Topiramate: Complete Drug Monograph

Pharmacokinetic Profile

Half-Life

19–25 h (monotherapy); 9–12 h with enzyme inducers

Metabolism

Minimal hepatic (~15–20%); hydroxylation, hydrolysis, glucuronidation

Protein Binding

13–17% (low)

Bioavailability

80–95% (oral; unaffected by food)

Volume of Distribution

0.6–0.8 L/kg

Clinical Information

Drug Class

Sulfamate-substituted monosaccharide anticonvulsant; carbonic anhydrase inhibitor

Available Doses

Tablets: 25, 50, 100, 200 mg; Sprinkle Capsules: 15, 25 mg

Route

Oral

Renal Adjustment

CrCl <70: reduce dose by 50%

Hepatic Adjustment

Levels may increase; mechanism unclear; use with caution

Pregnancy

Teratogenic — oral clefts, SGA risk

Lactation

Excreted in breast milk; use with caution

Schedule / Legal Status

Rx only (not scheduled)

Generic Available

Yes

Topiramate Indications

Indication	Approved Population	Therapy Type	Status
Partial-onset seizures	≥2 years	Monotherapy or adjunctive	FDA Approved
Primary generalized tonic-clonic seizures	≥2 years	Monotherapy or adjunctive	FDA Approved
Lennox-Gastaut syndrome	≥2 years	Adjunctive	FDA Approved
Migraine prevention	≥12 years	Preventive monotherapy	FDA Approved

Topiramate is a second-generation broad-spectrum anticonvulsant approved by the FDA in 1996. Its multiple mechanisms of action make it effective across several seizure types. The migraine prevention indication was expanded in 2025 to include patients 12 years and older (previously adults only). Topiramate is also a component of the combination product Qsymia (phentermine/topiramate ER) for chronic weight management, though this indication falls under a separate product label.

Off-Label Uses

Alcohol use disorder: Reduces heavy drinking days and promotes abstinence; supported by RCTs. Evidence quality: Moderate (APA guidelines mention topiramate as an option).

Binge eating disorder: Reduces binge frequency and promotes weight loss. Evidence quality: Moderate (placebo-controlled trials).

Essential tremor: Second-line option when beta-blockers and primidone are inadequate. Evidence quality: Moderate (RCTs available).

Neuropathic pain / diabetic neuropathy: Limited evidence for efficacy. Evidence quality: Low.

Cluster headache prophylaxis: Case series only. Evidence quality: Very Low.

Dose

Topiramate Dosing

Epilepsy — Monotherapy (Adults & ≥10 Years)

Clinical Scenario	Starting Dose	Maintenance Dose	Maximum Dose	Notes
Partial-onset or GTCS — new diagnosis, monotherapy	25 mg BID (Week 1)	200 mg BID (400 mg/day)	400 mg/day	Titrate per FDA PI Table 1: increase by 50 mg/day weekly for weeks 1–4, then by 100 mg/day for weeks 5–6 Can be taken without regard to meals; do not break tablets (bitter taste)

Epilepsy — Adjunctive Therapy

Clinical Scenario	Starting Dose	Maintenance Dose	Maximum Dose	Notes
Partial-onset seizures or LGS — adults (≥17 y)	25–50 mg/day	200–400 mg/day in 2 divided doses	400 mg/day	Titrate by 25–50 mg/day weekly; doses >400 mg/day have not shown additional benefit for partial-onset seizures Slower titration (25 mg/week) reduces cognitive side effects
GTCS — adults (≥17 y), adjunctive	25–50 mg/day	400 mg/day in 2 divided doses	400 mg/day	Same titration schedule as partial-onset seizures
Epilepsy — pediatric adjunctive (2–16 y)	25 mg nightly (or 1–3 mg/kg/day)	5–9 mg/kg/day in 2 divided doses	400 mg/day	Titrate by 1–3 mg/kg/day at 1–2 week intervals Sprinkle capsule formulation available for younger children

