Equivalence Among Antiepileptic Drug Generic and Brand Products in People With Epilepsy: Single-Dose 6-Period Replicate Design (EQUIGEN Single-Dose Study)

Phase 4

Completed

• Conditions: Epilepsy
• Interventions: Drug: Lamotrigine Generic "A" Lamotrigine Generic "B" Lamotrigine "Brand"; Drug: lamotrigine

• Registration Number: NCT01733394
• Lead Sponsor: University of Cincinnati

Brief Summary

The United States Food and Drug Administration (FDA) has specific rules which generic drug companies must follow to get a generic copy of a seizure medication approved. Currently, FDA approves generic drugs by requiring studies on normal volunteers who don't have epilepsy and who take just one dose of the generic drug followed by a series of blood tests. Some people with epilepsy and their physicians have complained about side effects or loss of seizure control when taking generic drugs, but no one knows if these complaints are truly because of problems with the generic drugs.

This research is to determine whether several different generic versions and the brand version of the medication lamotrigine perform in a similar way when given to people with epilepsy.

The study drug Lamictal® (lamotrigine) and both of the generic forms of lamotrigine to be tested are approved by the FDA for the treatment of seizures.

Detailed Description

The study proposed in this protocol will determine if bioequivalence testing performed for the FDA translates into similar bioequivalence in a population of people with epilepsy when switching among different generics of the anti-epileptic drug (AED). Based on a variety of pharmacokinetic (PK) data and clinical reports of concern, the example anti epilepsy drug (AED) used for this study will be lamotrigine (LTG).

In this single dose study, people with epilepsy taking AEDs, but not currently taking the test medication, lamotrigine, will be studied. We will use an order-randomized three-sequence six-period replicate design with the two most disparate generics studied in two replicate periods each and the brand (reference) product studied in two additional periods. A standard single dose of the test drug (lamotrigine 25mg) will be administered under controlled conditions (fasting with subsequent standardized meals) with a 12-hour in-facility blood sample collection followed by a collection every 24 hours for a total of a 96 hour sample collection that will be used to establish the pharmacokinetic measures of Cmax, AUC96 and AUC∞. Each period will be separated by at least a 12 day washout interval.

The replicate studies will be used to determine the intra-individual variability of the pharmacokinetic responses of the brand and the two generic products, as well as subject-by-formulation interaction variances. The data will also be used to calculate simultaneously all parameters that are needed to compare the 3 products in average and individual bioequivalence and outlier analyses. The differences between the disparate generics will be used to establish if the current standards translate to equivalence within the limits of the brand intra-subject variation.

The factors we will use to determine the most disparate generics include the results from the in vivo data from the ABE studies submitted to the FDA in the ANDA and in vitro chemical assay (potency) and dissolution data performed on several currently available lots. The intent is to study the specific lot of the generic product predicted to result in the lowest levels and compare it to the specific lot from another generic product predicted to result in the highest levels. Similarly, if multiple lots of the brand products are available, we will perform in vitro testing to establish the most desirable lot to study.

Factors that alter metabolism, including concomitant AEDs that may have hepatic enzyme induction effects will be tracked but not excluded, as long as the dose remains constant, as the goal is to reproduce the 'real life' situation as closely as possible within the practical limits of funding and study size. Subjects receiving valproate as concomitant medication will be excluded because the prolongation of half life would not allow LTG to reliably be completely cleared by 13 days. The criteria that establish an enriched population will also be tracked and used in a secondary analysis, but will not be used as an inclusion requirement. The enriched population is defined as people who experienced an otherwise unexplained increase in seizures or adverse effects, or a substantial change in AED level after a switch in AED products.

The discovery of any subject-by-formulation interaction outliers (i.e. subjects with differential pharmacokinetic reactions to a pair of formulations) will raise considerable concerns about equivalence. Recently established methods in the statistical analysis of outliers in crossover studies will be used to determine if any outliers are present.

