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Drug Monograph

Carbamazepine (Tegretol)

carbamazepine

Dibenzazepine Anticonvulsant / Analgesic·Oral / IV
Pharmacokinetic Profile
Half-Life
12–17 h (after autoinduction)
Metabolism
CYP3A4 (autoinduction)
Protein Binding
~76%
Bioavailability
~100% (tabs); 89% (XR)
Volume of Distribution
0.8–1.4 L/kg
Therapeutic Range
4–12 mcg/mL
Clinical Information
Drug Class
Dibenzazepine anticonvulsant
Available Doses
Tabs: 200 mg; Chewable: 100 mg; XR: 100, 200, 400 mg; Susp: 100 mg/5 mL; IV
Route
Oral, Intravenous (short-term)
Hepatic Adjustment
Caution; monitor LFTs
Pregnancy
Teratogenic (spina bifida, craniofacial defects)
Black Box Warning
SJS/TEN; Aplastic anaemia / Agranulocytosis
Generic Available
Yes
Rx

Indications

IndicationApproved PopulationTherapy TypeStatus
Partial seizures with complex symptomatologyAll agesMonotherapy or adjunctiveFDA Approved
Generalized tonic-clonic seizuresAll agesMonotherapy or adjunctiveFDA Approved
Mixed seizure patternsAll agesMonotherapy or adjunctiveFDA Approved
Trigeminal neuralgiaAdultsFirst-line analgesicFDA Approved
Acute manic and mixed episodes (bipolar I)Adults (Equetro ER capsules)MonotherapyFDA Approved

Carbamazepine is a first-generation antiepileptic drug with established efficacy for focal and generalised tonic-clonic seizures, and remains the gold-standard pharmacotherapy for trigeminal neuralgia. It is structurally related to tricyclic antidepressants and has a unique pharmacokinetic property — autoinduction of its own metabolism — that requires careful dose adjustment over the first weeks of therapy. Carbamazepine is not effective for absence seizures or myoclonic seizures, and may worsen these seizure types.

Off-Label Uses

Neuropathic pain (other than trigeminal neuralgia) — Used for glossopharyngeal neuralgia, diabetic neuropathy, and post-herpetic neuralgia. Evidence quality: Low–Moderate (limited controlled trials; guideline-supported for selected neuropathic pain subtypes).

Alcohol withdrawal — Used as an alternative to benzodiazepines in select settings. Evidence quality: Moderate (supported by RCTs showing comparable efficacy to benzodiazepines for mild-moderate withdrawal).

Dose

Dosing

Adult and Adolescent Dosing (>12 Years)

Clinical ScenarioStarting DoseMaintenance DoseMaximum DoseNotes
Focal or GTC epilepsy — monotherapy200 mg BID800–1200 mg/day in divided doses1200 mg/day (usual); 1600 mg/day (rare); 1000 mg/day (12–15 yr)Increase by ≤200 mg/day weekly
Target level 4–12 mcg/mL; recheck levels after autoinduction (3–5 wk)
Trigeminal neuralgia100 mg BID or 50 mg QID (suspension)400–800 mg/day1200 mg/dayIncrease by 200 mg/day q12h as needed
Attempt dose reduction q3 months or withdrawal to minimum effective dose
Acute bipolar mania (Equetro ER)200 mg BIDTitrate in 200 mg/day increments to response1600 mg/dayAdjust based on tolerability and clinical response
Only ER capsule formulation (Equetro/Carbatrol) is FDA-approved for bipolar

Pediatric Dosing

Clinical ScenarioStarting DoseMaintenance DoseMaximum DoseNotes
Epilepsy — children 6–12 years100 mg BID (200 mg/day)400–800 mg/day1000 mg/dayIncrease by ≤200 mg/day weekly
TID dosing recommended for suspension
Epilepsy — children <6 years10–20 mg/kg/day in 2–3 divided dosesIncrease weekly to clinical response35 mg/kg/dayUse suspension; administer TID or QID
Start low and increase slowly to minimise CNS effects
Clinical Pearl: Autoinduction

Carbamazepine induces CYP3A4, including its own metabolism. Over the first 3–5 weeks of a fixed dose, clearance increases and plasma levels decline by 30–50%. This means that levels measured early in therapy will overestimate the steady-state level. Recheck levels after 3–5 weeks on a stable dose and adjust upward as needed. The initial half-life of 25–65 hours decreases to 12–17 hours after autoinduction is complete.