Migraine Prevention (≥12 Years)

Clinical Scenario	Starting Dose	Maintenance Dose	Maximum Dose	Notes
Migraine prophylaxis — episodic or chronic	25 mg nightly (Week 1)	50 mg BID (100 mg/day)	100 mg/day	Titrate by 25 mg/day weekly over 4 weeks (FDA PI Table 3); not indicated for acute migraine treatment Some patients respond to 50 mg/day; higher doses increase side effects without added migraine benefit

Special Populations

Clinical Scenario	Starting Dose	Maintenance Dose	Maximum Dose	Notes
Renal impairment (CrCl <70 mL/min)	50% of usual dose	50% of usual dose	50% of usual max	Topiramate clearance reduced; accumulation risk Monitor for adverse effects; slower titration advisable
Hemodialysis supplement	Supplemental dose after dialysis			Topiramate is cleared by dialysis; supplement based on dialysis duration and clearance rate

Clinical Pearl: Slow Titration Reduces Cognitive Side Effects

Cognitive adverse reactions (word-finding difficulty, psychomotor slowing, concentration problems) are the most functionally disabling effects of topiramate and are strongly correlated with titration speed and dose. In migraine trials, titrating by 25 mg/day weekly (the recommended schedule) produced substantially fewer cognitive complaints than faster titration used in older epilepsy trials (100–200 mg/day weekly increments). At the recommended migraine dose of 100 mg/day with standard titration, cognitive complaints affected approximately 22% of patients compared to 10% on placebo (FDA PI).

Topiramate Pharmacology

Mechanism of Action

Topiramate has multiple mechanisms that contribute to its broad-spectrum anticonvulsant and migraine-preventive effects. It blocks voltage-dependent sodium channels, reducing sustained high-frequency neuronal firing. It enhances GABA-A receptor activity at a non-benzodiazepine, non-barbiturate site, increasing chloride channel opening frequency. It antagonizes glutamate at AMPA/kainate receptors, reducing excitatory neurotransmission. Additionally, topiramate weakly inhibits carbonic anhydrase (isoenzymes II and IV), which contributes to its metabolic acidosis profile, kidney stone risk, and paresthesia side effects. The combination of these mechanisms — dampening excitatory pathways while enhancing inhibitory tone — underpins its efficacy across focal, generalized, and Lennox-Gastaut seizure types and in migraine prevention.

ADME Profile

Parameter	Value	Clinical Implication
Absorption	Bioavailability 80–95%; Tmax 2–4 h; food delays but does not reduce absorption	Can be dosed without regard to meals; rapid and predictable onset of absorption
Distribution	Vd 0.6–0.8 L/kg; protein binding 13–17%; saturable binding to erythrocyte carbonic anhydrase	Low protein binding eliminates displacement-type interactions (unlike phenytoin/valproate); free drug monitoring rarely needed
Metabolism	Minimal hepatic metabolism (~15–20% of dose); six inactive metabolites via hydroxylation, hydrolysis, glucuronidation; fraction metabolized increases to ~50% with enzyme-inducing AEDs	Enzyme inducers (phenytoin, carbamazepine) increase topiramate clearance by up to 50%, potentially requiring higher doses; topiramate itself is a weak CYP2C19 inhibitor and mild CYP3A4 inducer
Elimination	t½ 19–25 h (monotherapy), 9–12 h (with enzyme inducers); 70–80% excreted unchanged in urine; renal clearance ~14 mL/min (tubular reabsorption)	Linear kinetics allow predictable dose-concentration relationship; twice-daily dosing adequate; reduce dose by 50% in renal impairment (CrCl <70); supplemental dosing required after hemodialysis

