABA), which prevent glutamate from activating surrounding circuits.

Question 7

Q

Biochemical properties of K and Na effects on seizures

Answer

A

Biochemical properties of K and Na channels limit frequency of neuronal firing, thereby preventing repetitive firing of neurons that characterize seizures.

Question 8

Q

What are brain circuits balanced by?

Answer

A

Excitatory (glutamate) and inhibitory (GABA) neurotransmitters

Question 9

Q

Two major categories of seizures

Answer

A

Focal onset and generalized onset

Question 10

Q

Focal seizures

Answer

A

Begin focally in one hemisphere, often preceded by aura.

Question 11

Q

Focal seizures without altered awareness

Answer

A

Motor seizures that cause change in muscle activity
Sensory seizures that cause changes in any one of the senses
Autonomic seizures cause changes in a part of the nervous system that automatically controls body functions.
Psychic seizures can cause changes in how people think, feel, or perceive

Question 12

Q

Focal seizure with altered awareness (complex partial)

Answer

A

Usually lasts 1-2 minutes. 
Starts in an area of the temporal lobe
May be preceded by an aura (or warning)
Automatisms (involuntary, automatic behaviors) 
Unaware of surroundings or may wander.

Question 13

Q

Focal seizures with secondarily generalization: loss of consciousness

Answer

A

Starts in one area but then spreads to both sides of brain

Short-lasting but may take longer to recover

Question 14

Q

Generalized seizures

Answer

A

Begins in central brain (thalamus) region and spreads to both hemispheres. 
Tonic-clonic
Absence (petit mal)
Myoclonic
Atonic

Question 15

Q

Tonic-clonic (grand mal) seizure

Answer

A

Tonic phase- all muscles stiffen. Patient often loses consciousness and falls, Tongue or cheek may be bitten
Clonic phase- arms and legs begin to jerk rapidly. Consciousness returns but patient may be drowsy, confused. May take 30 min for patient to return to normal.

Question 16

Q

Absence seizure

Answer

A

Brief lapse in awareness, blank stare, rapid recovery

Bursting activity of calcium channels give rise to abnormality in thalamo-cortical circuit.

Question 17

Q

Myoclonic seizure

Answer

A

Consciousness preserved, short muscle jerks

Question 18

Q

Atonic seizure

Answer

A

Consciousness preserved. Loss of muscle strength bilaterally, patient falls

Question 19

Q

Status epilepticus

Answer

A

An epileptic seizure of longer than 5 minutes or 2 or more seizures within a 5 min period without person returning to normal.
Seizure can be tonic-clonic, complex partial, or absence
Mortality 22%
Causes severe brain inflammation and injury, functional deficits and epilepsy

Question 20

Q

What was the first anti-seizure drug?

Answer

A

Phenobarbital in 1912

Question 21

Q

Anti-seizure agents

Answer

A

Suppress the rapid and excessive firing of neurons during seizures.
Prevent the spread of seizures within the brain
Only provide symptomatic treatment with many AE
Have not been demonstrated to alter the course of epilepsy

Question 22

Q

Mechanisms of anti-seizure agents

Answer

A

Ion channels- drugs that enhance Na channel inhibition, inhibit T-type and voltage-activated calcium channels, activates K channels.
Receptors- GABA, Glutamate
Actions on synaptic vesicle protein (SV2A) or special Ca channels

Question 23

Q

Drugs that enhance Na channel closure

Answer

A

Agents prolong refractory period of sodium channel, thereby preventing repetitive neuronal firing
Target sodium channels opening and closing rapidly
Phenytoin, carbamezapine, lamotrigine, valproate, zonisamide, ruflinamide
Strong specificity for focal and secondarily generalized seizures.

Question 24

Q

Drugs that inhibit T-type calcium channels

Answer

A

Include ethosuximide, valproic acid

Effective against absence seizures, which involve abnormal calcium currents originating in the thalamus

Question 25

Q

Calcium channel drugs

Answer

A

Pregabalin and Gabapentin inhibit high voltage activated calcium channels. They are structurally related to GABA but their main action is to inhibit calcium channels and glutamate release

Question 26

Q

Potassium channel drugs

Answer

A

Ezogabine (only drug in class)
Activates voltage gated K channels
Stabilizes membrane potential and reduces brain excitability

Question 27

Q

Drugs that facilitate GABA mediated inhibition moa

Answer

A

GABA-A receptor is a chloride channel. Opening this channel hyperpolarizes neuron, making is less likely to fire.