PK

Pharmacology

Mechanism of Action

Carbamazepine acts primarily by blocking voltage-gated sodium channels in a frequency- and voltage-dependent manner, selectively inhibiting high-frequency repetitive neuronal firing while preserving normal synaptic activity. It binds to the inactivated state of the sodium channel, stabilising it and reducing the availability of channels for subsequent activation. The active metabolite carbamazepine-10,11-epoxide has comparable anticonvulsant activity to the parent compound and contributes to both efficacy and toxicity. Additional minor effects include potentiation of GABAergic inhibition through modulation of GABA receptors and possible interactions with peripheral benzodiazepine receptors, though the primary mechanism remains sodium channel blockade.

ADME Profile

ParameterValueClinical Implication
AbsorptionBioavailability ~100% (IR tabs); 89% (XR tabs); Tmax: 4–5 h (IR tabs), 1.5 h (suspension), 3–12 h (XR); absorption slow and erraticTake with food to improve tolerance; suspension absorbed faster than tablets (lower starting doses); XR allows BID dosing
DistributionVd 0.8–1.4 L/kg; protein binding ~76% (24% unbound); CSF:serum ratio 0.22; crosses placenta; enters breast milkModerate tissue distribution; free fraction relatively high compared to VPA; brain penetration correlates with unbound fraction
MetabolismCYP3A4 (major) and CYP2C8 (minor) → carbamazepine-10,11-epoxide (active) → epoxide hydrolase → inactive 10,11-dihydrodiol; autoinduction of CYP3A4 complete in 3–5 weeksActive metabolite contributes to efficacy and toxicity; VPA inhibits epoxide hydrolase increasing epoxide levels; potent enzyme inducer affecting many co-administered drugs
EliminationInitial t½ 25–65 h; after autoinduction t½ 12–17 h; 72% urine, 28% faeces; only ~3% excreted unchangedHalf-life shortens dramatically with chronic dosing; dose adjustments needed 3–5 weeks after initiation; similar PK in children and adults
SE

Side Effects

≥10%Very Common
Adverse EffectIncidenceClinical Note
Dizziness44%Most common adverse effect; dose-related; usually improves with dose adjustment or slow titration
Somnolence / drowsiness32%Dose-related; minimise by starting low and titrating slowly; more prominent with suspension (faster absorption)
Ataxia15%Dose-related; correlates with CBZ and CBZ-epoxide levels; assess fall risk in elderly
Nausea / vomiting10–15%Take with food; often improves with continued therapy; more common during titration
Elevated GGT~64%Due to hepatic enzyme induction; not clinically significant and not an indication to stop therapy
1–10%Common
Adverse EffectIncidenceClinical Note
Diplopia / blurred vision~6%Dose-related; correlates with peak levels; XR formulation may reduce by smoothing peaks
Rash (benign)~5%Usually maculopapular; cannot reliably distinguish from SJS/TEN early — discontinue unless clearly not drug-related
Hyponatraemia (SIADH)~5%More common in elderly and with concomitant diuretics; check sodium if confusion, lethargy, or seizure worsening
Headache~5%May improve with dose optimisation
Leucopenia (transient)~2–5%Usually benign and transient; differentiate from serious aplastic anaemia or agranulocytosis
SeriousSerious (Regardless of Frequency)
Adverse EffectEstimated FrequencyTypical OnsetRequired Action
SJS / TEN (BOXED WARNING)1–6 per 10,000 (Caucasian); ~10× higher in Asian populations with HLA-B*1502First few months; 90% within first monthsScreen HLA-B*1502 in Asian ancestry patients before starting; discontinue immediately at first sign of rash
Aplastic anaemia (BOXED WARNING)5–8× general population risk (baseline ~2 per million/yr; CBZ-treated ~10–16 per million/yr)VariableBaseline and periodic CBCs; discontinue if significant bone marrow depression; routine monitoring may not detect early
Agranulocytosis (BOXED WARNING)5–8× general population risk (baseline ~6 per million/yr; CBZ-treated ~30–48 per million/yr)VariableMonitor for fever, sore throat, infection; obtain urgent CBC; most transient leucopenia does NOT progress
DRESS / Multiorgan hypersensitivityRareDays to weeksDiscontinue immediately; presents with fever, rash, lymphadenopathy, organ dysfunction
AV block / cardiac conduction abnormalitiesUncommon; more common in TN patients at high dosesVariableObtain baseline ECG in patients with cardiac history; discontinue if AV block develops
HepatotoxicityRare (ranging from LFT elevations to hepatic failure)VariableMonitor LFTs; discontinue if significant hepatic dysfunction; elevated GGT from enzyme induction is NOT an indication to stop
Suicidality (AED class effect)0.43% (vs 0.24% placebo)As early as 1 weekMonitor for depression, suicidal thoughts, mood changes
DiscontinuationDiscontinuation Rates
Epilepsy Trials
~8–15%
Top reasons: Dizziness, drowsiness, nausea, rash
Trigeminal Neuralgia
Variable
Top reasons: CNS effects (dizziness, ataxia); cardiac effects at high doses
Distinguishing Benign from Serious Rash