Qualified subjects will be screened and upon fulfilling inclusion/exclusion criteria and signing the informed consent will be enrolled in the study and enter the randomization phase (2-30 days). Subjects will be randomized according to a sealed allocation list that will be balanced for sequence and provided to each site prior to the first subject enrollment. Subjects that withdraw prior to completing the third period will be replaced in a randomized manner. The randomization list will be generated by the study statistical group. There are six test periods in three sequences for a sequence-randomized study. During two test periods subjects will receive a single dose of the brand AED and during the other four test periods subjects will receive a single dose from one of the two investigated generics (each twice). The single doses will be administered in the fasting state during an in-facility 12-hour pharmacokinetic session to collect samples to determine Cmax and AUCs. Four additional samples will be drawn at 24, 48, 72, and 96 hours after the dose as an outpatient (making each pharmacokinetic test last for 4 days). Each in-facility pharmacokinetic testing will be separated by a 12-23 day washout period; consistent washout periods of 14 days will be preferred. A final follow-up phone evaluation will be conducted 12-16 days (target 14 days) after the last dose. During the study the subjects will continue their usual concomitant medications, including AEDs, without change.

Investigators will compare the AED levels as measured by Cmax and AUC in each group using average bioequivalence (ABE) and individual bioequivalence (IBE) criteria. Average bioequivalence will be established if the 90% confidence intervals of the geometric mean of Cmax and AUCs for the most disparate generic products compared to each other are entirely within the 80%-125% range (the FDA criteria for bioequivalence) using the two one-sided standard analyses. Otherwise the products will be considered to not be bioequivalent. Similarly, the products will be considered to not be bioequivalent if the criteria for IBE for each generic product compared to the brand product are not met.

Study Population: Approximately 54 subjects (45 subjects to completion).

Number of centers: 3 sites enrolling approximately 18 subjects each.

Duration of study: Approximately 1 year.

Study Timeline

• Study First Submitted: 2012-11-02
• Study First Submitted QC: 2012-11-20
• Study First Posted: 2012-11-27
• Study Start: 2012-12-12
• Primary Completion: 2016-09-26
• Study Completion: 2016-09-26
• Status Verified: 2017-07
• Last Update Submitted: 2017-07-18
• Last Update Posted: 2017-07-19

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 54

Inclusion Criteria

Not provided

Exclusion Criteria

Not provided

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
Generic A - Generic B - Brand - Generic A - Brand - Generic B	Lamotrigine Generic "A" Lamotrigine Generic "B" Lamotrigine "Brand"	Sequence 1
Brand - Generic A - Generic B - Brand - Generic B- Generic A	Lamotrigine Generic "A" Lamotrigine Generic "B" Lamotrigine "Brand"	Sequence 3
Generic B - Brand - Generic A - Generic B - Generic A - Brand	Lamotrigine Generic "A" Lamotrigine Generic "B" Lamotrigine "Brand"	Sequence 2
Generic A - Generic B - Brand - Generic A - Brand - Generic B	lamotrigine	Sequence 1
Generic B - Brand - Generic A - Generic B - Generic A - Brand	lamotrigine	Sequence 2
Brand - Generic A - Generic B - Brand - Generic B- Generic A	lamotrigine	Sequence 3

Primary Outcome Measures

Name	Time	Method
Bioequivalence for generic 1 compared to generic 2	18 months	To determine if Cmax or AUC are significantly different in the high generic product compared to the low generic product taking one as the reference and the other as the test product. Bioequivalence will be established per the current FDA ABE criteria if the 90% confidence interval of the geometric mean of Cmax and AUC for the high generic product compared to the low generic product are entirely within the 80%-125% range using the two one-sided standard analyses

Secondary Outcome Measures

Name	Time	Method
Intra-subject variances	18 months	To measure the intra-subject variances of the investigated REFERENCE (BRAND) AND generic products, as well as subject-by-interaction variances, by using two replicate periods for THE REFERENCE PRODUCT AND TWO REPLICATE PERIODS FOR each generic product. These estimated variances will be used to investigate individual bioequivalence and detect subject-by-formulation interaction outliers

Trial Locations

Locations (8)

University of Iowa; 🇺🇸 Iowa City, Iowa, United States

University of Alabama at Birmingham; 🇺🇸 Birmingham, Alabama, United States

Drake University; 🇺🇸 Des Moines, Iowa, United States

Brigham and Women's Hospital; 🇺🇸 Boston, Massachusetts, United States

University of Cincinnati Medical Center; 🇺🇸 Cincinnati, Ohio, United States

University of Wisconsin-Madison; 🇺🇸 Madison, Wisconsin, United States

University of Kansas; 🇺🇸 Kansas City, Kansas, United States

University of Rochester Medical Center; 🇺🇸 Rochester, New York, United States