Label: VIGABATRIN tablet

  • NDC Code(s): 69238-1424-1
  • Packager: Amneal Pharmaceuticals NY LLC
  • Category: HUMAN PRESCRIPTION DRUG LABEL
  • DEA Schedule: None
  • Marketing Status: Abbreviated New Drug Application

Drug Label Information

Updated November 30, 2022

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  • HIGHLIGHTS OF PRESCRIBING INFORMATION
    These highlights do not include all the information needed to use VIGABATRIN TABLETS safely and effectively. See full prescribing information for VIGABATRIN TABLETS. 

    VIGABATRIN tablets, for oral use
    Initial U.S. Approval: 2009

    WARNING: PERMANENT VISION LOSS

    See full prescribing information for complete boxed warning.

    • Vigabatrin can cause permanent bilateral concentric visual field constriction, including tunnel vision that can result in disability. In some cases, vigabatrin may also decrease visual acuity (5.1).
    • Risk increases with increasing dose and cumulative exposure, but there is no dose or exposure to vigabatrin known to be free of risk of vision loss (5.1).
    • Risk of new and worsening vision loss continues as long as vigabatrin is used, and possibly after discontinuing vigabatrin (5.1).
    • Baseline and periodic vision assessment is recommended for patients on vigabatrin. However, this assessment cannot always prevent vision damage (5.1).
    • Vigabatrin is available only through a restricted program called the Vigabatrin REMS Program (5.2).

    INDICATIONS AND USAGE

    Vigabatrin tablets are indicated for the treatment of:

    • Refractory Complex Partial Seizures as adjunctive therapy in patients 2 years of age and older who have responded inadequately to several alternative treatments; vigabatrin tablets are not indicated as a first line agent (1.1)
    • Infantile Spasms - monotherapy in infants 1 month to 2 years of age for whom the potential benefits outweigh the potential risk of vision loss (1.2)

    DOSAGE AND ADMINISTRATION

    Refractory Complex Partial Seizures

    • Adults (17 years of age and older): Initiate at 1,000 mg/day (500 mg twice daily); increase total daily dose weekly in 500 mg/day increments, to the recommended dose of 3,000 mg/day (1,500 mg twice daily) (2.2)
    • Pediatric (2 to 16 years of age): The recommended dosage is based on body weight and administered as two divided doses (2.2)
    • The dosage may be increased in weekly intervals, depending on response (2.2) 
    • Dose patients weighing more than 60 kg according to adult recommendations (2.2)

    Infantile Spasms

    • Initiate at a daily dose of 50 mg/kg (25 mg/kg twice daily); increase total daily dose every 3 days, in increments of 25 mg/kg/day to 50 mg/kg/day, up to a maximum daily dose of 150 mg/kg (75 mg/kg twice daily) (2.3)

    Renal Impairment: Dose adjustment recommended (2.4, 8.5, 8.6)

    DOSAGE FORMS AND STRENGTHS

    • Tablet: 500 mg (3)

    CONTRAINDICATIONS

     None (4)

    WARNINGS AND PRECAUTIONS

    • Abnormal MRI signal changes and intramyelinic edema have been reported in some infants with Infantile Spasms receiving vigabatrin (5.3, 5.4)
    • Suicidal behavior and ideation: Antiepileptic drugs, including vigabatrin, increase the risk of suicidal thoughts and behavior (5.5)
    • Withdrawal of AEDs: Taper dose to avoid withdrawal seizures (5.6)
    • Anemia: Monitor for symptoms of anemia (5.7)
    • Somnolence and fatigue: Advise patients not to drive or operate machinery until they have gained sufficient experience on vigabatrin (5.8)

    ADVERSE REACTIONS

    Refractory Complex Partial Seizures

    Most common adverse reactions in controlled studies include (incidence ≥5% over placebo):

    • Adults: blurred vision, somnolence, dizziness, abnormal coordination, tremor, and fatigue (6.1)
    • Pediatric patients (3 to 16 years of age): weight gain (6.1)

    Infantile Spasms (incidence >5% and greater than on placebo)

    • Somnolence, bronchitis, ear infection, and acute otitis media (6.1)

    To report SUSPECTED ADVERSE REACTIONS, contact Amneal Pharmaceuticals at 1-877-835-5472 or FDA at 1-800-FDA-1088 or www.fda.gov/medwatch.

    DRUG INTERACTIONS

    Decreased phenytoin plasma levels: dosage adjustment may be needed (7.1)

    USE IN SPECIFIC POPULATIONS

    • Pregnancy: Based on animal data, may cause fetal harm (8.1)
    • Lactation: vigabatrin is excreted in human milk (8.2)

    See 17 for PATIENT COUNSELING INFORMATION and Medication Guide.

    Revised: 11/2022

  • Table of Contents

    FULL PRESCRIBING INFORMATION: CONTENTS*

    WARNING: PERMANENT VISION LOSS

    1 INDICATIONS AND USAGE

    1.1  Refractory Complex Partial Seizures (CPS)

    1.2  Infantile Spasms (IS)

    2 DOSAGE AND ADMINISTRATION

    2.1 Important Dosing and Administration Instructions

    2.2 Refractory Complex Partial Seizures

    2.3 Infantile Spasms

    2.4 Patients with Renal Impairment

    3 DOSAGE FORMS AND STRENGTHS

    4 CONTRAINDICATIONS

    5 WARNINGS AND PRECAUTIONS

    5.1 Permanent Vision Loss

    5.2 Vigabatrin REMS Program

    5.3 Magnetic Resonance Imaging (MRI) Abnormalities in Infants

    5.4 Neurotoxicity

    5.5 Suicidal Behavior and Ideation

    5.6 Withdrawal of Antiepileptic Drugs (AEDs)

    5.7 Anemia

    5.8 Somnolence and Fatigue

    5.9 Peripheral Neuropathy

    5.10 Weight Gain

    5.11 Edema

    6 ADVERSE REACTIONS

    6.1 Clinical Trial Experience

    6.2 Postmarketing Experience

    7 DRUG INTERACTIONS

    7.1 Antiepileptic Drugs

    7.2 Oral Contraceptives

    7.3 Drug-Laboratory Test Interactions

    8 USE IN SPECIFIC POPULATIONS

    8.1 Pregnancy

    8.2 Lactation

    8.4 Pediatric Use

    8.5 Geriatric Use

    8.6 Renal Impairment

    9 DRUG ABUSE AND DEPENDENCE

    9.1 Controlled Substance

    9.2 Abuse

    9.3 Dependence

    10 OVERDOSAGE

    10.1 Signs, Symptoms, and Laboratory Findings of Overdosage

    10.2 Management of Overdosage

    11 DESCRIPTION

    12 CLINICAL PHARMACOLOGY

    12.1 Mechanism of Action

    12.2 Pharmacodynamics

    12.3 Pharmacokinetics

    13 NONCLINICAL TOXICOLOGY

    13.1 Carcinogenesis, Mutagenesis, Impairment of Fertility

    14 CLINICAL STUDIES

    14.1 Complex Partial Seizures

    14.2 Infantile Spasms

    16 HOW SUPPLIED/STORAGE AND HANDLING

    16.1 How Supplied

    16.2 Storage and Handling

    17 PATIENT COUNSELING INFORMATION

    *
    Sections or subsections omitted from the full prescribing information are not listed.
  • BOXED WARNING (What is this?)

    WARNING: PERMANENT VISION LOSS

    • Vigabatrin can cause permanent bilateral concentric visual field constriction, including tunnel vision that can result in disability. In some cases, vigabatrin also can damage the central retina and may decrease visual acuity [see Warnings and Precautions (5.1)].
    • The onset of vision loss from vigabatrin is unpredictable, and can occur within weeks of starting treatment or sooner, or at any time after starting treatment, even after months or years.
    • Symptoms of vision loss from vigabatrin are unlikely to be recognized by patients or caregivers before vision loss is severe. Vision loss of milder severity, while often unrecognized by the patient or caregiver, can still adversely affect function.
    • The risk of vision loss increases with increasing dose and cumulative exposure, but there is no dose or exposure known to be free of risk of vision loss.
    • Vision assessment is recommended at baseline (no later than 4 weeks after starting vigabatrin), at least every 3 months during therapy, and about 3 to 6 months after the discontinuation of therapy.
    • Once detected, vision loss due to vigabatrin is not reversible. It is expected that, even with frequent monitoring, some patients will develop severe vision loss.
    • Consider drug discontinuation, balancing benefit and risk, if vision loss is documented.
    • Risk of new or worsening vision loss continues as long as vigabatrin is used. It is possible that vision loss can worsen despite discontinuation of vigabatrin.
    • Because of the risk of vision loss, vigabatrin should be withdrawn from patients with refractory complex partial seizures who fail to show substantial clinical benefit within 3 months of initiation and within 2 to 4 weeks of initiation for patients with infantile spasms, or sooner if treatment failure becomes obvious. Patient response to and continued need for vigabatrin should be periodically reassessed.
    • Vigabatrin should not be used in patients with, or at high risk of, other types of irreversible vision loss unless the benefits of treatment clearly outweigh the risks.
    • Vigabatrin should not be used with other drugs associated with serious adverse ophthalmic effects such as retinopathy or glaucoma unless the benefits clearly outweigh the risks.
    • Use the lowest dosage and shortest exposure to vigabatrin consistent with clinical objectives [see Dosage and Administration (2.1)].

    Because of the risk of permanent vision loss, vigabatrin is available only through a restricted program under a Risk Evaluation and Mitigation Strategy (REMS) called the Vigabatrin REMS Program [see Warnings and Precautions (5.2)]. Further information is available at www.vigabatrinREMS.com or 1-866-244-8175.

  • 1 INDICATIONS AND USAGE

    1.1  Refractory Complex Partial Seizures (CPS)

    Vigabatrin tablets are indicated as adjunctive therapy for adults and pediatric patients 2 years of age and older with refractory complex partial seizures who have inadequately responded to several alternative treatments and for whom the potential benefits outweigh the risk of vision loss [see Warnings and Precautions (5.1)]. Vigabatrin tablets are not indicated as a first line agent for complex partial seizures.

    1.2  Infantile Spasms (IS)

    Vigabatrin is indicated as monotherapy for pediatric patients with infantile spasms 1 month to 2 years of age for whom the potential benefits outweigh the potential risk of vision loss [see Warnings and Precautions (5.1)].

  • 2 DOSAGE AND ADMINISTRATION

    2.1 Important Dosing and Administration Instructions

    Dosing

    Use the lowest dosage and shortest exposure to vigabatrin tablets consistent with clinical objectives [see Warnings and Precautions (5.1)].

    The vigabatrin tablets dosing regimen depends on the indication, age group, weight, and dosage form (tablets or for oral solution) [see Dosage and Administration (2.2, 2.3)]. Patients with impaired renal function require dose adjustment [see Dosage and Administration (2.4)].

    Monitoring of vigabatrin tablets plasma concentrations to optimize therapy is not helpful.

    Administration

    Vigabatrin tablets are given orally with or without food.

    If a decision is made to discontinue vigabatrin tablets, the dose should be gradually reduced [see Dosage and Administration (2.2, 2.3) and Warnings and Precautions (5.6)].

    2.2 Refractory Complex Partial Seizures

    Adults (Patients 17 Years of Age and Older)

    Treatment should be initiated at 1,000 mg/day (500 mg twice daily). Total daily dose may be increased in 500 mg increments at weekly intervals, depending on response. The recommended dose of vigabatrin tablets in adults is 3,000 mg/day (1,500 mg twice daily). A 6,000 mg/day dose has not been shown to confer additional benefit compared to the 3,000 mg/day dose and is associated with an increased incidence of adverse events.

    In controlled clinical studies in adults with complex partial seizures, vigabatrin tablets were tapered by decreasing the daily dose 1,000 mg/day on a weekly basis until discontinued [see Warnings and Precautions (5.6)].

    Pediatric (Patients 2 to 16 Years of Age)

    The recommended dosage is based on body weight and administered as two divided doses, as shown in Table 1. The dosage may be increased in weekly intervals to the total daily maintenance dosage, depending on response.

