Anticonvulsants Pharm 125 PDF

Summary

This document is lecture notes about anticonvulsants. It details different types of seizures and epilepsy and the mechanisms of action for anti-seizure medications. The document details the introduction, different seizure types and mechanisms of action of the different types of antiseizure medications.

Full Transcript

ANTICONVULSANTS
PHARM 125 (PHARMACOLOGY FOR PHARMACY 1)
Ena Elizabeth L. Naoe, MD | HYNITH: BSP 2023 | YEAR 2 SEM 1 | AY 2024-2025

LEGEND
OUTLINE Bold + highlight - DOH medicine access
I. INTRODUCTION program
A. SEIZURE Bold - included in PNF-EML
B. EPILEPSY Orange - Registered with the Philippine FDA,
C. EPILEPSY TYPES but Non-PNF
i. FOCAL Brown - Highlighted during the lecture
ii. GENERALIZED
iii. MYOCLONIC I. INTRODUCTION
iv. ABSENCE A. SEIZURE
D. SEIZURE GENERATION
Transient S/Sx due to abnormal excessive or
i. OVERVIEW OF
synchronous neuronal activity
NEUROTRANSMITTER FLOW
○ Due to various reasons such as infections,
ii. ION-CHANNELS
underlying episode of another condition like
iii. SEIZURE GENERATION
hypo/hypernatremia
II. ANTI-SEIZURE MEDICATIONS
A. DRUG LIST ○ Signs and symptoms - abnormal movements
i. INHIBITION OF VOLTAGE-GATED (generalized jerking of the extremities)
CHANNELS simple symptom - smell burn kahit wala nmn
ii. ENHANCEMENT OF GABA burning = seizure neuronal activity
SYNAPTIC TRANSMISSION ○ abnormal excessive or synchronous neuronal
iii. MODULATION OF GLUTAMATE activities- continuous discharge of corticoneurons
RELEASE = ↑ neuronal activity (↑↓ (-) mechanisms )
B. GENERAL MECHANISM OF ACTION ○ Not all seizures are epilepsy
C. PHENYTOIN
D. CARBAMAZEPINE B. EPILEPSY
E. OXCARBAZEPINE At least two unprovoked seizures occurring >24 hrs
F. LAMOTRIGINE apart
G. LACOSAMIDE ○ Unprovoked - not caused by Sx (fever, metab, etc)
H. GABAPENTIN, PREGABALIN One unprovoked seizure and a probability of further
I. ETHOSUXIMIDE seizures similar to the general recurrence risk (at least
J. PHENOBARBITAL 60%) after two unprovoked seizures, occurring over the
K. BENZODIAZEPINES next 10 years
i. BARBITURATES VS. ○ Ex. brain tumor - ↑↑ chance for seizure coz of
BENZODIAZEPINES leasion = pwede epilepsy
L. LEVETIRACETAM, BRIVARACETAM Diagnosis of an epilepsy syndrome
M. PERAMPANEL ○ Seizure - clinical manifestation of epilepsy
N. TOPIRAMATE ○ not all seizures need medications or Tx; it is
O. ZONISAMIDE
more on the epilepsy syndrome
P. VALPROATE
Q. OTHER MEDICATIONS
i. VIGABATRIN
ii. TIAGABINE
iii. FELBAMATE
R. POCKET GUIDE
III. PHARMACOKINETICS
IV. PHARMACODYNAMICS
V. THERAPEUTIC DRUG MONITORING
VI. QUESTIONS

C. EPILEPSY TYPES

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ANTICONVULSANTS
PHARM 125 (PHARMACOLOGY FOR PHARMACY 1)
Ena Elizabeth L. Naoe, MD | HYNITH: BSP 2023 | YEAR 2 SEM 1 | AY 2024-2025