Question 28

Q

Drugs acting on the GABA/ benzodiazepine receptor MOA

Answer

A

Benzodiazepines (diazepam)- bind to receptor and facilitates GABA mediated Cl flux. Positive allosteric modulators.
Barbiturates- also bind to GABA/ Benzo receptor to facilitrate chloride flux. Limited by their sedative properties.

Question 29

Q

Receptor targeting anti-seizure drugs: glutamatergic inhibitors

Answer

A

Drugs that diminish glutamatergic excitation
Felbamate, topiramate
Secondary effects to block glutamate receptor function (less excitation)
Perampanel selectively blocks glutamate receptors. 1st drug in class for tx of epilepsy.

Question 30

Q

Problems with sodium channel drugs

Answer

A

Phenytoin- saturation kinetics. Small increase in dose may lead to large increase in plasma concentrations and AE (hirsutism, cardiac and CNS depression).
Carbamazepine- induces more P450 system thereby decreasing its own 1/2 life and requiring more frequent dosing.

Question 31

Q

Problems with benzos/barbiturates

Answer

A

Limited due to dizziness, sedation, and abuse
Withdrawal- increased seizure frequency w/ abrupt d/c
Diazepam useful for aborting seizure acutely (status epilepticus)

Question 32

Q

Anti-seizure drugs and pregnancy

Answer

A

Possible teratogenic effects of valproate, phenytoin, topiramate
Minimize exposure to pregnant women, but they still need to be treated.

Question 33

Q

Epidiolex

Answer

A

FDA approved for Dravet and Lenox-Gastaut syndromes

Purified, plant derived cannabidiol (CBD)

Question 34

Q

Abnormal neurophysiology in seizures

Answer

A

Surround inhibition may be overcome, leading to increased neuronal discharge.

Increased extracellular K, weakening hyperpolarization
Rapidly firing neurons may activate glutamate receptors
Decreased GABA inhibition is a major factor. (there is no longer GABA inhibiting glutamate from exciting surrounding neurons)

Question 35

Q

Valproic acid MOA

Answer

A

enhance sodium channel inhibition, inhibit T-type calcium channels, increase GABA synthesis, and inhibit GABA metabolism

Question 36

Q

Gabapentin MOA

Answer

A

Facilitates GABA release (minor) and blocks calcium channels inhibiting neurotransmitter release (major)

Question 37

Q

Vigabatrin MOA

Answer

A

Inhibits GABA metabolism

Question 38

Q

Tiagabine MOA

Answer

A

Inhibits GABA reuptake by neurons and glia

Question 39

Q

Felbamate and Topiramate GABA MOA

Answer

A

Facilitate actions of GABA on receptor site

Question 40

Q

Stiripentol MOA

Answer

A

Facilitates GABA action

Question 41

Q

1st generation ASDs

Answer

A

Phenobarbital 
Primidone (metabolized into phenobarbital)
Phenytoin
Carbamazepine
Valproate

Question 42

Q

1st generation ASDs

Answer

A

Phenobarbital 
Primidone (metabolized into phenobarbital)
Phenytoin
Carbamazepine
Valproate

Question 43

Q

Phenobarbital forms

Answer

A

PO and IV

Question 44

Q

Phenobarbital metabolism

Question 45

Q

Phenobarbital- enzyme induction?

Answer

A

Yes CYP2C9/19 enzyme inducer

Question 46

Q

Phenobarbital half life

Answer

A

Very long 1/2 life (2-5 days)

Needs loading dose

Question 47

Q

Phenobarbital AE

Answer

A

Drowsiness, sedation, ataxia, CNS depression
Cognitive and behavioral, altered bone metabolism
Respiratory and CV effects with IV use

Question 48

Q

Phenobarbital therapeutic concentrations

Answer

A

19-40mcg/ml

Question 49

Q

How do you increase phenobarbital doses?

Answer

A

Increase every 2-3 weeks by 30-60 mg

Question 50

Q

Phenytoin forms

Answer

A

PO and IV

Question 51

Q

Phenytoin metabolism

Answer

A

Hepatic (CYP2C19)

Question 52

Q

Phenytoin protein bounding

Answer

A

Highly protein bound!
Check free concentration (1-2mcg/mL) in patients with low albumin, on other highly PPB drugs (valproate), patients with decreased renal function

Question 53

Q

Is phenytoin an enzyme inducer?

Answer

A

Yes, STRONG 3a4/5

Question 54

Q

Phenytoin dose-concentration profile

Answer

A

Non-linear

Question 55

Q

Phenytoin AE

Answer

A

Dose related- drowsiness, sedation, ataxia, nystagmus

Idiosyncratic- gingival hyperplasia, hirsutism, anemia, lymphadenopathy, altered bone metabolism, rash

Question 56

Q

Phenytoin IV administration

Answer

A

Max rate 50 mg/min but slower is safer

Question 57

Q

Phenytoin BBW

Answer

A

CV risk with rapid infusion (hypotension)

Question 58

Q

What should you monitor for for Phenytoin IV LD?