    Pediatric patients weighing more than 60 kg should be dosed according to adult recommendations.

    Table 1. CPS Dosing Recommendations for Pediatric Patients Weighing 10 kg up to 60 kg††

    Body Weight

    [kg]

    Total Daily*

    Starting Dose

    [mg/day]

    Total Daily*

    Maintenance Dose

    [mg/day]

    10 kg to 15 kg

    350 mg

    1,050 mg

    Greater than 15 kg to 20 kg

    450 mg

    1,300 mg

    Greater than 20 kg to 25 kg

    500 mg

    1,500 mg

    Greater than 25 kg to 60 kg

    500 mg

    2,000 mg

    * Administered in two divided doses

    Maintenance dose is based on 3,000 mg/day adult-equivalent dose

    †† Patients weighing more than 60 kg should be dosed according to adult recommendations

    In patients with refractory complex partial seizures, vigabatrin tablets should be withdrawn if a substantial clinical benefit is not observed within 3 months of initiating treatment. If, in the clinical judgment of the prescriber, evidence of treatment failure becomes obvious earlier than 3 months, treatment should be discontinued at that time [see Warnings and Precautions (5.1)].

    In a controlled study in pediatric patients with complex partial seizures, vigabatrin tablets were tapered by decreasing the daily dose by one third every week for three weeks [see Warnings and Precautions (5.6)].

    2.3 Infantile Spasms

    The initial daily dosing is 50 mg/kg/day given in two divided doses (25 mg/kg twice daily); subsequent dosing can be titrated by 25 mg/kg/day to 50 mg/kg/day increments every 3 days, up to a maximum of 150 mg/kg/day given in 2 divided doses (75 mg/kg twice daily) [see Use in Specific Populations (8.4)].

    Table 2 provides the volume of the 50 mg/mL dosing solution that should be administered as individual doses in infants of various weights.

    Table 2. Infant Dosing Table

    Weight

    [kg]

    Starting Dose

    50 mg/kg/day

    Maximum Dose

    150 mg/kg/day

    3

    1.5 mL twice daily

    4.5 mL twice daily

    4

    2 mL twice daily

    6 mL twice daily

    5

    2.5 mL twice daily

    7.5 mL twice daily

    6

    3 mL twice daily

    9 mL twice daily

    7

    3.5 mL twice daily

    10.5 mL twice daily

    8

    4 mL twice daily

    12 mL twice daily

    9

    4.5 mL twice daily

    13.5 mL twice daily

    10

    5 mL twice daily

    15 mL twice daily

    11

    5.5 mL twice daily

    16.5 mL twice daily

    12

    6 mL twice daily

    18 mL twice daily

    13

    6.5 mL twice daily

    19.5 mL twice daily

    14

    7 mL twice daily

    21 mL twice daily

    15

    7.5 mL twice daily

    22.5 mL twice daily

    16

    8 mL twice daily

    24 mL twice daily

    In patients with infantile spasms, vigabatrin should be withdrawn if a substantial clinical benefit is not observed within 2 to 4 weeks. If, in the clinical judgment of the prescriber, evidence of treatment failure becomes obvious earlier than 2 to 4 weeks, treatment should be discontinued at that time [see Warnings and Precautions (5.1)].

    In a controlled clinical study in patients with infantile spasms, vigabatrin was tapered by decreasing the daily dose at a rate of 25 mg/kg to 50 mg/kg every 3 to 4 days [see Warnings and Precautions (5.6)].

    2.4 Patients with Renal Impairment

    Vigabatrin tablets are primarily eliminated through the kidney.

    Infants

    Information about how to adjust the dose in infants with renal impairment is unavailable.

    Adult and pediatric patients 2 years and older

    • Mild renal impairment (CLcr >50 to 80 mL/min): dose should be decreased by 25%
    • Moderate renal impairment (CLcr >30 to 50 mL/min): dose should be decreased by 50%
    • Severe renal impairment (CLcr >10 to 30 mL/min): dose should be decreased by 75%

    CLcr in mL/min may be estimated from serum creatinine (mg/dL) using the following formulas:

    • Patients 2 to <12 years old: CLcr (mL/min/1.73 m2) = (K × Ht) / Scr

      height (Ht) in cm; serum creatinine (Scr) in mg/dL
      K (proportionality constant): Female Child (<12 years): K=0.55;
      Male Child (<12 years): K=0.70
    • Adult and pediatric patients 12 years or older: CLcr (mL/min) = [140 - age (years)] × weight (kg) / [72 × serum creatinine (mg/dL)] (× 0.85 for female patients)

    The effect of dialysis on vigabatrin tablets clearance has not been adequately studied [see Clinical Pharmacology (12.3) and Use in Specific Populations (8.6)].

  • 3 DOSAGE FORMS AND STRENGTHS

    Vigabatrin Tablets, USP: 500 mg: white to off-white, film-coated, oval, biconvex, scored on one side, and debossed with ”AN24” on the other side.

  • 4 CONTRAINDICATIONS

    None.

  • 5 WARNINGS AND PRECAUTIONS

    5.1 Permanent Vision Loss

    Vigabatrin can cause permanent vision loss. Because of this risk and because, when it is effective, vigabatrin provides an observable symptomatic benefit; patient response and continued need for treatment should be periodically assessed.

    Based upon adult studies, 30 percent or more of patients can be affected with bilateral concentric visual field constriction ranging in severity from mild to severe. Severe cases may be characterized by tunnel vision to within 10 degrees of visual fixation, which can result in disability. In some cases, vigabatrin also can damage the central retina and may decrease visual acuity. Symptoms of vision loss from vigabatrin are unlikely to be recognized by patients or caregivers before vision loss is severe. Vision loss of milder severity, while often unrecognized by the patient or caregiver, can still adversely affect function.

    Because assessing vision may be difficult in infants and children, the frequency and extent of vision loss is poorly characterized in these patients. For this reason, the understanding of the risk is primarily based on the adult experience. The possibility that vision loss from vigabatrin may be more common, more severe, or have more severe functional consequences in infants and children than in adults cannot be excluded.

    The onset of vision loss from vigabatrin is unpredictable and can occur within weeks of starting treatment or sooner, or at any time after starting treatment, even after months or years.

    The risk of vision loss increases with increasing dose and cumulative exposure, but there is no dose or exposure known to be free of risk of vision loss.

    In patients with refractory complex partial seizures, vigabatrin should be withdrawn if a substantial clinical benefit is not observed within 3 months of initiating treatment. If, in the clinical judgment of the prescriber, evidence of treatment failure becomes obvious earlier than 3 months, treatment should be discontinued at that time [see Dosage and Administration (2.2) and Warnings and Precautions (5.6)].

    In patients with infantile spasms, vigabatrin should be withdrawn if a substantial clinical benefit is not observed within 2 to 4 weeks. If, in the clinical judgment of the prescriber, evidence of treatment failure becomes obvious earlier than 2 to 4 weeks, treatment should be discontinued at that time [see Dosage and Administration (2.3) and Warnings and Precautions (5.6)].

    Vigabatrin should not be used in patients with, or at high risk of, other types of irreversible vision loss unless the benefits of treatment clearly outweigh the risks. The interaction of other types of irreversible vision damage with vision damage from vigabatrin has not been well-characterized, but is likely adverse.

    Vigabatrin should not be used with other drugs associated with serious adverse ophthalmic effects such as retinopathy or glaucoma unless the benefits clearly outweigh the risks.

    Monitoring of Vision

    Monitoring of vision by an ophthalmic professional with expertise in visual field interpretation and the ability to perform dilated indirect ophthalmoscopy of the retina is recommended [see Warnings and Precautions (5.2)]. Because vision testing in infants is difficult, vision loss may not be detected until it is severe. For patients receiving vigabatrin, vision assessment is recommended at baseline (no later than 4 weeks after starting vigabatrin), at least every 3 months while on therapy, and about 3 to 6 months after the discontinuation of therapy. The diagnostic approach should be individualized for the patient and clinical situation.

    In adults and cooperative pediatric patients, perimetry is recommended, preferably by automated threshold visual field testing. Additional testing may also include electrophysiology (e.g., electroretinography [ERG]), retinal imaging (e.g., optical coherence tomography [OCT]), and/or other methods appropriate for the patient. In patients who cannot be tested, treatment may continue according to clinical judgment, with appropriate patient counseling. Because of variability, results from ophthalmic monitoring must be interpreted with caution, and repeat assessment is recommended if results are abnormal or uninterpretable. Repeat assessment in the first few weeks of treatment is recommended to establish if, and to what degree, reproducible results can be obtained, and to guide selection of appropriate ongoing monitoring for the patient.

    The onset and progression of vision loss from vigabatrin is unpredictable, and it may occur or worsen precipitously between assessments. Once detected, vision loss due to vigabatrin is not reversible. It is expected that even with frequent monitoring, some vigabatrin patients will develop severe vision loss. Consider drug discontinuation, balancing benefit and risk, if vision loss is documented. It is possible that vision loss can worsen despite discontinuation of vigabatrin.

    5.2 Vigabatrin REMS Program

    Vigabatrin is available only through a restricted distribution program called the Vigabatrin REMS Program, because of the risk of permanent vision loss.

    Notable requirements of the Vigabatrin REMS Program include the following:

    • Prescribers must be certified by enrolling in the program, agreeing to counsel patients on the risk of vision loss and the need for periodic monitoring of vision, and reporting any event suggestive of vision loss to Amneal.
    • Patients must enroll in the program.
    • Pharmacies must be certified and must only dispense to patients authorized to receive vigabatrin.

    Further information is available at www.vigabatrinREMS.com, or call 1-866-244-8175.

    5.3 Magnetic Resonance Imaging (MRI) Abnormalities in Infants

    Abnormal MRI signal changes characterized by increased T2 signal and restricted diffusion in a symmetric pattern involving the thalamus, basal ganglia, brain stem, and cerebellum have been observed in some infants treated with vigabatrin.

    In a retrospective epidemiologic study in infants with infantile spasms (N=205), the prevalence of MRI changes was 22% in vigabatrin-treated patients versus 4% in patients treated with other therapies. In this study, in postmarketing experience, and in published literature reports, these changes generally resolved with discontinuation of treatment. In a few patients, the lesion resolved despite continued use. It has been reported that some infants exhibited coincident motor abnormalities, but no causal relationship has been established and the potential for long-term clinical sequelae has not been adequately studied.

    Neurotoxicity (brain histopathology and neurobehavioral abnormalities) was observed in rats exposed to vigabatrin during late gestation and the neonatal and juvenile periods of development, and brain histopathological changes were observed in dogs exposed to vigabatrin during the juvenile period of development. The relationship between these findings and the abnormal MRI findings in infants treated with vigabatrin for infantile spasms is unknown [see Warnings and Precautions (5.4) and Use in Specific Populations (8.1)].

    The specific pattern of signal changes observed in patients 6 years and younger was not observed in older pediatric and adult patients treated with vigabatrin. In a blinded review of MRI images obtained in prospective clinical trials in patients with refractory complex partial seizures (CPS) 3 years and older (N=656), no difference was observed in anatomic distribution or prevalence of MRI signal changes between vigabatrin treated and placebo treated patients. In the postmarketing setting, MRI changes have also been reported in patients 6 years of age and younger being treated for refractory CPS.

    For adults treated with vigabatrin, routine MRI surveillance is unnecessary as there is no evidence that vigabatrin causes MRI changes in this population.

    5.4 Neurotoxicity

    Intramyelinic Edema (IME) has been reported in postmortem examination of infants being treated for infantile spasms with vigabatrin.

    Abnormal MRI signal changes characterized by increased T2 signal and restricted diffusion in a symmetric pattern involving the thalamus, basal ganglia, brain stem, and cerebellum have also been observed in some infants treated for IS with vigabatrin. Studies of the effects of vigabatrin on MRI and evoked potentials (EP) in adult epilepsy patients have demonstrated no clear-cut abnormalities [see Warnings and Precautions (5.3)].