This is important to know because the medications Most abundant AA in the mammalian brain
will depend on the epilepsy type For learning, memory, cognition
Using Glu - get out of Glu Neuron
i. FOCAL ○ calcium-dependent process - Glu released -> Glu
Only one part of the body has seizure (ex. One part of act on other receptors
brain) Regulate Excitatory - astrocyte (support cells in the
ii. GENERALIZED brain) prevents the overexcitation
○ Reuptake -> astrocyte get Glu -> glutamine
Both brain hemispheres are acting, causing the
synthetase -> convert back to Gln -> transpo to
generalized type of seizures
glutamatergic neuron = cycle repeat
○ It involves all of your extremities
On the other hand, your astrocyte can also give
○ Some focal seizures can be generalized
glutamine to the GABAergic neuron
Ex. start at one part then general
○ GABAergic Neuron - Gln -> glutaminase ->
iii. MYOCLONIC Glutamate -> Glutamine decarboxylase -> GABA
Sudden outbursts of movements or jerking of the -> GABA packaged into vesicle -> exocytosis ->
extremities GABA receptor = inhibitory
In the brain, all of these are balanced
iv. ABSENCE ○ Excitatory + reuptake or inhib process via astocytes
Sudden behavioral arrest ○ Once overexcited or decreased inhibitory
○ E.g. the patient is sleeping and suddenly wakes up occurs, seizure happens
and blank stares then back to usual activity
ii. ION-CHANNELS
D. SEIZURE GENERATION
Population of pathologically excitable neurons
○ Ex. brain tumor - may scar na coz of post-op = flow
of electricity is weird for the excitable neurons +
imbalance in the mechanisms of the brain
Increase in excitatory, mainly glutamatergic activity
through recurrent connections to spread the discharge
○ Imbalance between neuronal excitations and
inhibitions
○ Excitatory = Glutamate
Reduction in the activity of the normally inhibitory
GABAergic projections
Calcium (Ca2+) is important for the release of the
○ Decreased GABA = inhibitory
neurotransmitter (NT)
i. OVERVIEW OF NEUROTRANSMITTER FLOW ○ More Calcium = More NT released via exocytosis
○ presynaptically
Postsynaptically, Na+ opening para may depolarizat
○ If sodium (Na+) is open -> certain magnitude -> Ca
also open
○ Regulate overexcitation - Potassium (K+) to get
out to attain repolarization
○ If you want movement = Na+ & Ca2+
○ If you want depolarization = K+ outflux

II. ANTI-SEIZURE MEDICATIONS
Enhance GABA = more (-)
Glutametergic Neuron - Gln -> glutaminase ->
○ seizures are excitatory events, so GABA to inhibit
Glutamate
+ modulating excite w/ Glu
○ Glutamate = Main excitatory neurotransmitter

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ANTICONVULSANTS
PHARM 125 (PHARMACOLOGY FOR PHARMACY 1)
Ena Elizabeth L. Naoe, MD | HYNITH: BSP 2023 | YEAR 2 SEM 1 | AY 2024-2025

Inhibition of voltage-gated channels Pregabalin (PGB)
○ Not Na+ and Ca2+, but promote K+ (repolar)
Enhancement of GABA synaptic transmission ii. ENHANCEMENT OF GABA SYNAPTIC TRANSMISSION
○ GABA Receptor allosteric modulators GABA-A Receptor Allosteric Modulators
○ GABA uptake inhibitors ○ ↑ membrane hyperpolarization and seizure
○ GABA metabolism inhibitors threshold
Modulation of Glutamate Release ○ ↓ focal firing
○ Diminished synaptic excitation (AMPA, NMDA) ○ Drugs:
diminish the synaptic excitation through our Benzodiazepines (BZDs)
AMPA or NMDA receptors, may Glu that will Attenuate spike-wave discharges
diminish excited neurons Phenobarbital (PB)
○ Modulation of synaptic release (SV2A) Aggravate spike-wave discharges
Modulate the release of GABA through the Felbamate (FBM)
Synaptic Vesicle Protein (SV2A). Primidone (PRM)
○ We choose between modulating the protein Topiramate (TPM)
necessary for release, or modulating the end Carbamazepine (CBZ)
point of the Glu for us to inhibit the action of Glu Aggravate spike-wave discharges
Oxcarbazepine (OxCBZ)
A. DRUG LIST Aggravate spike-wave discharges
Stiripentol (STP)
i. INHIBITION OF VOLTAGE-GATED CHANNELS
Clobazam (CLB)
Prolongation of inactive state of Na+ GABA uptake inhibitors/ GABAtransaminase
○ Block AP + Stabilize neuronal hormones metabolism inhibitors
○ ↓ Neurotransmitter release, focal firing, and ○ ↑ Extrasynaptic GABA levels and membrane
seizure spread hyperpolarization
○ Fast inactivation Drugs ○ ↓ focal firing
Phenytoin (PHT) ○ Aggravate spike-wave discharges
Carbamazepine (CBZ) ○ Drugs:
Lamotrigine (LTG) Tiagabine (TGB)
Felbamate (FBM) Vigabatrin (VGB)
Oxcarbazepine (OxCBZ)
Topiramate (TPM) iii. MODULATION OF GLUTAMATE RELEASE
Valproic Acid (VPA)
AMPA/Kainate Receptor Antagonists
Eslicarbazepine (ESL)
○ ↓ Fast excitatory neurotransmission and focal
Rufinamide (RFM)
firing
Zonisamide (ZNS)
○ Drugs:
Cenobamate (CNB)
Phenobarbital (PB)
○ Slow inactivation Drugs
Topiramate (TPM)
Lacosamide (LCM)
Perampanel (PER)
Positive modulation of K+
NMDA Receptor Antagonists
○ Suppresses bursts of AP + Hyperpolarizes
○ ↓ Slow excitatory neurotransmission
membrane potentials
○ ↓ Excitatory amino acid neurotoxicity
Inhibition of Ca2+
○ Drugs:
○ ↓ Neurotransmitter release (N– and P– types)
Felbamate (FBM)
○ ↓ Slow-depolarization (T-type) and spike-wave
SV2A Protein Ligand
discharges
○ Unknown: may decrease neurotransmitter release
Ethosuximide (ESM)
○ Drugs:
Valproic Acid (VPA)
Levetiracetam (LEV)
Lamotrigine (LTG)
Brivaracetam (BRV)
Gabapentin (GBP)