Benign maculopapular rash occurs in approximately 5% of patients and typically appears within the first 1–2 months. However, serious SJS/TEN also presents as rash in its early stages and cannot be reliably distinguished from benign rash at onset. All patients should be instructed to report any rash immediately. Carbamazepine should be discontinued at the first sign of rash unless the rash is clearly not drug-related. Risk is markedly higher in HLA-B*1502 carriers (primarily Asian ancestry populations).

Int

Drug Interactions

Carbamazepine is one of the most interaction-prone drugs in clinical use. It is a potent inducer of CYP3A4, CYP2C9, CYP1A2, and UGT enzymes, significantly reducing levels of dozens of co-administered drugs. Conversely, its own metabolism via CYP3A4 is accelerated by other inducers and inhibited by CYP3A4 inhibitors, which can cause toxicity. The active metabolite carbamazepine-10,11-epoxide adds another layer of complexity — drugs that inhibit epoxide hydrolase (notably valproate) increase its levels and may cause neurotoxicity even when CBZ levels appear normal.

MajorCYP3A4 Inhibitors (erythromycin, clarithromycin, ketoconazole, verapamil, diltiazem, grapefruit juice)
MechanismInhibit CYP3A4-mediated CBZ metabolism
EffectCBZ levels increase significantly; risk of neurotoxicity (diplopia, ataxia, nystagmus)
ManagementMonitor CBZ levels closely; use alternative antibiotic (e.g., azithromycin instead of erythromycin/clarithromycin); reduce CBZ dose if needed
FDA PI
MajorOral Contraceptives / Hormonal Contraception
MechanismCBZ induces CYP3A4-mediated metabolism of estrogens and progestogens
EffectContraceptive failure; breakthrough bleeding and unintended pregnancies reported
ManagementUse non-oral or non-hormonal contraception (e.g., copper IUD, depot medroxyprogesterone); if hormonal OCP used, use preparation with ≥50 mcg ethinylestradiol or add barrier method
FDA PI
MajorValproate
MechanismVPA inhibits epoxide hydrolase, blocking breakdown of active CBZ-10,11-epoxide; CBZ induces VPA metabolism
EffectCBZ-epoxide levels increase (neurotoxicity even with “normal” CBZ levels); VPA levels decrease
ManagementMonitor both CBZ and VPA levels; measure CBZ-epoxide if neurotoxic symptoms with normal CBZ level; consider alternative combinations
FDA PI
MajorWarfarin / DOACs
MechanismCBZ induces CYP3A4 and CYP2C9, increasing warfarin and DOAC metabolism
EffectReduced anticoagulant effect; increased thrombotic risk
ManagementMonitor INR closely with warfarin; avoid DOACs with CBZ if possible (significant loss of efficacy); use alternative AED if on anticoagulation
FDA PI / Lexicomp
ModerateLamotrigine
MechanismCBZ induces UGT glucuronidation of lamotrigine; pharmacodynamic interaction (additive neurotoxicity)
EffectLamotrigine clearance increases ~40%; half-life shortens to 14–15 h; increased dizziness, diplopia, ataxia when combined
ManagementUse enzyme-inducer lamotrigine dosing schedule (higher doses required); monitor for neurotoxicity
FDA PI
ModeratePhenytoin
MechanismMutual induction: CBZ increases PHT metabolism; PHT increases CBZ metabolism
EffectBoth drug levels may decrease unpredictably
ManagementMonitor levels of both drugs; PHT dose may need to be increased; CBZ dose adjustment frequently required
FDA PI
Mon