Answer

A

Hypotension and bradycardia

Question 59

Q

Phenytoin therapeutic concentration

Answer

A

10-20 mcg/ml

Question 60

Q

Rules to adjust phenytoin doses to avoid toxicity

Answer

A

7/11 rule
SS plasma level <7 mcg/mL - increase dose by 100 mg/day
SS plasma level 7-11 mcg/mL- increase dose by 50 mg/day
SS plasma level >11 mcg/mL- increase dose by 30 mg/day

Question 61

Q

Phenytoin patient counseling

Answer

A

Need regular dentist visits
Need labs
Do not crush ER capsules
Keep seizure diary

Question 62

Q

Carbamazepine forms

Answer

A

PO and IV

Question 63

Q

Carbamazepine metabolism

Answer

A

Hepatic, auto inducer (induces own metabolism)

Question 64

Q

Carbamazepine enzyme inducer?

Answer

A

Yes, 3A3/4/5

Answer 64

A

Dose related- drowsiness, sedation, diplopia, N

Idiosyncratic- hyponatremia, leukopenia, aplastic anemia, rash, decreased calcium absorption

Answer 65

A

CV risk w/ rapid infusion

Fatal skin reactions/ Stevens-Johnson syndrome (HLA-B*1502 predictive)

Answer 66

A

PO and IV

Answer 67

A

Highly protein bound (90%)

PPB is saturable at higher doses

Answer 68

A

Absence, simple, complex, and complex partial

Answer 69

A

Doses may be increased weekly by 5-10 mg/kg/day until effective or toxicity occurs

Answer 70

A

40-120 mcg/ml

Answer 71

A

Dose related- tremor, drowsiness, sedation, N/V, hepatotoxicity
Idiosyncratic- weight gain, hair loss, pancreatitis, decreased ca absorption

Answer 72

A

Teratogen

Birth defects- spina bifida

Answer 73

A

Depakene, Stavzor, Depakote, Depacon

Answer 74

A

Lab- liver function tests, CBC, drug levels

Monitor for weight gain, increased appetite

Answer 75

A

CV risk with rapid infusion

Hepatotoxicity

Answer 76

A

Limited dosage forms available
All are hepatically metabolized
DDI
Significant AE

Answer 77

A

GABA receptor agonist

Answer 78

A

Prolongs Na channel inactivation, thereby preventing repetitive neuronal firing

Answer 79

A

Fetal hydantoin syndrome

Answer 80

A

Small increase in dose can lead to large increases in concentration and toxicity

Answer 81

A

Prolongs Na channel refractory period thereby preventing repetitive neuronal firing

Answer 82

A

Inhibits T-type calcium channels

1st line for absence seizures

Answer 83

A

Lennox-Gastaut Syndrome (LGS)
and partial seizures (focal)
Only used when benefit outweighs the risk due to hepatotoxicity and aplastic anemia
Informed consent must be signed prior to use

Answer 84

A

Facilitates actions of GABA at receptor site, decreases glutamate excitation

Answer 85

A

Partial seizures w/wo secondary generalized seizures (tonic-clonic)

Answer 86

A

Renal 100%

Answer 87

A

Dizziness, drowsiness, sedation, weight gain

Answer 88

A

drowsiness, but may be the least sedating

Answer 89

A

Rash, serious skin rxns

Factors associated with rash- age <16, VPA use, high doses

Answer 90

A

On EIASD’s (phenobarbital, phenytoin, carbamazepine) W/O valproate= 25 mg QD for two weeks, increase after

On EIASD’s WITH valproate- 25 mg every other day for 2 weeks, then increase

Answer 91

A

Enhances Na channel closure, thereby preventing repetitive neuronal firing.
Acts on high voltage Ca channels

Answer 92

A

Myoclonic, tonic-clonic

May be helpful in LG

Answer 93

A

Facilitates actions of GABA at receptor site, decreases glutamate excitation

Answer 94

A

Mental slowing, drowsiness, ataxia, dizziness, renal calculi, acute glaucoma, weight loss, oligohidrosis, paresthesia`

Answer 95

A

Tonic-clonic or partial (focal) seizures

Adjunct treatment for LGS

Answer 96

A

Slower titration for patients with decreased renal function or not on EIASD

Answer 97

A

Inhibits GABA reuptake

Answer 98

A

Hepatic metabolism

Answer 99

A

Highly protein bound (>96%)