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ANTICONVULSANTS
PHARM 125 (PHARMACOLOGY FOR PHARMACY 1)
Ena Elizabeth L. Naoe, MD | HYNITH: BSP 2023 | YEAR 2 SEM 1 | AY 2024-2025

Indications
B. GENERAL MECHANISM OF ACTION ○ 2nd Line: Focal and Unknown Onset Seizures
○ 3rd Line: GTC +/- Myoclonic
balance between your excitatory and inhibitory. ○ Status Epilepticus - non-stop seizures, emergency
Half-Life
○ 12 – 36 hr (Long half-life)
Dose
○ Children: 4-7 mg/kg
○ Adults: 300-400 mg/day
ADR
○ Limited clinical use coz very toxic to use and
limiting in terms of S/E.
○ Excessive IV Administration → Cardiac arrhythmia
(Recommended rate: < 50mg/min)
Adjust dose nlng
○ Ataxia, Diplopia, Supor, Hirsutism, Enlargement of
genus
○ Teratogenic: Fetal Hydantoin Syndrome
Do NOT give to pregnant women.
Others
Excitatory - Glu ○ CYP450 Inducer
○ ↓ release of Glu by modulating the ion channel Induces metabolism of CYP450 substrate drugs
○ Drug - inhibit Na+ Channels, Ca2+ Channels, and = lower levels of those drugs.
Protein responsible for release of Glu (SV2A) ○ Nonlinear pharmacokinetics and narrow
therapeutic index
Zero order kinetics.
Smol dose = disproportionate increase in your
plasma concentration = smol TI
○ Formulation dependent
○ 90% mostly bound to albumin
○ Can exacerbate myoclonic seizures.
Na+ Inhibitors = myoclonic seizures worse.

D. CARBAMAZEPINE
Drug Class
○ Fast Sodium Channel Inhibitor
Indications
○ First-line for focal seizures and unknown onset
○ Third-line for generalized motor seizures
Half-life
Inhibitory - GABA. ○ 14-25h
○ ↓ reuptake of GABA through Tiagabine. Dose
○ ↓ the metabolism via the degradation enzyme of ○ Children - 20-30 mg/kg
GABA (GABA-T) through Viagabrin. ○ Adults - 600-1200 mg/day
○ Increase activity of GABA receptors through ADR
Barbiturates, Benzodiazepines. ○ High risk of SJS-TEN (HLA-B*1502 haplotype)
Give at low dose -> check s/e. If rash = stop
C. PHENYTOIN agad so Titrate slowly
Drug Class ○ Water retention -> Hyponatremia (Diabetes
○ Fast Sodium Channel Inhibitor Insipidus)

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ANTICONVULSANTS
PHARM 125 (PHARMACOLOGY FOR PHARMACY 1)
Ena Elizabeth L. Naoe, MD | HYNITH: BSP 2023 | YEAR 2 SEM 1 | AY 2024-2025