Topiramate Side Effects

≥10% Very Common

Adverse Effect	Incidence	Clinical Note
Paresthesia (tingling in extremities)	35–51%	Dose-dependent; related to carbonic anhydrase inhibition and metabolic acidosis; usually mild and may attenuate over weeks
Fatigue / asthenia	14–19%	More common during titration; dose-related; may persist into maintenance phase
Anorexia / decreased appetite	11–14%	Dose-dependent; contributes to weight loss effect; monitor nutritional status in pediatric patients
Dizziness	10–15%	Usually transient; more frequent with rapid titration; advise caution with driving
Weight loss	5–16%	Dose- and duration-dependent; mean 2–6 kg over 6 months at therapeutic doses; higher baseline weight predicts greater loss
Cognitive dysfunction (word-finding, psychomotor slowing)	10–28%	Most disabling side effect; strongly dose- and titration-rate dependent; higher at >400 mg/day; verbal fluency most affected

1–10% Common

Adverse Effect	Incidence	Clinical Note
Somnolence	7–10%	Dose-related; most common during titration
Nausea	6–10%	May improve by taking with food; dose-related
Diarrhea	9–11%	Generally self-limiting
Taste perversion (dysgeusia)	7–19%	Carbonated beverages commonly taste altered; dose-dependent
Difficulty with memory	7–11%	Part of the broader cognitive profile; dose-dependent; often attenuates but may persist
Difficulty with concentration / attention	3–10%	Dose-dependent; worse during titration (3–9%) than maintenance (~1%)
Nervousness / anxiety	3–8%	May contribute to discontinuation; dose-related
Depression / mood problems	3–9%	Dose-related; monitor for suicidal ideation (AED class warning)
Speech disorders / language problems	3–7%	Word-finding difficulty is the hallmark cognitive complaint of topiramate

Serious Serious (Regardless of Frequency)

Adverse Effect	Estimated Frequency	Typical Onset	Required Action
Metabolic acidosis (hyperchloremic, non-anion gap)	23–67% (dose-dependent)	Any time during treatment	Measure baseline and periodic serum bicarbonate; if persistent, reduce dose or discontinue; consider alkali treatment if continuing.
Acute myopia / secondary angle-closure glaucoma	Rare	Typically within 1 month of initiation	Discontinue topiramate immediately; ophthalmology referral; standard glaucoma treatments (e.g., miotics) may worsen condition.
Oligohidrosis / hyperthermia	Uncommon (mainly pediatric)	Variable; hot weather exposure	Monitor body temperature and sweating in children; ensure adequate hydration; consider discontinuation if severe.
Kidney stones (nephrolithiasis)	1.5% (2–4x untreated)	Months to years	Increase fluid intake; avoid combination with other carbonic anhydrase inhibitors or ketogenic diet; evaluate if renal colic symptoms appear.
Hyperammonemia / encephalopathy (especially with valproate)	14–26% (dose-dependent; higher with VPA)	Variable	Measure ammonia level if lethargy, vomiting, or mental status changes; discontinue if encephalopathy occurs.
Hypothermia (with concomitant valproic acid)	Rare	Variable	Monitor core temperature when co-prescribed with valproate; can occur with or without hyperammonemia.
Decreased bone mineral density (pediatric)	Documented in pediatric trials	Months of chronic use	Correlated with metabolic acidosis severity; monitor growth and consider DEXA in long-term pediatric users.
Fetal toxicity (oral clefts, SGA)	Oral clefts ~1.4%; SGA dose-dependent	First trimester exposure	Counsel women of childbearing potential; effective contraception required; if pregnancy planned, consider alternative agent.

Discontinuation Discontinuation Rates

Adjunctive Epilepsy (200–400 mg/day)

~11%

Top reasons: Somnolence, dizziness, anxiety, concentration difficulty, fatigue, paresthesia; rate increases above 400 mg/day

Monotherapy Epilepsy (400 mg/day)

~21%

Top reasons: Memory difficulty, fatigue, insomnia, somnolence, paresthesia

Reason for Discontinuation	Incidence	Context
Cognitive effects (memory, concentration, word-finding)	3–6%	Most common reason overall; strongly dose-related; often the deciding factor for patients
Fatigue / somnolence	2–4%	More common during titration; may improve with dose stabilization
Paresthesia	2–3%	Despite high incidence, most patients tolerate tingling; rarely the primary reason for stopping
Mood / psychiatric effects	1–3%	Depression, anxiety, nervousness; dose-related