    Vacuolation, characterized by fluid accumulation and separation of the outer layers of myelin, has been observed in brain white matter tracts in adult and juvenile rats and adult mice, dogs, and possibly monkeys following administration of vigabatrin. This lesion, referred to as intramyelinic edema (IME), was seen in animals at doses within the human therapeutic range. A no-effect dose was not established in rodents or dogs. In the rat and dog, vacuolation was reversible following discontinuation of vigabatrin treatment, but, in the rat, pathologic changes consisting of swollen or degenerating axons, mineralization, and gliosis were seen in brain areas in which vacuolation had been previously observed. Vacuolation in adult animals was correlated with alterations in MRI and changes in visual and somatosensory EP.

    Administration of vigabatrin to rats during the neonatal and juvenile periods of development produced vacuolar changes in the brain gray matter (including the thalamus, midbrain, deep cerebellar nuclei, substantia nigra, hippocampus, and forebrain) which are considered distinct from the IME observed in vigabatrin treated adult animals. Decreased myelination and evidence of oligodendrocyte injury were additional findings in the brains of vigabatrin-treated rats. An increase in apoptosis was seen in some brain regions following vigabatrin exposure during the early postnatal period. Long-term neurobehavioral abnormalities (convulsions,

    neuromotor impairment, learning deficits) were also observed following vigabatrin treatment of young rats. Administration of vigabatrin to juvenile dogs produced vacuolar changes in the brain gray matter (including the septal nuclei, hippocampus, hypothalamus, thalamus, cerebellum, and globus pallidus). Neurobehavioral effects of vigabatrin were not assessed in the juvenile dog. These effects in young animals occurred at doses lower than those producing neurotoxicity in adult animals and were associated with plasma vigabatrin levels substantially lower than those achieved clinically in infants and children [see Use in Specific Populations (8.1, 8.4)].

    In a published study, vigabatrin (200, 400 mg/kg/day) induced apoptotic neurodegeneration in the brain of young rats when administered by intraperitoneal injection on postnatal days 5 to 7.

    Administration of vigabatrin to female rats during pregnancy and lactation at doses below those used clinically resulted in hippocampal vacuolation and convulsions in the mature offspring.

    5.5 Suicidal Behavior and Ideation

    Antiepileptic drugs (AEDs), including vigabatrin, increase the risk of suicidal thoughts or behavior in patients taking these drugs for any indication. Patients treated with any AED for any indication should be monitored for the emergence or worsening of depression, suicidal thoughts or behavior, and/or any unusual changes in mood or behavior.

    Pooled analyses of 199 placebo-controlled clinical trials (mono- and adjunctive therapy) of 11 different AEDs showed that patients randomized to one of the AEDs had approximately twice the risk (adjusted Relative Risk 1.8, 95% CI: 1.2, 2.7) of suicidal thinking or behavior compared to patients randomized to placebo. In these trials, which had a median treatment duration of 12 weeks, the estimated incidence rate of suicidal behavior or ideation among 27,863 AED treated patients was 0.43%, compared to 0.24% among 16,029 placebo-treated patients, representing an increase of approximately one case of suicidal thinking or behavior for every 530 patients treated. There were four suicides in drug treated patients in the trials and none in placebo treated patients, but the number is too small to allow any conclusion about drug effect on suicide.

    The increased risk of suicidal thoughts or behavior with AEDs was observed as early as one week after starting drug treatment with AEDs and persisted for the duration of treatment assessed. Because most trials included in the analysis did not extend beyond 24 weeks, the risk of suicidal thoughts or behavior beyond 24 weeks could not be assessed.

    The risk of suicidal thoughts or behavior was generally consistent among drugs in the data analyzed. The finding of increased risk with AEDs of varying mechanisms of action and across a range of indications suggests that the risk applies to all AEDs used for any indication. The risk did not vary substantially by age (5 to 100 years) in the clinical trials analyzed. Table 4 shows absolute and relative risk by indication for all evaluated AEDs.

    Table 4. Risk by Indication for Antiepileptic Drugs in the Pooled Analysis

    Indication

    Placebo Patients

    with Events per

    1,000 Patients

    Drug Patients

    with Events per

    1,000 Patients

    Relative Risk:

    Incidence of Drug

    Events in Drug

    Patients/Incidence in Placebo Patients

    Risk Difference:

    Additional Drug Patients

    with Events per

    1,000 Patients

    Epilepsy

    1.0

    3.4

    3.5

    2.4

    Psychiatric

    5.7

    8.5

    1.5

    2.9

    Other

    1.0

    1.8

    1.9

    0.9

    Total

    2.4

    4.3

    1.8

    1.9

    The relative risk for suicidal thoughts or behavior was higher in clinical trials for epilepsy than in clinical trials for psychiatric or other conditions, but the absolute risk differences were similar for the epilepsy and psychiatric indications.

    Anyone considering prescribing vigabatrin or any other AED must balance the risk of suicidal thoughts or behavior with the risk of untreated illness. Epilepsy and many other illnesses for which AEDs are prescribed are themselves associated with morbidity and mortality and an increased risk of suicidal thoughts and behavior. Should suicidal thoughts and behavior emerge during treatment, the prescriber needs to consider whether the emergence of these symptoms in any given patient may be related to the illness being treated.

    Patients, their caregivers, and families should be informed that AEDs increase the risk of suicidal thoughts and behavior and should be advised of the need to be alert for the emergence or worsening of the signs and symptoms of depression, any unusual changes in mood or behavior, or the emergence of suicidal thoughts, behavior, or thoughts about self-harm. Behaviors of concern should be reported immediately to healthcare providers.

    5.6 Withdrawal of Antiepileptic Drugs (AEDs)

    As with all AEDs, vigabatrin should be withdrawn gradually. However, if withdrawal is needed because of a serious adverse event, rapid discontinuation can be considered. Patients and caregivers should be told not to suddenly discontinue vigabatrin therapy.

    In controlled clinical studies in adults with complex partial seizures, vigabatrin was tapered by decreasing the daily dose 1,000 mg/day on a weekly basis until discontinued.

    In a controlled study in pediatric patients with complex partial seizures, vigabatrin was tapered by decreasing the daily dose by one third every week for three weeks.

    In a controlled clinical study in patients with infantile spasms, vigabatrin was tapered by decreasing the daily dose at a rate of 25 to 50 mg/kg every 3 to 4 days.

    5.7 Anemia

    In North American controlled trials in adults, 6% of patients (16/280) receiving vigabatrin and 2% of patients (3/188) receiving placebo had adverse events of anemia and/or met criteria for potentially clinically important hematology changes involving hemoglobin, hematocrit, and/or RBC indices. Across U.S. controlled trials, there were mean decreases in hemoglobin of about 3% and 0% in vigabatrin and placebo-treated patients, respectively, and a mean decrease in hematocrit of about 1% in vigabatrin-treated patients compared to a mean gain of about 1% in patients treated with placebo.

    In controlled and open-label epilepsy trials in adults and pediatric patients, 3 vigabatrin patients (0.06%, 3/4,855) discontinued for anemia and 2 vigabatrin patients experienced unexplained declines in hemoglobin to below 8 g/dL and/or hematocrit below 24%.

    5.8 Somnolence and Fatigue

    Vigabatrin causes somnolence and fatigue. Patients should be advised not to drive a car or operate other complex machinery until they are familiar with the effects of vigabatrin on their ability to perform such activities.

    Pooled data from two vigabatrin controlled trials in adults demonstrated that 24% (54/222) of vigabatrin patients experienced somnolence compared to 10% (14/135) of placebo patients. In those same studies, 28% of vigabatrin patients experienced fatigue compared to 15% (20/135) of placebo patients. Almost 1% of vigabatrin patients discontinued from clinical trials for somnolence and almost 1% discontinued for fatigue.

    Pooled data from three vigabatrin controlled trials in pediatric patients demonstrated that 6% (10/165) of vigabatrin patients experienced somnolence compared to 5% (5/104) of placebo patients. In those same studies, 10% (17/165) of vigabatrin patients experienced fatigue compared to 7% (7/104) of placebo patients. No vigabatrin patients discontinued from clinical trials due to somnolence or fatigue.

    5.9 Peripheral Neuropathy

    Vigabatrin causes symptoms of peripheral neuropathy in adults. Pediatric clinical trials were not designed to assess symptoms of peripheral neuropathy, but observed incidence of symptoms based on pooled data from controlled pediatric studies appeared similar for pediatric patients on vigabatrin and placebo. In a pool of North American controlled and uncontrolled epilepsy studies, 4.2% (19/457) of vigabatrin patients developed signs and/or symptoms of peripheral neuropathy. In the subset of North American placebo-controlled epilepsy trials, 1.4% (4/280) of vigabatrin treated patients and no (0/188) placebo patients developed signs and/or symptoms of peripheral neuropathy. Initial manifestations of peripheral neuropathy in these trials included, in some combination, symptoms of numbness or tingling in the toes or feet, signs of reduced distal lower limb vibration or position sensation, or progressive loss of reflexes, starting at the ankles. Clinical studies in the development program were not designed to investigate peripheral neuropathy systematically and did not include nerve conduction studies, quantitative sensory testing, or skin or nerve biopsy. There is insufficient evidence to determine if development of these signs and symptoms was related to duration of vigabatrin treatment, cumulative dose, or if the findings of peripheral neuropathy were completely reversible upon discontinuation of vigabatrin.

    5.10 Weight Gain

    Vigabatrin causes weight gain in adult and pediatric patients.

    Data pooled from randomized controlled trials in adults found that 17% (77/443) of vigabatrin patients versus 8% (22/275) of placebo patients gained ≥7% of baseline body weight. In these same trials, the mean weight change among vigabatrin patients was 3.5 kg compared to 1.6 kg for placebo patients.

    Data pooled from randomized controlled trials in pediatric patients with refractory complex partial seizures found that 47% (77/163) of vigabatrin patients versus 19% (19/102) of placebo patients gained ≥7% of baseline body weight.

    In all epilepsy trials, 0.6% (31/4,855) of vigabatrin patients discontinued for weight gain. The long term effects of vigabatrin related weight gain are not known. Weight gain was not related to the occurrence of edema.

    5.11 Edema

    Vigabatrin causes edema in adults. Pediatric clinical trials were not designed to assess edema, but observed incidence of edema-based pooled data from controlled pediatric studies appeared similar for pediatric patients on vigabatrin and placebo.

    Pooled data from controlled trials demonstrated increased risk among vigabatrin patients compared to placebo patients for peripheral edema (vigabatrin 2%, placebo 1%), and edema (vigabatrin 1%, placebo 0%). In these studies, one vigabatrin and no placebo patients discontinued for an edema related AE. In adults, there was no apparent association between edema and cardiovascular adverse events such as hypertension or congestive heart failure. Edema was not associated with laboratory changes suggestive of deterioration in renal or hepatic function.

  • 6 ADVERSE REACTIONS

    The following serious and otherwise important adverse reactions are described elsewhere in labeling:

    6.1 Clinical Trial Experience

    Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug and may not reflect the rates observed in practice.

    In U.S. and primary non-U.S. clinical studies of 4,079 vigabatrin-treated patients, the most common (≥5%) adverse reactions associated with the use of vigabatrin in combination with other AEDs were headache, somnolence, fatigue, dizziness, convulsion, nasopharyngitis, weight gain, upper respiratory tract infection, visual field defect, depression, tremor, nystagmus, nausea, diarrhea, memory impairment, insomnia, irritability, abnormal coordination, blurred vision, diplopia, vomiting, influenza, pyrexia, and rash.

    The adverse reactions most commonly associated with vigabatrin treatment discontinuation in ≥1% of patients were convulsion and depression.

    In patients with infantile spasms, the adverse reactions most commonly associated with vigabatrin treatment discontinuation in ≥1% of patients were infections, status epilepticus, developmental coordination disorder, dystonia, hypotonia, hypertonia, weight gain, and insomnia.