○ Leukopenia, Thrombocytopenia, Aplastic Anemia, ○ Cardiac arrhythmia
Agranulocytosis ○ Rare case of reversible chorea if with phenytoin
○ Common - Dizziness Others
Others ○ Synergistic effect with VPA
○ CYP450 Inducer ○ Favorable teratogenic profile - ok for preggers
○ Auto-induction - Drug levels decrease needing to ○ Does not provoke weight gain and ovarian
increase the dose problems (vs VPA)
○ Can exacerbate myoclonic seizures ○ Mood stabilizing properties
○ Metabolite - 10, 11 epoxide ○ Titrate slowly
frequent seizures = no slow to up-titrate
E. OXCARBAZEPINE
G. LACOSAMIDE
Drug Class
Drug Class
○ Fast Sodium Channel Inhibitor (Second Analogue
○ Slow Sodium Channel Inhibitor
of
Indications
Indications
○ First-line for focal seizures and unknown onset
○ First-line for focal seizures and unknown onset
seizures
○ Third-line for generalized motor seizures
○ Can be used for status epilepticus
Half-life
Half-life
○ 1 - 5 hr
○ 13 hr
Dose
Dose
○ Children - 10-40 mg/kg
○ Children - 6-8 mg/kg
○ Adults - 900 - 2,400 mg/day
○ Adult - 300-400 mg/day
ADR
ADR
○ Similar to Carbamazepine
○ Avoided in patients with cardiac condition
○ Some reported weight gain
(prolong PR interval - AV block, bradycardia)
Others
○ Headache, diplopia, dizziness, ataxia
○ Advantages of being titrated upward at a more
Others
rapid rate than Carbamazepine
○ Limited pharmacokinetic interaction
○ Less hepatic enzyme induction
○ Renally excretion
○ Metabolite - Eslicarbazepine
○ IV preparation is notable
○ Prodrug - Needs to be metabolized first to its active
○ Completely absorbed from the GI tract
form
H. GABAPENTIN, PREGABALIN
F. LAMOTRIGINE
Drug Class
Drug Class
○ L-type Calcium Channel Blockers (ɑ2δ -1 protein)
○ Slow Sodium Channel Inhibitor
Regulates the neuronal excitability.
Indications
Nothing abt GABA, it decreases calcium
○ First-line for focal seizures and unknown onset
channels = less release excitatory NT
start first with Lamotrigine but pricey
○ GABA receptor agonists but no mimic GABA
Reco for monotherapy at first + adj as time
Indications
goes by
○ Third-line for focal seizures and unknown onset
○ Second-line for generalized +/- myoclonic
Half-life
Half-life
○ 5-7 hr
○ 15 - 60 hr (Doubles with VPA)
Dose
Dose
○ Gabapentin: Adults - 900-3,600 mg/day
○ Children - 0.5 mg/kg
○ Pregabalin - 150-600 mg/day
○ Adults - 300-500 mg/day
ADR
ADR
○ Somnolence, dizziness, ataxia, fatigue
○ Risk of SJS-TEN (HLA-B*1502 Haplotype)
Others

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PHARM 125 (PHARMACOLOGY FOR PHARMACY 1)
Ena Elizabeth L. Naoe, MD | HYNITH: BSP 2023 | YEAR 2 SEM 1 | AY 2024-2025

○ Renal Excretion Others
○ Absorbed after oral administration and are not ○ CYP450 Inducer
metabolized ○ Hepatic excretion
○ Not bound to plasma proteins ○ 40-60% bound to plasma proteins
○ Tolerance may also develop
I. ETHOSUXIMIDE ○ Pregnancy (hypothrombinemia with hemorrhage)
Drug Class > Vitamin K
○ T-type Calcium Channel Blockers Managed using Vitamin K
lik calcium channel in your thalamus (sight of DO NOT GIVE to pregnant women
seizure generation) ○ Megaloblastic anemia (folate) and osteomalacia
Indications (vit D) on chronic use
○ First-line for absence seizures (sudden behavioral
arrest) K. BENZODIAZEPINES
Not available in the Philippines Examples:
Half-life ○ Clonazepam - Intermediate-acting (6-24h)
○ 20-60 hr ○ Clobazam - Long-acting (>24h)
Dose ○ Diazepam - Long-acting (>24h)
○ Children - 20-40 mg/kg ○ Lorazepam
○ Adults - 750-1,500 mg/day ○ Midazolam - Short-acting (6h)
ADR Drug Class
○ GI complaints (N/V, anorexia) ○ GABA-A receptor agonist (increased frequency of
○ Lethargy, drowsiness, headache Cl- channel opening)
○ Parkinson-like symptoms, photophobia With Benzodiazepines, you increase the
○ Restlessness, agitation, anxiety frequency when GABA channel is open.
Others Indications
○ Absorption appears to be complete with peak ○ CLN: First line for myoclonic (Clonazepam); third
concentration reaching within 3 hours line for GTC +myoclonic +/-absence
○ Not significantly bound to plasma proteins ○ Status epilepticus
Midazolam (IV)
J. PHENOBARBITAL Half-life
Drug Class ○ CLZ 18-50h
○ GABA-A receptor agonist (increased duration of ○ CLB 5-40h
Cl- channel opening) “barbiDURATION” ○ DZP 60-72h
GABA is a Cl receptor = more (-) coz Metabolite: nordiazepam
hyperpolarization = want promote the Dose
opening of the GABA so increase duration of ○ Adults:
opening CLZ 2-10mg/day
Indications CLB 5-40mg/day
○ Third-line for focal, generalized (+/- myoclonic), DZP 2-40mg/day
unknown onset seizures ADR
Not that used compared to benzodiazepines ○ Drowsiness and lethargy
Half-life Titrate to lessen ADR
○ 40-120 hr (Long half-life) ○ Hypotonia, dysarthria, behavioral disturbances,
Dose anorexia, hyperphagia
○ Children: 3-5 (8 for infants) mg/kg ○ Cardiovascular and respiratory depression (IV use)
○ Adults - 90-200 mg/day Not as much compared to barbiturates
ADR Others
○ Sedation ○ Well-absorbed, maximal within 1-4h, redistribute
○ Irritability, hyperactivity, confusion like a highly lipid soluble agents
○ Nystagmus and ataxia at excessive dosage ○ May have tolerance within 1-6 months