Managing Cognitive Side Effects

Cognitive dysfunction — particularly word-finding difficulty, psychomotor slowing, and impaired verbal fluency — is the most functionally limiting adverse effect of topiramate. Risk is strongly dose-dependent and titration-rate-dependent. To minimize impact, titrate slowly (25 mg/day weekly increments), use the lowest effective dose, and educate patients that many cognitive effects improve during the maintenance phase. If cognitive complaints are persistent and disabling, dose reduction or switching to an alternative agent (e.g., valproate for epilepsy, propranolol for migraine) should be considered.

Int

Topiramate Drug Interactions

Topiramate has a relatively modest interaction profile compared to older anticonvulsants due to its low protein binding and predominantly renal elimination. However, clinically important interactions exist: enzyme-inducing AEDs reduce topiramate levels by up to 50%, topiramate mildly induces CYP3A4 (reducing estrogen exposure from oral contraceptives), and it weakly inhibits CYP2C19. The combination with valproate warrants particular attention due to the risk of hyperammonemia.

MajorValproic Acid / Divalproex

MechanismBoth inhibit carbonic anhydrase; VPA inhibits topiramate clearance; topiramate may increase ammonia production via unclear mechanism

EffectHyperammonemia with or without encephalopathy; hypothermia; VPA levels may decrease ~11%

ManagementMonitor ammonia levels if altered mental status; monitor core temperature; consider topiramate alternatives if hyperammonemia recurs

FDA PI

MajorCombined Oral Contraceptives

MechanismTopiramate induces CYP3A4 metabolism of ethinyl estradiol at doses >200 mg/day (18–30% decrease in EE exposure); minimal effect at ≤200 mg/day

EffectReduced contraceptive efficacy and increased breakthrough bleeding, especially at doses >200 mg/day

ManagementAt ≤200 mg/day topiramate: monitor for breakthrough bleeding. At >200 mg/day: use higher-estrogen OCP (≥50 mcg EE) or non-hormonal contraception

FDA PI

ModeratePhenytoin / Carbamazepine

MechanismEnzyme inducers increase hepatic metabolism of topiramate by up to 50%, reducing its half-life to 9–12 h; topiramate may modestly increase phenytoin levels

EffectReduced topiramate efficacy due to lower plasma levels

ManagementMay need higher topiramate doses (guided by clinical response); monitor phenytoin levels when adding or removing topiramate

FDA PI

ModerateLithium

MechanismTopiramate 100 mg every 12 hours (200 mg/day) decreased lithium AUC by ~20% in healthy volunteers

EffectPotential subtherapeutic lithium levels at high topiramate doses

ManagementMonitor lithium levels when co-administered with high-dose topiramate; adjust lithium dose as needed

FDA PI

ModerateOther Carbonic Anhydrase Inhibitors (e.g., acetazolamide, zonisamide)

MechanismAdditive carbonic anhydrase inhibition

EffectIncreased risk of metabolic acidosis, kidney stones, and oligohidrosis

ManagementAvoid combination when possible; if combined, monitor serum bicarbonate closely and ensure adequate hydration

FDA PI

ModerateHydrochlorothiazide (HCTZ)

MechanismHCTZ increases topiramate Cmax by 27% and AUC by 29%

EffectIncreased topiramate exposure and potential for dose-dependent adverse effects

ManagementMonitor for increased topiramate side effects when HCTZ is added; dose adjustment may be needed

FDA PI

MinorCNS Depressants / Alcohol

MechanismAdditive CNS depression

EffectEnhanced sedation, cognitive impairment, and psychomotor slowing

ManagementCounsel patients to avoid or minimize alcohol; exercise caution with concurrent sedative medications

FDA PI

MinorPioglitazone

MechanismTopiramate inhibits CYP2C19, reducing pioglitazone clearance; pioglitazone decreases topiramate AUC by ~15%