Answer 100

A

Adjunct for partial (focal) seizures

Answer 101

A

Dizziness, asthenia/lack of energy, somnolence, Nausea, nervousness

Answer 102

A

PO and IV

Answer 103

A

Adjunctive therapy for partial, myoclonic, and generalized tonic-clonic seizures

Answer 104

A

25% hydrolyzed

75% renal

Answer 105

A

headache, dizziness, somnolence, depression

Answer 106

A

monotherapy for adults with partial seizures

Adjunct therapy for partial seizures in adults and children >4

Answer 107

A

Dizziness, fatigue,. HA, hyponatremia ( more common than with carbamazepine), rash, diplopia/double vision, somnolence

Answer 108

A

Elderly patients on diuretics

Answer 109

A

Enhance Na channel closure

T-type calcium channels

Answer 110

A

Adjunct for partial seizures

Answer 111

A

Extensively bound to erythrocytes
Hepatic metabolism
Very long t1/2 (50-69 hours)
Up to two weeks to reach SS

Answer 112

A

Sulfonamide compound; possible skin reactions, Stevens-Johnson syndroms
Drowsiness, N/V, ataxia, kidney stones, anorexia, paresthesia

Answer 113

A

Phenytoin prodrug
Rapidly converted into PHT
Water soluble, not dissolve din propylene glycol, ethanol

Answer 114

A

CV risk with rapid infusion

Answer 115

A

Inhibit voltage gated calcium channels, inhibiting glutamate release

Answer 116

A

Renal metabolism

>90% bioavailable

Answer 117

A

Adjunctive treatment for partial onset seizures

Answer 118

A

Dizziness, weight gain, edema, somnolence, ataxia, dry mouth, blurred vision

Answer 119

A

PO and IV

Answer 120

A

Adjunct in partial onset seizures w/ epilepsy

Adjunct of primary GTC seizures >4 yo

Answer 121

A

Diplopia, HA, dizziness, N, ataxia, syncope, hypersensitivity rxns

Answer 122

A

Caution in patients with cardiac conduction problems (increases PR interval)

Answer 123

A

Na channel closure

Answer 124

A

Hydrolysis, not CYP dependent

Answer 125

A

Somnolence, loss of coordination, dizziness, gait disturbances, QT shortening, ataxia`

Answer 126

A

Adjunctive for LGS >4 years old

Answer 127

A

Inhibit GABA metabolism

Answer 128

A

Adjunct for adults with refractory complex partial seizures who have inadequately responded to other medications
Monotherapy for peds 1 month- 2 years with infantile spasms

Answer 129

A

Renal excretion

Answer 130

A

Permanent vision loss, anemia, somnolence, peripheral neuropathy, weight gain, edema

Answer 131

A

Permanent bilateral concentric visual field loss in 30% or more of patients
Need vision testing at baseline and every 3 months
SHARE rems progam

Answer 132

A

It is the only 1,5 benzo available (the rest are 1,4)

Answer 133

A

Adjunct for LGS in >2 years old

Answer 134

A

Somnolence, lethargy, dizziness, mood changes, irritability, more behavioral effects in children
Tolerance less likely than with other benzos

Answer 135

A

Selective AMPA type glutamate receptor noncompetitive antagonist

Answer 136

A

Adjunct for partial onset > 12 yo

Answer 137

A

In severe renal or hepatic disease

Answer 138

A

70% urine elimination

Extensively metabolized by CYP then glucuronidation

Answer 139

A

Dizziness, somnolence, HA, fatigue

Answer 140

A

Using with EIASDs significantly reduces T1/2. May need to start at higher doses and titrate up faster

Answer 141

A

Voltage gated sodium channel blocker

Answer 142

A

Hydrolysis

90% urine excretion

Answer 143

A

Adjunct for partial onset

Answer 144

A

Unknown, displays high affinity for sv2A in brain

Answer 145

A

Adjunct for partial onset > 16 yo

Answer 146

A

Hepatic metabolism

Answer 147

A

Seizures in LGS or Dravet syndrome >2 years old

Answer 148

A

Somnolence, decreased appetite, diarrhea, transaminase elevations, fatigue, malaise, asthenia, rash, insomnia, infections

Answer 149

A

Pts >2 yo who are taking clobazam for Dravet

Answer 150

A

Hepatic

Highly PPB

Answer 151

A

Capsules must be swallowed whole with water during a meal

Answer 152

A

modulation of GABA channels and decrease excitatory currents by inhibiting sodium currents