Monitoring

  • HLA-B*1502 TestingBefore initiation
    Routine    Mandatory before starting carbamazepine in patients with ancestry across broad areas of Asia (Han Chinese, Filipino, Thai, Malaysian, Indian, and others). Positive result: do NOT start carbamazepine unless benefit clearly outweighs risk. Also consider HLA-A*31:01 testing in European and Japanese populations for risk of DRESS and milder hypersensitivity.
  • CBC with DifferentialBaseline, then periodically
    Routine    Obtain pretreatment CBC. Monitor closely if WBC or platelets decrease. Discontinue if evidence of significant bone marrow depression. Note: routine monitoring may not detect aplastic anaemia or agranulocytosis before they become clinically apparent (FDA PI boxed warning).
  • CBZ Trough LevelAt steady state (3–5 weeks), after dose changes
    Routine    Target 4–12 mcg/mL. Crucially, levels must be rechecked after autoinduction is complete (3–5 weeks after each dose change). Measure CBZ-epoxide if neurotoxic symptoms present with “normal” CBZ levels (especially with concomitant VPA).
  • LFTsBaseline, then periodically
    Routine    Hepatotoxicity ranges from benign enzyme elevations (GGT elevation in ~64% due to enzyme induction — not clinically significant) to rare hepatic failure. Clinically significant transaminase elevations should prompt discontinuation.
  • Serum SodiumBaseline, then periodically; more often in elderly
    Routine    Hyponatraemia (SIADH) occurs in ~5% of patients. Risk increases with age, higher doses, and concomitant diuretics. Check sodium if patient develops confusion, lethargy, or seizure worsening.
  • Skin / RashFirst 3 months intensively
    Routine    Instruct all patients to report any rash immediately. 90% of SJS/TEN cases occur within the first few months of treatment. Discontinue at first sign of rash unless clearly not drug-related.
CI

Contraindications & Cautions

Absolute Contraindications

  • Known hypersensitivity to carbamazepine or structurally related drugs (e.g., tricyclic antidepressants such as amitriptyline, imipramine)
  • History of bone marrow depression
  • Concomitant use with MAOIs (or within 14 days of MAOI discontinuation)
  • Concomitant use with nefazodone
  • HLA-B*1502 positive patients (unless benefit clearly outweighs the risk of SJS/TEN)

Relative Contraindications (Specialist Input Recommended)

  • Pre-existing cardiac conduction abnormalities — CBZ can cause AV block; obtain baseline ECG
  • Absence seizures or myoclonic epilepsy — CBZ may worsen these seizure types
  • Women of childbearing potential — teratogenic (spina bifida, craniofacial defects); also reduces hormonal contraceptive efficacy

Use with Caution

  • Hepatic disease — monitor LFTs closely
  • Renal impairment — limited data; use with caution
  • Elderly patients — increased risk of hyponatraemia, confusion, cardiac effects
  • Patients on multiple enzyme-inducing or enzyme-inhibiting drugs — complex interaction potential
FDA Boxed Warning Serious Dermatologic Reactions (SJS/TEN)

Serious and sometimes fatal dermatologic reactions, including toxic epidermal necrolysis and Stevens-Johnson syndrome, have occurred during treatment with carbamazepine. These reactions are estimated to occur in 1 to 6 per 10,000 new users in countries with mainly Caucasian populations, but the risk in some Asian countries is estimated to be about 10 times higher. Studies in patients of Chinese ancestry have found a strong association between SJS/TEN risk and the presence of HLA-B*1502. Patients with ancestry in genetically at-risk populations should be screened for HLA-B*1502 prior to initiating treatment.

FDA Boxed Warning Aplastic Anaemia and Agranulocytosis

Aplastic anaemia and agranulocytosis have been reported in association with carbamazepine. Population-based data demonstrate the risk of developing these reactions is 5–8 times greater than in the general population (general population baseline rates: agranulocytosis ~6 per million/year; aplastic anaemia ~2 per million/year). Patients with a history of adverse haematologic reaction to any drug may be particularly at risk. Obtain baseline and periodic CBCs. However, routine monitoring is unlikely to detect these abnormalities before they become clinically apparent. The vast majority of transient leucopenia or platelet changes do NOT progress to aplastic anaemia or agranulocytosis.

Pt

Patient Counselling

Purpose of Therapy

Carbamazepine helps control seizures, relieve nerve pain (trigeminal neuralgia), or stabilise mood by reducing abnormal electrical activity in the brain. It must be taken consistently and the dose must be adjusted carefully over the first few weeks as the body adapts to the medication.

How to Take

Take carbamazepine with food to reduce stomach upset. Tegretol XR and Carbatrol extended-release tablets must be swallowed whole — do not crush or chew. The suspension should not be taken at the same time as other liquid medications. Do not switch between tablets and suspension without consulting your prescriber, as they are absorbed differently.