EffectModest bidirectional PK changes; generally not clinically significant at standard doses

ManagementMonitor glycemic control; dose adjustment rarely needed

FDA PI

Mon

Topiramate Monitoring

Serum Bicarbonate Baseline, then periodically
Routine Topiramate causes hyperchloremic, non-anion gap metabolic acidosis via carbonic anhydrase inhibition. Average bicarbonate decrease is ~4 mEq/L at 400 mg/day. If persistent acidosis develops, reduce dose, discontinue, or consider alkali supplementation.
Renal Function Baseline, then periodically
Routine Topiramate is primarily renally eliminated. Dose reduction required if CrCl <70 mL/min. Monitor for nephrolithiasis symptoms (flank pain, haematuria).
Cognitive Function Each visit during titration, then periodically
Routine Screen actively for word-finding difficulty, psychomotor slowing, memory impairment, and concentration problems. These effects are dose-related and may not be spontaneously reported. Consider dose reduction if functionally limiting.
Ammonia Level If altered mental status or encephalopathic signs
Trigger-based Particularly important when co-prescribed with valproic acid. Hyperammonemia can be asymptomatic; measure ammonia if lethargy, vomiting, or confusion develop.
Ophthalmologic Assessment If visual symptoms arise
Trigger-based Acute myopia with secondary angle-closure glaucoma can occur within the first month. Any acute decrease in visual acuity or ocular pain requires urgent assessment. Visual field defects have also been reported.
Body Temperature / Sweating (Pediatric) Ongoing, especially in hot weather
Routine Oligohidrosis and hyperthermia risk is highest in children. Counsel parents to monitor sweating and core temperature in warm environments.
Growth (Pediatric) Every 3–6 months (long-term therapy)
Routine Topiramate can slow height and weight gain in children. Chronic metabolic acidosis may reduce growth rates and bone mineral density. Monitor height, weight, and consider DEXA scanning.
Mood / Suicidality Each visit, especially early in therapy
Routine AED class-wide suicidality risk; depression and mood problems are dose-related with topiramate. Screen for depression, anxiety, and behavioral changes at every visit.

Contraindications & Cautions

Absolute Contraindications

Known hypersensitivity to topiramate or any excipient in the formulation (standard clinical practice; the 2025 FDA PI Section 4 formally lists no contraindications, but hypersensitivity universally precludes use)

Relative Contraindications (Specialist Input Recommended)

Pregnancy or planned pregnancy — increased risk of oral clefts (~1.4%) and SGA; effective contraception should be used; discuss risk-benefit if topiramate is medically necessary
History of nephrolithiasis — topiramate increases kidney stone risk 2–4x via carbonic anhydrase inhibition; weigh benefits against stone recurrence risk
Severe hepatic impairment — plasma concentrations may be unpredictably elevated
Pre-existing metabolic acidosis — topiramate will worsen acidosis; closely monitor bicarbonate
Concurrent valproic acid — increased risk of hyperammonemia, encephalopathy, and hypothermia

Use with Caution

Renal impairment (CrCl <70 mL/min) — reduce dose by 50%; topiramate accumulation risk
Elderly patients — more likely to have reduced renal function; may need dose adjustment
Patients on ketogenic diet — combined acidosis and stone risk with topiramate
Hot weather / vigorous exercise (children) — oligohidrosis risk; ensure hydration
Abrupt withdrawal — may precipitate seizures even in patients without epilepsy; always taper gradually

FDA Fetal Toxicity Warning Fetal Toxicity

Topiramate can cause fetal harm. Data from pregnancy registries show increased risk of major congenital malformations, including cleft lip and/or cleft palate (oral clefts), and of being small for gestational age (SGA). SGA appears dose-dependent and is greater in infants of women who continued topiramate into the third trimester. Animal studies confirm craniofacial defects at clinically relevant doses. Women of childbearing potential should use effective contraception. If pregnancy is planned, discuss switching to an alternative agent with lower teratogenic risk.