    Refractory Complex Partial Seizures

    Adults

    Table 5 lists the adverse reactions that occurred in ≥2% and more than one patient per vigabatrin-treated group and that occurred more frequently than in placebo patients from 2 U.S. adjunctive clinical studies of refractory CPS in adults.

    Table 5. Adverse Reactions in Pooled, Adjunctive Trials in Adults with Refractory Complex Partial Seizures

    Vigabatrin dosage

    (mg/day)

    Body System

    Adverse Reaction

    3,000

    [N=134]

    %

    6,000

    [N=43]

    %

    Placebo

    [N=135]

    %

    Ear Disorders

    Tinnitus

    Vertigo

    2

    2

    0

    5

    1

    1

    Eye Disorders

    Blurred vision

    Diplopia

    Asthenopia

    Eye pain

    13

    7

    2

    0

    16

    16

    2

    5

    5

    3

    0

    0

    Gastrointestinal Disorders

    Diarrhea

    Nausea

    Vomiting

    Constipation

    Upper abdominal pain

    Dyspepsia

    Stomach discomfort

    Abdominal pain

    Toothache

    Abdominal distension

    10

    10

    7

    8

    5

    4

    4

    3

    2

    2

    16

    2

    9

    5

    5

    5

    2

    2

    5

    0

    7

    8

    6

    3

    1

    3

    1

    1

    2

    1

    General Disorders

    Fatigue

    Gait disturbance

    Asthenia

    Edema peripheral

    Fever

    Chest pain

    Thirst

    Malaise

    23

    6

    5

    5

    4

    1

    2

    0

    40

    12

    7

    7

    7

    5

    0

    5

    16

    7

    1

    1

    3

    1

    0

    0

    Infections

    Nasopharyngitis

    Upper respiratory tract infection

    Influenza

    Urinary tract infection

    Bronchitis

    14

    7

    5

    4

    0

    9

    9

    7

    5

    5

    10

    6

    4

    0

    1

    Injury

    Contusion

    Joint sprain

    Muscle strain

    Wound secretion

    3

    1

    1

    0

    5

    2

    2

    2

    2

    1

    1

    0

    Metabolism and Nutrition Disorders

    Increased appetite

    Weight gain

    1

    6

    5

    14

    1

    3

    Musculoskeletal Disorders

    Arthralgia

    Back pain

    Pain in extremity

    Myalgia

    Muscle twitching

    Muscle spasms

    10

    4

    6

    3

    1

    3

    5

    7

    2

    5

    9

    0

    3

    2

    4

    1

    1

    1

    Nervous System Disorders

    Headache

    Somnolence

    Dizziness

    Nystagmus

    Tremor

    Memory impairment

    Abnormal coordination

    Disturbance in attention

    Sensory disturbance

    Hyporeflexia

    Paraesthesia

    Lethargy

    Hyperreflexia

    Hypoaesthesia

    Sedation

    Status epilepticus

    Dysarthria

    Postictal state

    Sensory loss

    33

    22

    24

    13

    15

    7

    7

    9

    4

    4

    7

    4

    4

    4

    4

    2

    2

    2

    0

    26

    26

    26

    19

    16

    16

    16

    0

    7

    5

    2

    7

    2

    5

    0

    5

    2

    0

    5

    31

    13

    17

    9

    8

    3

    2

    1

    2

    1

    1

    2

    3

    1

    0

    0

    1

    1

    0

    Psychiatric Disorders

    Irritability

    Depression

    Confusional state

    Anxiety

    Depressed mood

    Abnormal thinking

    Abnormal behavior

    Expressive language disorder

    Nervousness

    Abnormal dreams

    7

    6

    4

    4

    5

    3

    3

    1

    2

    1

    23

    14

    14

    0

    0

    7

    5

    7

    5

    5

    7

    3

    1

    3

    1

    0

    1

    1

    2

    1

    Reproductive System

    Dysmenorrhea

    Erectile dysfunction

    9

    0

    5

    5

    3

    0

    Respiratory and Thoracic Disorders

    Pharyngolaryngeal pain

    Cough

    Pulmonary congestion

    Sinus headache

    7

    2

    0

    6

    14

    14

    5

    2

    5

    7

    1

    1

    Skin and Subcutaneous Tissue Disorders

    Rash

    4

    5

    4

    Pediatrics 2 to 16 years of age

    Table 6 lists adverse reactions from controlled clinical studies of pediatric patients receiving vigabatrin or placebo as adjunctive therapy for refractory complex partial seizures. Adverse reactions that are listed occurred in at least 2% of vigabatrin-treated patients and more frequently than placebo. The median vigabatrin dose was 49.4 mg/kg (range of 8 to 105.9 mg/kg).

    Table 6. Adverse Reactions in Pooled, Adjunctive Trials in Pediatric Patients 3 to 16 Years of Age with Refractory Complex Partial Seizures

    Body System

    Adverse Reaction

    All Vigabatrin

    [N=165]

    %

    Placebo

    [N=104]

    %

    Eye Disorders

    Diplopia

    Blurred vision

    3

    2

    2

    0

    Gastrointestinal Disorders

    Upper abdominal pain

    Constipation

    4

    2

    3

    1

    General Disorders

    Fatigue

    10

    7

    Infections and Infestations

    Upper respiratory tract infection

    Influenza

    Otitis media

    Streptococcal pharyngitis

    Viral gastroenteritis

    15

    7

    6

    4

    2

    11

    3

    4

    3

    0

    Investigations

    Weight gain

    15

    2

    Nervous System Disorders

    Somnolence

    Nystagmus

    Tremor

    Status epilepticus

    6

    4

    4

    2

    5

    3

    2

    1

    Psychiatric Disorders

    Abnormal behavior

    Aggression

    Disorientation

    7

    6

    3

    6

    2

    0

    Safety of vigabatrin for the treatment of refractory CPS in patients 2 years of age is expected to be similar to pediatric patients 3 to 16 years of age.

    Infantile Spasms

    In a randomized, placebo-controlled IS study with a 5 day double-blind treatment phase (n=40), the adverse reactions that occurred in >5% of patients receiving vigabatrin and that occurred more frequently than in placebo patients were somnolence (vigabatrin 45%, placebo 30%), bronchitis (vigabatrin 30%, placebo 15%), ear infection (vigabatrin 10%, placebo 5%), and acute otitis media (vigabatrin 10%, placebo 0%).

    In a dose response study of low-dose (18 to 36 mg/kg/day) versus high-dose (100 to 148 mg/kg/day) vigabatrin, no clear correlation between dose and incidence of adverse reactions was observed. The adverse reactions (≥5% in either dose group) are summarized in Table 7.

    Table 7. Adverse Reactions in a Placebo-Controlled Trial in Patients with Infantile Spasms

    Body System

    Adverse Reaction

    Vigabatrin

    Low Dose

    [N=114]

    %

    Vigabatrin

    High Dose

    [N=108]

    %

    Eye Disorders (other than field or acuity changes)

    Strabismus

    Conjunctivitis

    5

    5

    5

    2

    Gastrointestinal Disorders

    Vomiting

    Constipation

    Diarrhea

    14

    14

    13

    20

    12

    12

    General Disorders

    Fever

    29

    19

    Infections

    Upper respiratory tract infection

    Otitis media

    Viral infection

    Pneumonia

    Candidiasis

    Ear infection

    Gastroenteritis viral

    Sinusitis

    Urinary tract infection

    Influenza

    Croup infectious

    51

    44

    20

    13

    8

    7

    6

    5

    5

    5

    5

    46

    30

    19

    11

    3

    14

    5

    9

    6

    3

    1

    Metabolism & Nutrition Disorders

    Decreased appetite

    9

    7

    Nervous System Disorders

    Sedation

    Somnolence

    Status epilepticus

    Lethargy

    Convulsion

    Hypotonia

    19

    17

    6

    5

    4

    4

    17

    19

    4

    7

    7

    6

    Psychiatric Disorders

    Irritability

    Insomnia

    16

    10

    23

    12

    Respiratory Disorders

    Nasal congestion

    Cough

    13

    3

    4

    8

    Skin and Subcutaneous Tissue Disorders

    Rash

    8

    11

    6.2 Postmarketing Experience

    The following adverse reactions have been identified during postapproval use of vigabatrin. Because these reactions are reported voluntarily from a population of uncertain size, it is not always possible to reliably estimate their frequency or establish a causal relationship to drug exposure. Adverse reactions are categorized by system organ class.

    Birth Defects: Congenital cardiac defects, congenital external ear anomaly, congenital hemangioma, congenital hydronephrosis, congenital male genital malformation, congenital oral malformation, congenital vesicoureteric reflux, dentofacial anomaly, dysmorphism, fetal anticonvulsant syndrome, hamartomas, hip dysplasia, limb malformation, limb reduction defect, low set ears, renal aplasia, retinitis pigmentosa, supernumerary nipple, talipes

    Ear Disorders: Deafness

    Endocrine Disorders: Delayed puberty

    Gastrointestinal Disorders: Gastrointestinal hemorrhage, esophagitis

    General Disorders: Developmental delay, facial edema, malignant hyperthermia, multi-organ failure

    Hepatobiliary Disorders: Cholestasis

    Nervous System Disorders: Dystonia, encephalopathy, hypertonia, hypotonia, muscle spasticity, myoclonus, optic neuritis, dyskinesia

    Psychiatric Disorders: Acute psychosis, apathy, delirium, hypomania, neonatal agitation, psychotic disorder

    Respiratory Disorders: Laryngeal edema, pulmonary embolism, respiratory failure, stridor

    Skin and Subcutaneous Tissue Disorders: Angioedema, maculo-papular rash, pruritus, Stevens-Johnson syndrome (SJS), toxic epidermal necrolysis (TEN), alopecia

  • 7 DRUG INTERACTIONS

    7.1 Antiepileptic Drugs

    Phenytoin

    Although phenytoin dose adjustments are not routinely required, dose adjustment of phenytoin should be considered if clinically indicated, since vigabatrin may cause a moderate reduction in total phenytoin plasma levels [see Clinical Pharmacology (12.3)].

    Clonazepam

    Vigabatrin may moderately increase the Cmax of clonazepam resulting in an increase of clonazepam-associated adverse reactions [see Clinical Pharmacology (12.3)].

    Other AEDs

    There are no clinically significant pharmacokinetic interactions between vigabatrin and either phenobarbital or sodium valproate. Based on population pharmacokinetics, carbamazepine, clorazepate, primidone, and sodium valproate appear to have no effect on plasma concentrations of vigabatrin [see Clinical Pharmacology (12.3)].

    7.2 Oral Contraceptives

    Vigabatrin is unlikely to affect the efficacy of steroid oral contraceptives [see Clinical Pharmacology (12.3)].

    7.3 Drug-Laboratory Test Interactions

    Vigabatrin decreases alanine transaminase (ALT) and aspartate transaminase (AST) plasma activity in up to 90% of patients. In some patients, these enzymes become undetectable. The suppression of ALT and AST activity by vigabatrin may preclude the use of these markers, especially ALT, to detect early hepatic injury.

    Vigabatrin may increase the amount of amino acids in the urine, possibly leading to a false positive test for certain rare genetic metabolic diseases (e.g., alpha aminoadipic aciduria).

  • 8 USE IN SPECIFIC POPULATIONS

    8.1 Pregnancy

    Pregnancy Exposure Registry

    There is a pregnancy exposure registry that monitors pregnancy outcomes in women exposed to AEDs, including vigabatrin, during pregnancy. Encourage women who are taking vigabatrin during pregnancy to enroll in the North American Antiepileptic Drug (NAAED) Pregnancy Registry. This can be done by calling the toll-free number 1-888-233-2334 or visiting the website, http://www.aedpregnancyregistry.org/. This must be done by the patient herself.

    Risk Summary

    There are no adequate data on the developmental risk associated with the use of vigabatrin in pregnant women. Limited available data from case reports and cohort studies pertaining to vigabatrin use in pregnant women have not established a drug-associated risk of major birth defects, miscarriage, or adverse maternal or fetal outcomes. However, based on animal data, vigabatrin use in pregnant women may result in fetal harm.