Skin Rash (Most Critical)
Tell patientA potentially life-threatening allergic skin reaction can occur, usually within the first few months. Patients of Asian ancestry are at higher risk. Any rash should be reported immediately.
Call prescriberImmediately for any rash, blistering, peeling skin, mouth sores, or fever. Seek emergency care if symptoms are severe.
Signs of Blood Disorders
Tell patientRarely, carbamazepine can reduce blood cell production. Watch for unexplained fever, sore throat, infections that do not resolve, easy bruising, or unusual bleeding.
Call prescriberImmediately if any of these symptoms develop. Regular blood tests will help monitor for this.
Dizziness & Drowsiness
Tell patientDizziness and drowsiness are common, especially when starting treatment or increasing the dose. These usually improve over time as your body adjusts.
Call prescriberIf dizziness, double vision, or unsteadiness are severe or persistent. Do not drive until you know how the medication affects you.
Contraception & Pregnancy
Tell patientCarbamazepine can make birth control pills less effective and can cause birth defects. Use a non-hormonal method of contraception (e.g., copper IUD) or discuss alternatives with your prescriber. Report any planned or confirmed pregnancy immediately.
Call prescriberBefore starting or stopping any contraceptive method; immediately if pregnancy is suspected.
Ref

Sources

Regulatory (PI / SmPC)
  1. Novartis Pharmaceuticals. TEGRETOL (carbamazepine) prescribing information. FDA LabelPrimary regulatory source for epilepsy and trigeminal neuralgia indications, dosing, boxed warnings, and pharmacokinetics.
  2. Shire US Inc. CARBATROL / EQUETRO (carbamazepine extended-release capsules) prescribing information. FDA LabelER capsule PI with FDA-approved bipolar I disorder mania indication and HLA-B*1502 boxed warning.
  3. Lundbeck. CARNEXIV (carbamazepine) injection prescribing information. 2016. FDA InfoIV formulation approved as short-term replacement (up to 7 days) for oral CBZ in adults.
Key Clinical Trials
  1. Mattson RH, Cramer JA, Collins JF, et al. Comparison of carbamazepine, phenobarbital, phenytoin, and primidone in partial and secondarily generalized tonic-clonic seizures. N Engl J Med. 1985;313(3):145–151. DOILandmark VA Cooperative Study demonstrating carbamazepine superiority for partial seizures due to better tolerability.
  2. Brodie MJ, Richens A, Yuen AW. Double-blind comparison of lamotrigine and carbamazepine in newly diagnosed epilepsy. Lancet. 1995;345(8948):476–479. DOIHead-to-head trial showing comparable seizure control to lamotrigine but higher dropout rate for carbamazepine.
  3. Weisler RH, Kalali AH, Ketter TA; SPD417 Study Group. A multicenter, randomized, double-blind, placebo-controlled trial of extended-release carbamazepine capsules as monotherapy for bipolar disorder patients with manic or mixed episodes. J Clin Psychiatry. 2004;65(4):478–484. DOIPivotal RCT establishing efficacy of Equetro ER for acute mania in bipolar I disorder.
Guidelines
  1. Glauser T, Ben-Menachem E, Bourgeois B, et al. Updated ILAE evidence review of antiepileptic drug efficacy and effectiveness as initial monotherapy for epileptic seizures and syndromes. Epilepsia. 2013;54(3):551–563. DOIILAE guideline supporting carbamazepine as a first-line option for focal seizures in adults.
  2. Cruccu G, Gronseth G, Alksne J, et al. AAN-EFNS guidelines on trigeminal neuralgia management. Eur J Neurol. 2008;15(10):1013–1028. DOIJoint guideline recommending carbamazepine as first-line pharmacotherapy for trigeminal neuralgia (Level A evidence).
Pharmacogenomics
  1. Chung WH, Hung SI, Hong HS, et al. Medical genetics: a marker for Stevens-Johnson syndrome. Nature. 2004;428(6982):486. DOISeminal study identifying the HLA-B*1502 allele as a marker for carbamazepine-induced SJS in Han Chinese patients.
  2. Leckband SG, Kelsoe JR, Dunnenberger HM, et al. Clinical Pharmacogenetics Implementation Consortium guidelines for HLA-B genotype and carbamazepine dosing. Clin Pharmacol Ther. 2013;94(3):324–328. DOICPIC guideline providing actionable recommendations for HLA-B*1502 and HLA-A*31:01 testing before carbamazepine initiation.
Pharmacokinetics / Special Populations
  1. Bertilsson L. Clinical pharmacokinetics of carbamazepine. Clin Pharmacokinet. 1978;3(2):128–143. DOIClassic PK review establishing autoinduction kinetics and half-life variability.