FDA Class-Wide Regulatory Warning Suicidality with Antiepileptic Drugs

All AEDs, including topiramate, carry an increased risk of suicidal thoughts and behavior (approximately 2x placebo risk). Patients should be monitored for emergence of depression, suicidal ideation, or unusual behavioral changes, particularly during early months of therapy and after dose adjustments.

Patient Counselling

Purpose of Therapy

Topiramate is a medication that helps prevent seizures or reduce migraine frequency. It works by calming overactive electrical signals in the brain. It does not cure epilepsy or migraine but provides ongoing protection when taken regularly. The dose is started low and increased gradually to reduce side effects.

How to Take

Take topiramate at the same times each day (usually morning and evening), with or without food. Swallow tablets whole — do not break or chew them as the taste is very bitter. If using sprinkle capsules for a child, the capsule can be opened and the contents sprinkled onto a teaspoon of soft food, then swallowed immediately without chewing. Drink plenty of water throughout the day to reduce kidney stone risk.

Thinking & Memory Changes

Tell patientYou may notice difficulty finding the right words, slower thinking, or trouble concentrating. These effects are most noticeable when the dose is being increased and often improve once the dose is stable. They are worse at higher doses.

Call prescriberIf thinking problems are severe enough to interfere with work, school, or daily tasks, or if they do not improve after 4–6 weeks at a stable dose.

Tingling Sensations (Paresthesia)

Tell patientTingling in the hands, feet, or around the mouth is very common and is usually mild. It tends to be more noticeable at higher doses and often improves with time. Staying well hydrated may help.

Call prescriberIf tingling is severe, painful, or accompanied by numbness or weakness.

Weight Loss & Appetite Changes

Tell patientReduced appetite and weight loss are common effects. While some patients welcome this, unintended significant weight loss should be discussed. Ensure adequate nutrition, especially in children.

Call prescriberIf you lose more than 5–10% of your body weight unintentionally, or if a child is not growing or gaining weight as expected.

Eye Problems

Tell patientRarely, topiramate can cause sudden blurred vision or eye pain, usually within the first month. This is a medical emergency related to increased pressure inside the eye.

Call prescriberSeek immediate medical attention for any sudden decrease in vision or eye pain.

Pregnancy & Contraception

Tell patientTopiramate can cause birth defects, especially cleft lip and palate. Women who could become pregnant must use effective contraception. At higher doses, topiramate may reduce the effectiveness of hormonal contraceptives.

Call prescriberIf you become pregnant, plan to become pregnant, or miss a period. Do not stop topiramate on your own — discuss alternative medications with your prescriber first.

Kidney Stones & Hydration

Tell patientTopiramate increases the risk of kidney stones. Drink at least 6–8 glasses of water daily. Avoid dehydration, especially in hot weather or during exercise.

Call prescriberIf you experience severe flank pain, blood in the urine, or difficulty urinating.

Overheating in Children

Tell patientChildren taking topiramate may sweat less than normal, which can lead to dangerous overheating, especially in hot weather. Ensure your child stays cool and well-hydrated.

Call prescriberIf your child develops a high temperature, appears flushed, or stops sweating during hot weather or physical activity.

Ref

Sources

Regulatory (PI / SmPC)

Janssen Pharmaceuticals, Inc. TOPAMAX (topiramate) Tablets and Sprinkle Capsules — Full Prescribing Information. Revised March 2025. FDA Label Primary source for all FDA-approved indications, dosing schedules, contraindications, warnings, and adverse reaction incidence data.
Vivus Inc. QSYMIA (phentermine and topiramate extended-release) — Full Prescribing Information. Revised 2024. FDA Label Source for topiramate safety data in the weight management context and hyperammonemia incidence data in adolescents.