    When administered to pregnant animals, vigabatrin produced developmental toxicity, including an increase in fetal malformations and offspring neurobehavioral and neurohistopathological effects, at clinically relevant doses. In addition, developmental neurotoxicity was observed in rats treated with vigabatrin during a period of postnatal development corresponding to the third trimester of human pregnancy (see Data).

    In the U.S. general population, the estimated background risk of major birth defects and miscarriage in clinically recognized pregnancies is 2% to 4% and 15% to 20%, respectively. The background risk of major birth defects and miscarriage for the indicated population is unknown.

    Data

    Animal Data

    Administration of vigabatrin (oral doses of 50 to 200 mg/kg/day) to pregnant rabbits throughout the period of organogenesis was associated with an increased incidence of malformations (cleft palate) and embryo-fetal death; these findings were observed in two separate studies. The no-effect dose for adverse effects on embryo-fetal development in rabbits (100 mg/kg/day) is approximately 1/2 the maximum recommended human dose (MRHD) of 3 g/day on a body surface area (mg/m2) basis. In rats, oral administration of vigabatrin (50, 100, or 150 mg/kg/day) throughout organogenesis resulted in decreased fetal body weights and increased incidences of fetal anatomic variations. The no-effect dose for adverse effects on embryo-fetal development in rats (50 mg/kg/day) is approximately 1/5 the MRHD on a mg/m2 basis. Oral administration of vigabatrin (50, 100, 150 mg/kg/day) to rats from the latter part of pregnancy through weaning produced long-term neurohistopathological (hippocampal vacuolation) and neurobehavioral (convulsions) abnormalities in the offspring. A no-effect dose for developmental neurotoxicity in rats was not established; the low-effect dose (50 mg/kg/day) is approximately 1/5 the MRHD on a mg/m2 basis.

    In a published study, vigabatrin (300 or 450 mg/kg) was administered by intraperitoneal injection to a mutant mouse strain on a single day during organogenesis (day 7, 8, 9, 10, 11, or 12). An increase in fetal malformations (including cleft palate) was observed at both doses.

    Oral administration of vigabatrin (5, 15, or 50 mg/kg/day) to young rats during the neonatal and juvenile periods of development (postnatal days 4 to 65) produced neurobehavioral (convulsions, neuromotor impairment, learning deficits) and neurohistopathological (brain vacuolation, decreased myelination, and retinal dysplasia) abnormalities in treated animals. The early postnatal period in rats is generally thought to correspond to late pregnancy in humans in terms of brain development. The no-effect dose for developmental neurotoxicity in juvenile rats (5 mg/kg/day) was associated with plasma vigabatrin exposures (AUC) less than 1/30 of those measured in pediatric patients receiving an oral dose of 50 mg/kg.

    8.2 Lactation

    Risk Summary

    Vigabatrin is excreted in human milk. The effects of vigabatrin on the breastfed infant and on milk production are unknown. Because of the potential for serious adverse reactions from vigabatrin in nursing infants, breastfeeding is not recommended. If exposing a breastfed infant to vigabatrin, observe for any potential adverse effects [see Warnings and Precautions (5.1, 5.3, 5.4, 5.8)].

    8.4 Pediatric Use

    The safety and effectiveness of vigabatrin as adjunctive treatment of refractory complex partial seizures in pediatric patients 2 to 16 years of age have been established and is supported by three double-blind, placebo-controlled studies in patients 3 to 16 years of age, adequate and well-controlled studies in adult patients, pharmacokinetic data from patients 2 years of age and older, and additional safety information in patients 2 years of age [see Clinical Pharmacology (12.3) and Clinical Studies (14.1)]. The dosing recommendation in this population varies according to age group and is weight-based [see Dosage and Administration (2.2)]. Adverse reactions in this pediatric population are similar to those observed in the adult population [see Adverse Reactions (6.1)].

    The safety and effectiveness of vigabatrin as monotherapy for pediatric patients with infantile spasms (1 month to 2 years of age) have been established [see Dosage and Administration (2.3) and Clinical Studies (14.2)].

    Safety and effectiveness as adjunctive treatment of refractory complex partial seizures in pediatric patients below the age of 2 and as monotherapy for the treatment of infantile spasms in pediatric patients below the age of 1 month have not been established.

    Duration of therapy for infantile spasms was evaluated in a post hoc analysis of a Canadian Pediatric Epilepsy Network (CPEN) study of developmental outcomes in infantile spasms patients. This analysis suggests that a total duration of 6 months of vigabatrin therapy is adequate for the treatment of infantile spasms. However, prescribers must use their clinical judgment as to the most appropriate duration of use [see Clinical Studies (14.2)].

    Abnormal MRI signal changes and Intramyelinic Edema (IME) in infants and young children being treated with vigabatrin have been observed [see Warnings and Precautions (5.3, 5.4)].

    Juvenile Animal Toxicity Data

    Oral administration of vigabatrin (5, 15, or 50 mg/kg/day) to young rats during the neonatal and juvenile periods of development (postnatal days 4 to 65) produced neurobehavioral (convulsions, neuromotor impairment, learning deficits) and neurohistopathological (brain gray matter vacuolation, decreased myelination, and retinal dysplasia) abnormalities. The no-effect dose for developmental neurotoxicity in juvenile rats (the lowest dose tested) was associated with plasma vigabatrin exposures (AUC) substantially less than those measured in pediatric patients at recommended doses. In dogs, oral administration of vigabatrin (30 or 100 mg/kg/day) during selected periods of juvenile development (postnatal days 22 to 112) produced neurohistopathological abnormalities (brain gray matter vacuolation). Neurobehavioral effects of vigabatrin were not assessed in the juvenile dog. A no-effect dose for neurohistopathology was not established in juvenile dogs; the lowest effect dose (30 mg/kg/day) was associated with plasma vigabatrin exposures lower than those measured in pediatric patients at recommended doses [see Warnings and Precautions (5.4)].

    8.5 Geriatric Use

    Clinical studies of vigabatrin did not include sufficient numbers of patients aged 65 and over to determine whether they responded differently from younger patients.

    Vigabatrin is known to be substantially excreted by the kidney, and the risk of toxic reactions to this drug may be greater in patients with impaired renal function. Because elderly patients are more likely to have decreased renal function, care should be taken in dose selection, and it may be useful to monitor renal function.

    Oral administration of a single dose of 1.5 g of vigabatrin to elderly (≥65 years) patients with reduced creatinine clearance (<50 mL/min) was associated with moderate to severe sedation and confusion in 4 of 5 patients, lasting up to 5 days. The renal clearance of vigabatrin was 36% lower in healthy elderly subjects (≥65 years) than in young healthy males. Adjustment of dose or frequency of administration should be considered. Such patients may respond to a lower maintenance dose [see Dosage and Administration (2.4) and Clinical Pharmacology (12.3)].

    Other reported clinical experience has not identified differences in responses between the elderly and younger patients.

    8.6 Renal Impairment

    Dose adjustment, including initiating treatment with a lower dose, is necessary in pediatric patients 2 years of age and older and adults with mild (creatinine clearance >50 to 80 mL/min), moderate (creatinine clearance >30 to 50 mL/min) and severe (creatinine clearance >10 to 30 mL/min) renal impairment [see Dosage and Administration (2.4) and Clinical Pharmacology (12.3)].

  • 9 DRUG ABUSE AND DEPENDENCE

    9.1 Controlled Substance

    Vigabatrin is not a controlled substance.

    9.2 Abuse

    Vigabatrin did not produce adverse events or overt behaviors associated with abuse when administered to humans or animals. It is not possible to predict the extent to which a CNS active drug will be misused, diverted, and/or abused once marketed. Consequently, physicians should carefully evaluate patients for history of drug abuse and follow such patients closely, observing them for signs of misuse or abuse of vigabatrin (e.g., incrementation of dose, drug-seeking behavior).

    9.3 Dependence

    Following chronic administration of vigabatrin to animals, there were no apparent withdrawal signs upon drug discontinuation. However, as with all AEDs, vigabatrin should be withdrawn gradually to minimize increased seizure frequency [see Warnings and Precautions (5.6)].

  • 10 OVERDOSAGE

    10.1 Signs, Symptoms, and Laboratory Findings of Overdosage

    Confirmed and/or suspected vigabatrin overdoses have been reported during clinical trials and in post marketing surveillance. No vigabatrin overdoses resulted in death. When reported, the vigabatrin dose ingested ranged from 3 g to 90 g, but most were between 7.5 g and 30 g. Nearly half the cases involved multiple drug ingestions including carbamazepine, barbiturates, benzodiazepines, lamotrigine, valproic acid, acetaminophen, and/or chlorpheniramine.

    Coma, unconsciousness, and/or drowsiness were described in the majority of cases of vigabatrin overdose. Other less commonly reported symptoms included vertigo, psychosis, apnea or respiratory depression, bradycardia, agitation, irritability, confusion, headache, hypotension, abnormal behavior, increased seizure activity, status epilepticus, and speech disorder. These symptoms resolved with supportive care.

    10.2 Management of Overdosage

    There is no specific antidote for vigabatrin overdose. Standard measures to remove unabsorbed drug should be used, including elimination by emesis or gastric lavage. Supportive measures should be employed, including monitoring of vital signs and observation of the clinical status of the patient.

    In an in vitro study, activated charcoal did not significantly adsorb vigabatrin.

    The effectiveness of hemodialysis in the treatment of vigabatrin overdose is unknown. In isolated case reports in renal failure patients receiving therapeutic doses of vigabatrin, hemodialysis reduced vigabatrin plasma concentrations by 40% to 60%.

  • 11 DESCRIPTION

    Vigabatrin, USP is an oral antiepileptic drug and is available as white film-coated 500 mg tablets.

    The chemical name of vigabatrin, USP, a racemate consisting of two enantiomers, is (±) 4-amino-5-hexenoic acid. The molecular formula is C6H11NO2 and the molecular weight is 129.16. It has the following structural formula:

    formula 

    Vigabatrin, USP is a white to off-white powder which is freely soluble in water, slightly soluble in methyl alcohol, very slightly soluble in ethyl alcohol and chloroform, and insoluble in toluene and hexane. The pH of a 1% aqueous solution is about 6.9. The n-octanol/water partition coefficient of vigabatrin is about 0.011 (log P=-1.96) at physiologic pH. Vigabatrin, USP melts with decomposition in a 3-degree range within the temperature interval of 171°C to 176°C. The dissociation constants (pKa) of vigabatrin are 4 and 9.7 at room temperature (25°C).

    Each vigabatrin tablet contains 500 mg of vigabatrin, USP. The inactive ingredients are hydroxypropyl methylcellulose, magnesium stearate, microcrystalline cellulose, polyethylene glycols, povidone, sodium starch glycolate, and titanium dioxide.

  • 12 CLINICAL PHARMACOLOGY

    12.1 Mechanism of Action

    The precise mechanism of vigabatrin’s anti-seizure effect is unknown, but it is believed to be the result of its action as an irreversible inhibitor of γ-aminobutyric acid transaminase (GABA-T), the enzyme responsible for the metabolism of the inhibitory neurotransmitter GABA. This action results in increased levels of GABA in the central nervous system.

    No direct correlation between plasma concentration and efficacy has been established. The duration of drug effect is presumed to be dependent on the rate of enzyme re-synthesis rather than on the rate of elimination of the drug from the systemic circulation.

    12.2 Pharmacodynamics

    Effects on Electrocardiogram

    There is no indication of a QT/QTc prolonging effect of vigabatrin in single doses up to 6 g. In a randomized, placebo-controlled, crossover study, 58 healthy subjects were administered a single oral dose of vigabatrin (3 g and 6 g) and placebo. Peak concentrations for 6 g vigabatrin were approximately 2-fold higher than the peak concentrations following the 3 g single oral dose.