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PHARM 125 (PHARMACOLOGY FOR PHARMACY 1)
Ena Elizabeth L. Naoe, MD | HYNITH: BSP 2023 | YEAR 2 SEM 1 | AY 2024-2025

○ Diazepam metabolite: nordiazepam ○ Favorable teratogenic potential - ok preggers

i. BARBITURATES VS. BENZODIAZEPINES
Note: Pregnant Women are given the “L medicines”
Lamotrigine
○ Ok for agitations
Levetiracetam
○ No important interactions
○ May cause agitation
Lacosamide

Are not as teratogenic compared to other
medications

M. PERAMPANEL
Barbiturate Overdose: Coma, Medullary depression
(may cause respiratory arrest) Drug Class
○ Benzodiazepine even at high doses do not reach ○ AMPA antagonist
medullary depression and coma AMPA - glutamate receptor
Benzodiazepines is more used than Barbiturates Indications
○ s/e of benzos not first line for seizures ○ Second-line for focal and unknown onset
○ Third-line for generalized +/ - myoclonic
L. LEVETIRACETAM, BRIVARACETAM ○ Adjunct for status epilepticus
Half-life
Drug Class
○ 105h (long half life)
○ SV2A (synaptic vesicle protein) inhibitor
Dose
SV2A - protein responsible for the exocytosis;
○ Adults: 2-12 mg/day
(-) it prevents the release of levetiracetam
ADR
Indications
○ Somnolence, anxiety, confusion, dizziness, GI
○ First-line for focal seizures, myoclonic, unknown
distress
onset
○ Adverse behavioral reactions, aggression, suicidal
○ Second-line for generalized tonic-clonic seizures
thoughts
Half-life
Others
○ 6-8h
○ Hepatic excretion
Dose
○ Good oral bioavailability
○ Children: 20-60 mg/kg
○ Expensive
○ Adults 500-3,000 mg/day
ADR
N. TOPIRAMATE
○ Sleepiness and dizziness
○ Irritability, depression Drug Class
Others ○ Multiple MOAs: Sodium channel inhibitor, AMPA
○ Renally excreted inhibitor, GABA modulator
○ Well tolerated if initiated slowly Useful for various kinds of seizures; BUT many
○ No important interactions with other side effects
antiepileptic drugs Indications
Easy drug to prescribe ○ Second-line for focal seizures and unknown
BUT high behavioral and mood side effects ○ Third-line for generalized +/- myoclonic, absence
(ex. aggressive, agitated, etc.) Half-life
○ First line if with numerous medical conditions and ○ 20-30h
numerous medicines Dose
Not rly given if w/ psychiatric conditions ○ Adults: 400 mg/day

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PHARM 125 (PHARMACOLOGY FOR PHARMACY 1)
Ena Elizabeth L. Naoe, MD | HYNITH: BSP 2023 | YEAR 2 SEM 1 | AY 2024-2025