Answer 153

A

partial onset seizures in adults

Answer 154

A

metabolism by glucuronidation and oxidation

very long t1/2

Answer 155

A

Contraindicated in familal short QT syndrome

Answer 156

A

diplopia, N, somnolence, dizzinesss, fatigue, HA

Answer 157

A

tx of seizures with Dravet syndrome >2 yo

Answer 158

A

Valvular HD

FINTEPLA REMS program

Answer 159

A

hepatic metabolism

Answer 160

A

Decreased appetite, somnolence, sedation, lethargy, diarrhea, constipation, abnormal ECG, fatigue, malaise, asthenia, ataxia, balance disorder, gait disturbances, drooling, HTN, salivary hypersecretion, pyrexia, upper RTI, vomiting, weight loss, fall, status epilepticus

Answer 161

A

Dizziness, sedation, N/V

Answer 162

A

Behavioral changes, N/V

Answer 163

A

dizziness, paresthesias, weight loss, drink fluids

Answer 164

A

Dizziness, rash, N/V

Answer 165

A

Peripheral edema, dizziness, weight gain

Answer 166

A

Dizziness, HA, irregular heart beat

Answer 167

A

Somnolence, dizziness

Answer 168

A

Permanent vision loss

Answer 169

A

Carbamazepine, phenytoin, oxcarbazepine

Answer 170

A

Valproate

Answer 171

A

Phenytoin, carbamazepine, lamotrigine, oxcarbazepine

Answer 172

A

Gabapentin, levetiracetam, pregabalin, topiramate, tiagabine, lacosamide

Answer 173

A

Phenytoin, valproate, gabapentin, levetiracetam

Answer 174

A

Gabapentin

Answer 175

A

Lamotrigine

Answer 176

A

Surgery
Vagal nerve stimulation
Ketogenic diet

Answer 177

A

Start new ASD at a low dose and gradually increase dose. The previous drug should be tapered gradually.

Answer 178

A

Five criteria must be met:

No seizures for 2-5 years
Normal neurological examination
Normal intelligence
Single type of partial or generalized seizure
Normal EEG with treatment

Answer 179

A

Those with 1st pass hepatic metabolism most affected (morning after pill, oral contraceptive)
If choosing to take combined OCP, must contain 50mcg of estrogen at a minimum

Answer 180

A

Contraindicated with enzyme inducers due to VERY strong failure rate

Answer 181

A

Releases progestin and is not affected by hepatic metabolism

Answer 182

A

Injections may need more frequent dosing

Answer 183

A

Gabapentin
Lacosamide
Levetiracetam
Pregabalin
Zonisamide
Valproate
Lamotrigine

Answer 184

A

Carbamezapine
Oxcarbemazepine
Phenobarbital
Phenytoin
Primidone
Topiramate
Felbamate

Answer 185

A

Lamotrigine and valproate

Answer 186

A

Use one ASD if possible at the lowest possible dose. Use the most effective ASD.
Administer at least 4-5 mg/day folic acid

Answer 187

A

Depends on protein binding property of ASD
Risk of sedation, irritability, failure to gain weight
Recommend baby nurse prior to taking ASD
Consider monitoring levels, especially for lamotrigine
No effect on cognitive outcomes

Answer 188

A

Sedation and weight gain

Answer 189

A

Dizziness and diplopia

Maintaining therapeutic doses can be difficult

Answer 190

A

Requires adjustment of lamotrigine dose because of increased lamotrigine levels

Answer 191

A

Doses of the additive drugs to enzyme-inducers will need to be substantially higher because of increased clearance

Answer 192

A

Hypotension, CNS depression

Answer 193

A

Diazepam, Lorazepam, Midazolam

Answer 194

A

Brivaracetam, Fosphenytoin, Lacosamide, Levetiracetam, Phenobarbital, Phenytoin, Topiramate, Valproate

Answer 195

A

Ketamine, Midazolam, Pentobarbital, propofol

Answer 196

A

Depakote 500-750 TID

Answer 197

A

Depakene, Stavzor

500-750 BID

Answer 198

A

Dilantin 100-500 mg QD

Answer 199

A

Keppra, 500-1000mg BID

Answer 200

A

Lamictal 100-200 BID

Answer 201

A

Lyrica, 100-200 bid

Answer 202

A

Neurontin 300-600 TID

Answer 203

A

Topamax 50-100 mg BID

Answer 204

A

Tegretol XR, Carbatrol/Equestrol

200-600 BID

Answer 205

A

Gabapentin, Topiramate, Levetiracetam, Pregabalin, Lacosamide, Vigabatrin, eslicarbazepine, ezogabine, ruflinamide

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Exam 3- Seizures Flashcards

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