    12.3 Pharmacokinetics

    Vigabatrin displayed linear pharmacokinetics after administration of single doses ranging from 0.5 g to 4 g, and after administration of repeated doses of 0.5 g and 2 g twice daily. Bioequivalence has been established between the oral solution and tablet formulations. The following PK information (Tmax, half-life, and clearance) of vigabatrin was obtained from stand-alone PK studies and population PK analyses.

    Absorption

    Following oral administration, vigabatrin is essentially completely absorbed. The time to maximum concentration (Tmax) is approximately 1 hour for children and adolescents (3 years to 16 years of age) and adults, and approximately 2.5 hours for infants (5 months to 2 years of age). There was little accumulation with multiple dosing in adult and pediatric patients. A food effect study involving administration of vigabatrin to healthy volunteers under fasting and fed conditions indicated that the Cmax was decreased by 33%, Tmax was increased to 2 hours, and AUC was unchanged under fed conditions.

    Distribution

    Vigabatrin does not bind to plasma proteins. Vigabatrin is widely distributed throughout the body; mean steady-state volume of distribution is 1.1 L/kg (CV = 20%).

    Metabolism and Elimination

    Vigabatrin is not significantly metabolized; it is eliminated primarily through renal excretion. The terminal half-life of vigabatrin is about 5.7 hours for infants (5 months to 2 years of age), 6.8 hours for children (3 to 9 years of age), 9.5 hours for children and adolescents (10 to 16 years of age), and 10.5 hours for adults. Following administration of [14]C-vigabatrin to healthy male volunteers, about 95% of total radioactivity was recovered in the urine over 72 hours with the parent drug representing about 80% of this. Vigabatrin induces CYP2C9, but does not induce other hepatic cytochrome P450 enzyme systems.

    Specific Populations

    Geriatric

    The renal clearance of vigabatrin in healthy elderly patients (≥65 years of age) was 36% less than those in healthy younger patients. This finding is confirmed by an analysis of data from a controlled clinical trial [see Use in Specific Populations (8.5)].

    Pediatric

    The clearance of vigabatrin is 2.4 L/hr for infants (5 months to 2 years of age), 5.1 L/hr for children (3 to 9 years of age), 5.8 L/hr for children and adolescents (10 to 16 years of age) and 7 L/hr for adults.

    Gender

    No gender differences were observed for the pharmacokinetic parameters of vigabatrin in patients.

    Race

    No specific study was conducted to investigate the effects of race on vigabatrin pharmacokinetics. A cross study comparison between 23 Caucasian and 7 Japanese patients who received 1, 2, and 4 g of vigabatrin indicated that the AUC, Cmax, and half-life were similar for the two populations. However, the mean renal clearance of Caucasians (5.2 L/hr) was about 25% higher than the Japanese (4.0 L/hr). Inter-subject variability in renal clearance was 20% in Caucasians and was 30% in Japanese.

    Renal Impairment

    Mean AUC increased by 30% and the terminal half-life increased by 55% (8.1 hr vs 12.5 hr) in adult patients with mild renal impairment (CLcr from >50 to 80 mL/min) in comparison to normal subjects.

    Mean AUC increased by two-fold and the terminal half-life increased by two-fold in adult patients with moderate renal impairment (CLcr from >30 to 50 mL/min) in comparison to normal subjects.

    Mean AUC increased by 4.5-fold and the terminal half-life increased by 3.5-fold in adult patients with severe renal impairment (CLcr from >10 to 30 mL/min) in comparison to normal subjects.

    Adult patients with renal impairment

    Dosage adjustment, including starting at a lower dose, is recommended for adult patients with any degree of renal impairment [see Use in Specific Populations (8.6) and Dosage and Administration (2.4)].

    Infants with renal impairment

    Information about how to adjust the dose in infants with renal impairment is unavailable.

    Pediatric patients 2 years and older with renal impairment

    Although information is unavailable on the effects of renal impairment on vigabatrin clearance in pediatric patients 2 years and older, dosing can be calculated based upon adult data and an established formula [see Use in Specific Populations (8.6) and Dosage and Administration (2.4)].

    Hepatic Impairment

    Vigabatrin is not significantly metabolized. The pharmacokinetics of vigabatrin in patients with impaired liver function has not been studied.

    Drug Interactions

    Phenytoin

    A 16% to 20% average reduction in total phenytoin plasma levels was reported in adult controlled clinical studies. In vitro drug metabolism studies indicate that decreased phenytoin concentrations upon addition of vigabatrin therapy are likely to be the result of induction of cytochrome P450 2C enzymes in some patients. Although phenytoin dose adjustments are not routinely required, dose adjustment of phenytoin should be considered if clinically indicated [see Drug Interactions (7.1)].

    Clonazepam

    In a study of 12 healthy adult volunteers, clonazepam (0.5 mg) co-administration had no effect on vigabatrin (1.5 g twice daily) concentrations. Vigabatrin increases the mean Cmax of clonazepam by 30% and decreases the mean Tmax by 45% [see Drug Interactions (7.1)].

    Other AEDs

    When co-administered with vigabatrin, phenobarbital concentration (from phenobarbital or primidone) was reduced by an average of 8% to 16%, and sodium valproate plasma concentrations were reduced by an average of 8%. These reductions did not appear to be clinically relevant. Based on population pharmacokinetics, carbamazepine, clorazepate, primidone, and sodium valproate appear to have no effect on plasma concentrations of vigabatrin [see Drug Interactions (7.1)].

    Alcohol

    Co-administration of ethanol (0.6 g/kg) with vigabatrin (1.5 g twice daily) indicated that neither drug influences the pharmacokinetics of the other.

    Oral Contraceptives

    In a double-blind, placebo-controlled study using a combination oral contraceptive containing 30 mcg ethinyl estradiol and 150 mcg levonorgestrel, vigabatrin (3 g/day) did not interfere significantly with the cytochrome P450 isoenzyme (CYP3A)-mediated metabolism of the contraceptive tested. Based on this study, vigabatrin is unlikely to affect the efficacy of steroid oral contraceptives. Additionally, no significant difference in pharmacokinetic parameters (elimination half-life, AUC, Cmax, apparent oral clearance, time to peak, and apparent volume of distribution) of vigabatrin were found after treatment with ethinyl estradiol and levonorgestrel [see Drug Interactions (7.2)].

  • 13 NONCLINICAL TOXICOLOGY

    13.1 Carcinogenesis, Mutagenesis, Impairment of Fertility

    Vigabatrin showed no carcinogenic potential in mouse or rat when given in the diet at doses up to 150 mg/kg/day for 18 months (mouse) or at doses up to 150 mg/kg/day for 2 years (rat). These doses are less than the maximum recommended human dose (MRHD) for infantile spasms (150 mg/kg/day) and for refractory complex partial seizures (3 g/day) on a mg/m2 basis.

    Vigabatrin was negative in in vitro (Ames, CHO/HGPRT mammalian cell forward gene mutation, chromosomal aberration in rat lymphocytes) and in in vivo (mouse bone marrow micronucleus) assays.

    No adverse effects on male or female fertility were observed in rats at oral doses up to 150 mg/kg/day (approximately 1/2 the MRHD of 3 g/day on a mg/m2 basis for refractory complex partial seizures).

  • 14 CLINICAL STUDIES

    14.1 Complex Partial Seizures

    Adults

    The effectiveness of vigabatrin as adjunctive therapy in adult patients was established in two U.S. multicenter, double-blind, placebo-controlled, parallel-group clinical studies. A total of 357 adults (age 18 to 60 years) with complex partial seizures, with or without secondary generalization were enrolled (Studies 1 and 2). Patients were required to be on an adequate and stable dose of an anticonvulsant, and have a history of failure on an adequate regimen of carbamazepine or phenytoin. Patients had a history of about 8 seizures per month (median) for about 20 years (median) prior to entrance into the study. These studies were not capable by design of demonstrating direct superiority of vigabatrin over any other anticonvulsant added to a regimen to which the patient had not adequately responded. Further, in these studies, patients had previously been treated with a limited range of anticonvulsants.

    The primary measure of efficacy was the patient’s reduction in mean monthly frequency of complex partial seizures plus partial seizures secondarily generalized at end of study compared to baseline.

    Study 1

    Study 1 (N=174) was a randomized, double-blind, placebo-controlled, dose-response study consisting of an 8-week baseline period followed by an 18-week treatment period. Patients were randomized to receive placebo or 1, 3, or 6 g/day vigabatrin administered twice daily. During the first 6 weeks following randomization, the dose was titrated upward beginning with 1 g/day and increasing by 0.5 g/day on days 1 and 5 of each subsequent week in the 3 g/day and 6 g/day groups, until the assigned dose was reached.

    Results for the primary measure of effectiveness, reduction in monthly frequency of complex partial seizures, are shown in Table 8. The 3 g/day and 6 g/day dose groups were statistically significantly superior to placebo, but the 6 g/day dose was not superior to the 3 g/day dose.

    Table 8. Median Monthly Frequency of Complex Partial Seizures+

    N

    Baseline

    Endstudy

    Placebo

    45

    9.0

    8.8

    1 g/day vigabatrin

    45

    8.5

    7.7

    3 g/day vigabatrin

    41

    8.5

    3.7*

    6 g/day vigabatrin

    43

    8.5

    4.5*

    *p<0.05 compared to placebo

    +Including one patient with simple partial seizures with secondary generalization only

    Figure 1 presents the percentage of patients (X-axis) with a percent reduction in seizure frequency (responder rate) from baseline to the maintenance phase at least as great as that represented on the Y-axis. A positive value on the Y-axis indicates an improvement from baseline (i.e., a decrease in complex partial seizure frequency), while a negative value indicates a worsening from baseline (i.e., an increase in complex partial seizure frequency). Thus, in a display of this type, a curve for an effective treatment is shifted to the left of the curve for placebo. The proportion of patients achieving any particular level of reduction in complex partial seizure frequency was consistently higher for the vigabatrin 3 and 6 g/day groups compared to the placebo group. For example, 51% of patients randomized to vigabatrin 3 g/day and 53% of patients randomized to vigabatrin 6 g/day experienced a 50% or greater reduction in seizure frequency, compared to 9% of patients randomized to placebo. Patients with an increase in seizure frequency >100% are represented on the Y-axis as equal to or greater than -100%.

    figure 1 

    Study 2

    Study 2 (N=183 randomized, 182 evaluated for efficacy) was a randomized, double-blind, placebo-controlled, parallel study consisting of an 8-week baseline period and a 16-week treatment period. During the first 4 weeks following randomization, the dose of vigabatrin was titrated upward beginning with 1 g/day and increased by 0.5 g/day on a weekly basis to the maintenance dose of 3 g/day.

    Results for the primary measure of effectiveness, reduction in monthly complex partial seizure frequency, are shown in Table 9. Vigabatrin 3 g/day was statistically significantly superior to placebo in reducing seizure frequency.

    Table 9. Median Monthly Frequency of Complex Partial Seizures

    N

    Baseline

    Endstudy

    Placebo

    90

    9.0

    7.5

    3 g/day vigabatrin

    92

    8.3

    5.5*

    *p<0.05 compared to placebo

    Figure 2 presents the percentage of patients (X-axis) with a percent reduction in seizure frequency (responder rate) from baseline to the maintenance phase at least as great as that represented on the Y-axis. A positive value on the Y-axis indicates an improvement from baseline (i.e., a decrease in complex partial seizure frequency), while a negative value indicates a worsening from baseline (i.e., an increase in complex partial seizure frequency). Thus, in a display of this type, a curve for an effective treatment is shifted to the left of the curve for placebo. The proportion of patients achieving any particular level of reduction in seizure frequency was consistently higher for the vigabatrin 3 g/day group compared to the placebo group. For example, 39% of patients randomized to vigabatrin (3 g/day) experienced a 50% or greater reduction in complex partial seizure frequency, compared to 21% of patients randomized to placebo. Patients with an increase in seizure frequency >100% are represented on the Y-axis as equal to or greater than -100%.

    figure 2 

    For both studies, there was no difference in the effectiveness of vigabatrin between male and female patients. Analyses of age and race were not possible as nearly all patients were between the ages of 18 to 65 and Caucasian.