Key Clinical Trials

Silberstein SD, Neto W, Schmitt J, Jacobs D. Topiramate in migraine prevention: results of a large controlled trial. Arch Neurol. 2004;61(4):490-495. doi:10.1001/archneur.61.4.490 Pivotal RCT establishing topiramate 100 mg/day as the optimal dose for migraine prevention, with dose-dependent adverse effects.
Glauser TA, Cnaan A, Shinnar S, et al. Ethosuximide, valproic acid, and lamotrigine in childhood absence epilepsy. N Engl J Med. 2010;362(9):790-799. doi:10.1056/NEJMoa0902014 Major pediatric epilepsy trial contextualizing topiramate among second-generation AEDs for childhood seizure disorders.
Kramer CK, Leitao CB, Pinto LC, Canani LH, Azevedo MJ, Gross JL. Efficacy and safety of topiramate on weight loss: a meta-analysis of randomized controlled trials. Obes Rev. 2011;12(5):e338-347. doi:10.1111/j.1467-789X.2010.00846.x Meta-analysis of 10 RCTs (3,320 participants) quantifying topiramate-associated weight loss and adverse event rates.

Guidelines

Silberstein SD. Topiramate in migraine prevention: a 2016 perspective. Headache. 2017;57(1):165-178. doi:10.1111/head.12997 Comprehensive clinical review positioning topiramate in migraine prevention algorithms with evidence synthesis and practical guidance.
Oskoui M, Pringsheim T, Billinghurst L, et al. Practice guideline update summary: Pharmacologic treatment for pediatric migraine prevention. Neurology. 2019;93(11):500-509. doi:10.1212/WNL.0000000000008105 AAN/AHS guideline for pediatric migraine prevention — Level B recommendation for topiramate in children and adolescents.
Kanner AM, Ashman E, Gloss D, et al. Practice guideline update summary: Efficacy and tolerability of the new antiepileptic drugs I and II. Neurology. 2018;91(2):74-81. doi:10.1212/WNL.0000000000005756 AAN/AES guideline comparing newer AEDs — supports topiramate as effective for focal and generalized seizures.

Mechanistic / Basic Science

Shank RP, Gardocki JF, Streeter AJ, Maryanoff BE. An overview of the preclinical aspects of topiramate: pharmacology, pharmacokinetics, and mechanism of action. Epilepsia. 2000;41(Suppl 1):S3-S9. doi:10.1111/j.1528-1157.2000.tb02163.x Foundational review of topiramate’s multiple mechanisms of action: sodium channel blockade, GABA enhancement, glutamate antagonism, and carbonic anhydrase inhibition.
Mula M. Topiramate and cognitive impairment: evidence and clinical implications. Ther Adv Drug Saf. 2012;3(6):279-289. doi:10.1177/2042098612455357 Review of topiramate cognitive side effects with discussion of risk factors, dose-response relationships, and management strategies.

Pharmacokinetics / Special Populations

Perucca E. Pharmacokinetic profile of topiramate in comparison with other new antiepileptic drugs. Epilepsia. 2003;44(Suppl 4):8-17. doi:10.1046/j.1528-1157.44.s4.2.x Definitive PK review: bioavailability, protein binding, linear kinetics, renal elimination, and effect of enzyme-inducing co-medications on topiramate clearance.
Doose DR, Walker SA, Gisclon LG, Nayak RK. Single-dose pharmacokinetics and effect of food on the bioavailability of topiramate. J Clin Pharmacol. 1996;36(10):884-891. doi:10.1002/j.1552-4604.1996.tb04756.x Primary PK study establishing topiramate’s dose-proportional kinetics, t½ of ~21 h, and lack of clinically significant food effect on bioavailability.
Manitpisitkul P, Curtin CR, Shalayda K, et al. Pharmacokinetics of topiramate in patients with renal impairment, end-stage renal disease undergoing hemodialysis, or hepatic impairment. Epilepsy Res. 2014;108(5):891-901. doi:10.1016/j.eplepsyres.2014.03.001 PK study in special populations confirming 50% dose reduction in renal impairment and providing hemodialysis supplementation data.