ADR ○ Adults: 1000-3000 mg/day
○ Somnolence, fatigue, weight loss, nervousness ADR
○ May precipitate renal calculi (kidney stokes) > can ○ Hepatotoxic
also inhibit carbonic anhydrase Check first for liver problems
○ Cognitive impairment ○ Weight gain during the first months, menstrual
Brain fog, slowing - not recommended for irregularities and PCOS
working patients, progressive ages ○ Sedation, ataxia, tremor (simulate parkinsonism)
Others ○ Rare: pancreatitis
○ Rapidly absorbed after oral administration Others
○ Little binding to plasma proteins ○ CYP450 Inhibitor
○ Undergoes hepatic metabolism
O. ZONISAMIDE ○ Highest teratogenic risk (neural fold defects)

Drug Class
Q. OTHER MEDICATIONS
○ Multiple MOAs: Na+ and Ca+ onhibitor
Indications Vigabatrin
○ Second-line for focal and unknown onset ○ Inhibits GABA transaminases (prevents
○ Third-line for generalized +/- myoclonic, absence degradation)
Half-life Tiagabine
○ 63h ○ Inhibits GABA transporter GAT-1 (prevents
Dose reuptake)
○ Children: 100-600 mg/day Felbamate
○ Adults: Max 600 mg/day ○ NMDA antagonist
ADR ○ Not indicated as first line far any type of seizures
○ Weight-loss ○ High risk for aplastic anemia and liver failure
Prominent side effect Not used as much
○ Somnolence, dizziness, cognitive impairment, GABA inhibitors
ataxia, anorexia, ○ Tiagabin - Transporters
○ Rare: skin rashes ○ Vigabatrin - Degradation
○ High chance for metabolic acidosis and renal
calculi > carbonic anhydrase inhibitor R. POCKET GUIDE
Wary w/ renal disease and respiratory acidosis
Others
○ Renally excreted
○ Well-tolerated
○ Very Expensive

P. VALPROATE
Aka Valproic Acid
Drug Class
○ Multiple MOAs: sodium channel blocker, calcium
channel blocker, potentiates GABA (acts through
glutamic acid decarboxylase)
Indications
○ First-line for generalized +/- myoclonic, absence
○ Second-line for focal and unknown
Half-life
○ 6-15h
Dose
○ Children: 30-60 mg/kg

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PHARM 125 (PHARMACOLOGY FOR PHARMACY 1)
Ena Elizabeth L. Naoe, MD | HYNITH: BSP 2023 | YEAR 2 SEM 1 | AY 2024-2025

III. PHARMACOKINETICS
absorption is extensive with high bioavailability
○ Gabapentin displays a dose-related absorption.
Most ASMs are lipid soluble, allowing them to cross
BBB and are generally widely distributed

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ANTICONVULSANTS
PHARM 125 (PHARMACOLOGY FOR PHARMACY 1)
Ena Elizabeth L. Naoe, MD | HYNITH: BSP 2023 | YEAR 2 SEM 1 | AY 2024-2025

○ Valproate, Gabapentin, Pregabalin are ionized in Choice and dose of medication is dependent on many
serum and their distribution is very dependent on factors including sex, age, medications, comorbidities
the uptake transport (medical and psychiatric)
Degree of Protein Binding varies between drugs General rule is to start in lower dose range and
○ >90% protein bound: PHT, VPA, CLB, CLZ, PMP, TGB uptitrate slowly
○ mediate the amount of side effects, low protein Do not give two medications that use the same MOA
binding = allows more free drug distribution
Undergo Extensive Metabolism, mainly through V. THERAPEUTIC DRUG MONITORING
oxidaton by CYP450 (phase 1) or glucuronidation by
UGTs (phase 2)
○ EXCEPT LEV, PGB, GBP (excreted through kidney,
without metabolism)

For inducers just memo, Carbamazepine,
Phenobarbital, Phenytoin
For inhibitors just memo Valproic acid
VI. QUESTIONS
Is it possible for patients with epilepsy to experience
different kinds of seizures? If yes, is it recommended to
use an ASM that has multiple MOAs?
○ Yes there are some but a very limited amount of
patients experience different types of seizures.
○ First anu common type tas use ASM, ASMs with
multiple MOAs are generally used last coz ↑ S/E
What is the trend when it comes to the similar drugs
(Barbiturates) when used as a sedative and ASM?
○ Sedatives - higher dose, ASMs - light
sedate/control to help not experience seizures
IV. PHARMACODYNAMICS
Goal of Tx : Seizure free state (if possible) with the
fewest S/E
○ Increase seizure threshold without motor
excitability
○ Balance effect + s/e esp Na+ everywhere

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