    Pediatric patients 3 to 16 years of age

    Vigabatrin was studied in three double-blind, placebo-controlled, parallel-group studies in 269 patients who received vigabatrin and 104 patients who received placebo. No individual study was considered adequately powered to determine efficacy in pediatric patients age 3 years and above. The data from all three pediatric studies were pooled and used in a pharmacometric bridging analysis using weight-normalized doses to establish efficacy and determine appropriate dosing. All three studies were randomized, double-blind, placebo-controlled, parallel-group, adjunctive-treatment studies in patients aged 3 to 16 years with uncontrolled complex partial seizures with or without secondary generalization. The study period included a 6 to 10 week baseline phase and a 14 to 17 week treatment phase (composed of a titration and maintenance period).

    The pharmacometric bridging approach consisted of defining a weight-normalized dose-response, and showing that a similar dose-response relationship exists between pediatric patients and adult patients when vigabatrin was given as adjunctive therapy for complex partial seizures. Dosing recommendations in pediatric patients 2 to 16 years of age were derived from simulations utilizing these pharmacometric dose-response analyses [see Dosage and Administration (2.2)].

    14.2 Infantile Spasms

    The effectiveness of vigabatrin as monotherapy was established for infantile spasms in two multicenter controlled studies. Both studies were similar in terms of disease characteristics and prior treatments of patients and all enrolled infants had a confirmed diagnosis of infantile spasms.

    Study 1

    Study 1 (N=221) was a multicenter, randomized, low-dose high-dose, parallel-group, partially-blind (caregivers knew the actual dose but not whether their child was classified as low or high dose; EEG reader was blinded but investigators were not blinded) study to evaluate the safety and efficacy of vigabatrin in patients <2 years of age with new-onset infantile spasms. Patients with both symptomatic and cryptogenic etiologies were studied. The study was comprised of two phases. The first phase was a 14 to 21 day partially-blind phase in which patients were randomized to receive either low-dose (18 to 36 mg/kg/day) or high-dose (100 to 148 mg/kg/day) vigabatrin. Study drug was titrated over 7 days, followed by a constant dose for 7 days. If the patient became spasm-free on or before day 14, another 7 days of constant dose was administered. The primary efficacy endpoint of this study was the proportion of patients who were spasm-free for 7 consecutive days beginning within the first 14 days of vigabatrin therapy. Patients considered spasm-free were defined as those patients who remained free of spasms (evaluated according to caregiver response to direct questioning regarding spasm frequency) and who had no indication of spasms or hypsarrhythmia during 8 hours of CCTV EEG recording (including at least one sleep-wake-sleep cycle) performed within 3 days of the seventh day of spasm freedom and interpreted by a blinded EEG reader. Seventeen patients in the high-dose group achieved spasm freedom compared with 8 patients in the low dose group. This difference was statistically significant (p=0.0375). Primary efficacy results are shown in Table 10.

    Table 10. Spasm Freedom by Primary Criteria (Study 1)

    Vigabatrin Treatment Group

    18 to 36 mg/kg/day

    [N=114]

    n (%)

    100 to 148 mg/kg/day

    [N=107]

    n (%)

    Patients who Achieved Spasm Freedom

    8 (7.0)

    17 (15.9)

    p=0.0375

    Note: Primary criteria were evaluated based on caregiver assessment plus CCTV EEG confirmation within 3 days of the seventh day of spasm freedom.

    Study 2

    Study 2 (N=40) was a multicenter, randomized, double-blind, placebo-controlled, parallel-group study consisting of a pre-treatment (baseline) period of 2 to 3 days, followed by a 5-day double-blind treatment phase during which patients were treated with vigabatrin (initial dose of 50 mg/kg/day with titration allowed to 150 mg/kg/day) or placebo. The primary efficacy endpoint in this study was the average percent change in daily spasm frequency, assessed during a pre-defined and consistent 2-hour window of evaluation, comparing baseline to the final 2 days of the 5-day double-blind treatment phase. No statistically significant differences were observed in the average frequency of spasms using the 2-hour evaluation window. However, a post-hoc alternative efficacy analysis, using a 24-hour clinical evaluation window found a statistically significant difference in the overall percentage of reductions in spasms between the vigabatrin group (68.9%) and the placebo group (17%) (p=0.030).

    Duration of therapy for infantile spasms was evaluated in a post hoc analysis of a Canadian Pediatric Epilepsy Network (CPEN) study of developmental outcomes in infantile spasms patients. The 38/68 infants in the study who had responded to vigabatrin therapy (complete cessation of spasms and hypsarrhythmia) continued vigabatrin therapy for a total duration of 6 months therapy. The 38 infants who responded were then followed for an additional 18 months after discontinuation of vigabatrin to determine their clinical outcome. A post hoc analysis indicated no observed recurrence of infantile spasms in any of these 38 infants.

  • 16 HOW SUPPLIED/STORAGE AND HANDLING

    16.1 How Supplied

    Vigabatrin tablets USP, 500 mg are supplied as white to off-white, film-coated, oval, biconvex, scored on one side, and debossed with “AN24” on the other side.

    They are available as follows:

    Bottles of 100:                        NDC 69238-1424-1

    16.2 Storage and Handling

    Store at 20° to 25°C (68° to 77°F) [see USP Controlled Room Temperature]. Dispense in a tight container as defined in the USP.

  • 17 PATIENT COUNSELING INFORMATION

    Advise patients and caregivers to read the FDA-approved patient labeling (Medication Guide and Instructions for Use).

    Permanent Vision Loss

    Inform patients and caregivers of the risk of permanent vision loss, particularly loss of peripheral vision, from vigabatrin, and the need for monitoring vision [see Warnings and Precautions (5.1)].

    Monitoring of vision, including assessment of visual fields and visual acuity, is recommended at baseline (no later than 4 weeks after starting vigabatrin), at least every 3 months while on therapy, and about 3 to 6 months after discontinuation of therapy. In patients for whom vision testing is not possible, treatment may continue without recommended testing according to clinical judgment with appropriate patient or caregiver counseling. Patients or caregivers should be informed that if baseline or subsequent vision is not normal, vigabatrin should only be used if the benefits of vigabatrin treatment clearly outweigh the risks of additional vision loss.

    Advise patients and caregivers that vision testing may be insensitive and may not detect vision loss before it is severe. Also advise patients and caregivers that if vision loss is documented, such loss is irreversible. Ensure that both of these points are understood by patients and caregivers.

    Patients and caregivers should be informed that if changes in vision are suspected, they should notify their physician immediately.

    Vigabatrin REMS Program

    Vigabatrin is available only through a restricted program called the Vigabatrin REMS Program [see Warnings and Precautions (5.2)]. Inform patients/caregivers of the following:

    • Patients/caregivers must be enrolled in the program.
    • Vigabatrin is only available through pharmacies that are enrolled in the Vigabatrin REMS Program.

    MRI Abnormalities in Infants

    Inform caregiver(s) of the possibility that infants may develop an abnormal MRI signal of unknown clinical significance [see Warnings and Precautions (5.3)].

    Suicidal Thinking and Behavior

    Counsel patients, their caregiver(s), and families that AEDs, including vigabatrin, may increase the risk of suicidal thoughts and behavior. Also advise patients and caregivers of the need to be alert for the emergence or worsening of symptoms of depression, any unusual changes in mood or behavior, or the emergence of suicidal thoughts, behavior, or thoughts of self-harm. Behaviors of concern should be reported immediately to healthcare providers [see Warnings and Precautions (5.5)].

    Pregnancy

    Advise pregnant women and women of child-bearing potential that the use of vigabatrin during pregnancy can cause fetal harm which may occur early in pregnancy before many women know they are pregnant. Instruct patients to notify their physician if they become pregnant or intend to become pregnant during therapy. Advise patients that there is a pregnancy exposure registry that collects information about the safety of antiepileptic drugs during pregnancy [see Use in Specific Populations (8.1)].

    Nursing

    Counsel patients that vigabatrin is excreted in breast milk. Because of the potential for serious adverse reactions in nursing infants from vigabatrin, breastfeeding is not recommended. If a decision is made to breastfeed, nursing mothers should be counseled to observe their infants for signs of vision loss, sedation and poor sucking [see Use in Specific Populations (8.2)].

    Withdrawal of Vigabatrin Therapy

    Instruct patients and caregivers not to suddenly discontinue vigabatrin therapy without consulting with their healthcare provider. As with all AEDs, withdrawal should normally be gradual [see Warnings and Precautions (5.6)].

    Distributed by:
    Amneal Pharmaceuticals LLC
    Bridgewater, NJ 08807

    Rev. 11-2022-06

    Dispense with Medication Guide available at: documents.amneal.com/mg/vigabatrin-tablets.pdf

  • MEDICATION GUIDE

    Dispense with Medication Guide available at: documents.amneal.com/mg/vigabatrin-tablets.pdf

    Vigabatrin (vye ga’ ba trin) Tablets, USP

    What is the most important information I should know about vigabatrin tablets?

    Vigabatrin tablets can cause serious side effects, including:

    • Permanent vision loss
    • Magnetic resonance imaging (MRI) changes in babies with infantile spasms (IS)
    • Risk of suicidal thoughts or actions

    1. Permanent vision loss:

    Vigabatrin can damage the vision of anyone who takes it. Some people can have severe loss particularly to their ability to see to the side when they look straight ahead (peripheral vision). With severe vision loss, you may only be able to see things straight in front of you (sometimes called “tunnel vision”). You may also have blurry vision. If this happens, it will not get better.

    • Vision loss and use of vigabatrin in adults and children 2 years and older: Because of the risk of vision loss, vigabatrin is used to treat complex partial seizures (CPS) only in people who do not respond well enough to several other medicines.

    Tell your healthcare provider right away if you (or your child):

    • might not be seeing as well as before starting vigabatrin.
    • start to trip, bump into things, or are more clumsy than usual.
    • are surprised by people or things coming in front of you that seem to come out of nowhere.
    • These changes can mean that you (or your child) have damage to your vision.
    • It is recommended that your healthcare provider test your (or your child’s) vision (including peripheral vision) and visual acuity (ability to read an eye chart) before you (or your child) start vigabatrin or within 4 weeks after starting vigabatrin, and at least every 3 months after that until vigabatrin is stopped. It is also recommended that you (or your child) have a vision test about 3 to 6 months after vigabatrin is stopped. Your vision loss may get worse after you stop taking vigabatrin.
    • Some people are not able to complete testing of vision. Your healthcare provider will determine if you (or your child) can be tested. If you (or your child) cannot complete vision testing, your healthcare provider may continue prescribing vigabatrin, but your healthcare provider will not be able to watch for any vision loss you (or your child) may get.
    • Even if your vision (or your child’s vision) seems fine, it is important that you (or your child) get these regular vision tests because vision damage can happen before you (or your child) notice any changes.
    • These vision tests cannot prevent the vision damage that can happen with vigabatrin, but they do allow the healthcare provider to decide if you (or your child) should stop vigabatrin if your vision has gotten worse.
    • Vision testing may not detect vision loss before it is severe.
    • If you do not have these vision tests regularly, your healthcare provider may stop prescribing vigabatrin.
    • If you drive and your vision is damaged by vigabatrin, driving might be more dangerous, or you may not be able to drive safely at all. Talk about this with your healthcare provider.
    • Vision loss in babies: Because of the risk of vision loss, vigabatrin is used in babies 1 month to 2 years of age with infantile spasms (IS) only when you and your healthcare provider decide that the possible benefits of vigabatrin are more important than the risks.
    • Parents or caregivers are not likely to recognize the symptoms of vision loss in babies until it is severe. Healthcare providers may not find vision loss in babies until it is severe.
    • It is difficult to test vision in babies, but, to the extent possible, all babies should have their vision tested before starting vigabatrin or within 4 weeks after starting vigabatrin, and every 3 months after that until vigabatrin is stopped. Your baby should also have a vision test about 3 to 6 months after vigabatrin is stopped.
    • Your baby may not be able to be tested. Your healthcare provider will determine if your baby can be tested. If your baby cannot be tested, your healthcare provider may continue prescribing vigabatrin, but your healthcare provider will not be able to watch for any vision loss.

    Tell your healthcare provider right away if you think that your baby is:

    • not seeing as well as before taking vigabatrin.
    • acting differently than normal.
    • Even if your baby’s vision seems fine, it is important to get regular vision tests because damage can happen before your baby acts differently. Even these regular vision exams may not show the damage to your baby’s vision before it is severe and permanent.

      All people who take vigabatrin:

    • You are at risk for permanent vision loss with any amount of vigabatrin.
    • Your risk of vision loss may be higher the more vigabatrin you take daily and the longer you take it.
    • It is not possible for your healthcare provider to know when vision loss will happen. It could happen soon after starting vigabatrin or any time during treatment. It may even happen after treatment has stopped.
    • Because vigabatrin might cause permanent vision loss, it is available to healthcare providers and patients only under a special program called the Vigabatrin Risk Evaluation and Mitigation Strategy (REMS) Program. Vigabatrin can only be prescribed to people who are enrolled in this program. As part of the Vigabatrin REMS Program, it is recommended that your healthcare provider test your (or your child’s) vision from time to time (periodically) while you (or your child) are being treated with vigabatrin, and even after you (or your child) stop treatment. Your healthcare provider will explain the details of the Vigabatrin REMS Program to you. For more information, go to www.vigabatrinREMS.com or call 1-866-244-8175.

    2. Magnetic resonance imaging (MRI) changes in babies with infantile spasms:

    Brain pictures taken by magnetic resonance imaging (MRI) show changes in some babies after they are given vigabatrin. It is not known if these changes are harmful.

    3. Risk of suicidal thoughts or actions:

    Like other antiepileptic drugs, vigabatrin may cause suicidal thoughts or actions in a very small number of people, about 1 in 500 people taking it. Call a healthcare provider right away if you or your child have any of these symptoms, especially if they are new, worse, or worry you:

    • thoughts about suicide or dying
    • new or worse depression
    • feeling agitated or restless
    • trouble sleeping (insomnia)
    • acting aggressive, being angry, or violent
    • an extreme increase in activity and talking (mania)
    • attempts to commit suicide
    • new or worse anxiety
    • panic attacks
    • new or worse irritability
    • acting on dangerous impulses
    • other unusual changes in behavior or mood

    Suicidal thoughts or actions can be caused by things other than medicines. If you or your child have suicidal thoughts or actions, your healthcare provider may check for other causes.

    How can I watch for early symptoms of suicidal thoughts and actions?

    • Pay attention to any changes, especially sudden changes, in mood, behaviors, thoughts, or feelings.
    • Keep all follow-up visits with your healthcare provider as scheduled.
    • Call your healthcare provider between visits as needed, especially if you are worried about symptoms.
    • Do not stop vigabatrin without first talking to a healthcare provider.
    • Stopping vigabatrin suddenly can cause serious problems. Stopping a seizure medicine suddenly can cause seizures that will not stop (status epilepticus) in people who are being treated for seizures.

    What are vigabatrin tablets?

    • Vigabatrin is a prescription medicine used along with other treatments to treat adults and children 2 years and older with complex partial seizures (CPS) if:
    • the CPS do not respond well enough to several other treatments, and
    • you and your healthcare provider decide the possible benefit of taking vigabatrin is more important than the risk of vision loss.

    Vigabatrin should not be the first medicine used to treat CPS.

    • Vigabatrin is also used to treat babies 1 month to 2 years of age who have infantile spasms (IS) if you and your healthcare provider decide the possible benefits of taking vigabatrin are more important than the possible risk of vision loss.

    What should I tell my healthcare provider before starting vigabatrin tablets?

    If you or your child has CPS, before taking vigabatrin tablets tell your healthcare provider about all of your medical conditions, including if you or your child:

    • have or had an allergic reaction to vigabatrin, such as hives, itching, or trouble breathing.
    • have or had any vision problems.
    • have or had any kidney problems.
    • have or had low red blood cell counts (anemia).
    • have or had any nervous or mental illnesses, such as depression, mood problems, thoughts of suicide, or attempts at suicide.
    • are breastfeeding or planning to breastfeed. Vigabatrin can pass into breast milk and may harm your baby. Talk to your healthcare provider about the best way to feed your baby if you take vigabatrin.
    • are pregnant or plan to become pregnant. Vigabatrin can cause harm to your unborn baby. You and your healthcare provider will have to decide if you should take vigabatrin while you are pregnant.

    Pregnancy Registry:

    If you become pregnant while taking vigabatrin, talk to your healthcare provider about registering with the North American Antiepileptic Drug Pregnancy Registry. You can enroll in this registry by calling 1-888-233-2334. Information on the registry can also be found at the website http://www.aedpregnancy.org/. The purpose of this registry is to collect information about the safety of antiepileptic medicine during pregnancy.

    If you are a parent or caregiver whose baby has IS, before giving vigabatrin to your baby, tell your healthcare provider about all of your baby’s medical conditions, including if your baby has or ever had:

    • an allergic reaction to vigabatrin, such as hives, itching, or trouble breathing.
    • any vision problems.
    • any kidney problems.

    Tell your healthcare provider about all the medicines you or your child take, including prescription and over-the-counter medicines, vitamins, and herbal supplements. Vigabatrin and other medicines may affect each other causing side effects.

    How should I take vigabatrin tablets?

    • Vigabatrin comes as tablets.
    • You or your child will receive vigabatrin from a specialty pharmacy.
    • Take vigabatrin exactly as your healthcare provider tells you to. Vigabatrin is usually taken 2 times each day.
    • Vigabatrin may be taken with or without food.
    • Before starting to take vigabatrin, talk to your healthcare provider about what you or your child should do if a vigabatrin dose is missed.
    • If you or your child are taking vigabatrin for CPS and the seizures do not improve enough within 3 months, your healthcare provider will stop prescribing vigabatrin.
    • If your child is taking vigabatrin for IS and the seizures do not improve within 2 to 4 weeks, your healthcare provider will stop prescribing vigabatrin.
    • Do not stop taking vigabatrin suddenly. This can cause serious problems. Stopping vigabatrin or any seizure medicine suddenly can cause seizures that will not stop (status epilepticus) in people who are being treated for seizures. You should follow your healthcare provider’s instructions on how to stop taking vigabatrin.
    • Tell your healthcare provider right away about any increase in seizures when vigabatrin treatment is being stopped. Before your child starts taking vigabatrin, speak to your child’s healthcare provider about what to do if your baby misses a dose, vomits, spits up, or only takes part of the dose of vigabatrin.
    • Do not stop taking vigabatrin without talking to your healthcare provider. If vigabatrin improves your (or your child’s) seizures, you and your healthcare provider should talk about whether the benefit of taking vigabatrin is more important than the risk of vision loss, and decide if you (or your child) will continue to take vigabatrin.

    What should I avoid while taking vigabatrin tablets?

    Vigabatrin causes sleepiness and tiredness. Adults taking vigabatrin should not drive, operate machinery, or perform any hazardous task, unless you and your healthcare provider have decided that you can do these things safely.

    What are the possible side effects of vigabatrin tablets?

    Vigabatrin can cause serious side effects, including:

    • See “What is the most important information I should know about vigabatrin tablets?”
    • sleepiness and tiredness. See “What should I avoid while taking vigabatrin tablets?”
    • Vigabatrin may cause your baby to be sleepy. Sleepy babies may have a harder time suckling and feeding, or may be irritable.
    • weight gain that happens without swelling.

    The following serious side effects happen in adults. It is not known if these side effects also happen in babies who take vigabatrin.

    • low red blood cell counts (anemia).
    • nerve problems. Symptoms of a nerve problem can include numbness and tingling in your toes or feet. It is not known if nerve problems will go away after you stop taking vigabatrin.
    • swelling.

    If you or your child has CPS, vigabatrin may make certain types of seizures worse. Tell your healthcare provider right away if your (or your child's) seizures get worse.

    The most common side effects of vigabatrin in adults include blurred vision, sleepiness, dizziness, problems walking or feeling uncoordinated, shaking (tremor), and tiredness.

    The most common side effect of vigabatrin in children 3 to 16 years of age is weight gain. Also expect side effects like those seen in adults.

    If you are giving vigabatrin to your baby for IS:

    Vigabatrin may make certain types of seizures worse. You should tell your baby’s healthcare provider right away if your baby’s seizures get worse. Tell your baby’s healthcare provider if you see any changes in your baby’s behavior.

    The most common side effects of vigabatrin in babies include:

    • sleepiness - vigabatrin may cause your baby to be sleepy. Sleepy babies may have a harder time suckling and feeding or may be irritable.
    • ear infection
    • swelling in the bronchial tubes (bronchitis)
    • irritability

    Tell your healthcare provider if you or your child have any side effect that bothers you or that does not go away. These are not all the possible side effects of vigabatrin.

    Call your doctor for medical advice about side effects. You may report side effects to FDA at 1-800-FDA-1088.

    How should I store vigabatrin tablets?

    • Store vigabatrin tablets at room temperature between 68°F to 77°F (20°C to 25°C).

    Keep vigabatrin and all medicines out of the reach of children.

    General information about the safe and effective use of vigabatrin.

    Medicines are sometimes prescribed for purposes other than those listed in a Medication Guide. You can ask your pharmacist or healthcare provider for information about vigabatrin that is written for health professionals. Do not use vigabatrin for a condition for which it was not prescribed. Do not give vigabatrin to other people, even if they have the same symptoms that you have. It may harm them.

    What are the ingredients in vigabatrin tablets?

    Active Ingredient: vigabatrin, USP

    Inactive Ingredients:

    • Tablets: hydroxypropyl methylcellulose, magnesium stearate, microcrystalline cellulose, polyethylene glycols, povidone, sodium starch glycolate, and titanium dioxide

    This Medication Guide has been approved by the U.S. Food and Drug Administration

    Distributed by: 
    Amneal Pharmaceuticals LLC 
    Bridgewater, NJ 08807

    Rev. 11-2022-04


  • PRINCIPAL DISPLAY PANEL

    NDC 69238-1424-1

    Vigabatrin Tablets USP, 500 mg

    Rx only

    100 Tablets

    Amneal Pharmaceuticals LLC

    500mg 100ct label
  • INGREDIENTS AND APPEARANCE
    VIGABATRIN 
    vigabatrin tablet
    Product Information
    Product TypeHUMAN PRESCRIPTION DRUGItem Code (Source)NDC:69238-1424
    Route of AdministrationORAL
    Active Ingredient/Active Moiety
    Ingredient NameBasis of StrengthStrength
    VIGABATRIN (UNII: GR120KRT6K) (VIGABATRIN - UNII:GR120KRT6K) VIGABATRIN500 mg
    Inactive Ingredients
    Ingredient NameStrength
    HYPROMELLOSES (UNII: 3NXW29V3WO)  
    MAGNESIUM STEARATE (UNII: 70097M6I30)  
    MICROCRYSTALLINE CELLULOSE (UNII: OP1R32D61U)  
    POLYETHYLENE GLYCOL, UNSPECIFIED (UNII: 3WJQ0SDW1A)  
    POVIDONE (UNII: FZ989GH94E)  
    TITANIUM DIOXIDE (UNII: 15FIX9V2JP)  
    SODIUM STARCH GLYCOLATE TYPE A POTATO (UNII: 5856J3G2A2)  
    Product Characteristics
    Colorwhite (white to off-white) Score2 pieces
    ShapeOVAL (biconvex) Size17mm
    FlavorImprint Code AN24
    Contains    
    Packaging
    #Item CodePackage DescriptionMarketing Start DateMarketing End Date
    1NDC:69238-1424-1100 in 1 BOTTLE; Type 0: Not a Combination Product06/27/2022
    Marketing Information
    Marketing CategoryApplication Number or Monograph CitationMarketing Start DateMarketing End Date
    ANDAANDA21004206/27/2022
    Labeler - Amneal Pharmaceuticals NY LLC (123797875)