Study Results
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View full resultsBasic Information
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COMPLETED
PHASE1
21 participants
INTERVENTIONAL
2017-06-08
2018-09-04
Brief Summary
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Detailed Description
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The primary aim of this BEEP2b study is to perform individual pharmacokinetic (PK) similarity testing of brand and generic AEDs in "probably GB" patients (N=12),who were selected on the basis of having GB-defining factors from the BEEP2a study, in order to confirm whether these factors are predictive of a generic brittle response to product switching. The study design involves a randomized, double-blind, multiple-dose, complete four-way replicate crossover design in which one brand and one generic will be compared in each patient from the patient's own AED regimen. Associated adverse events (i.e. seizures and side effects) will also be assessed. Bioequivalence (BE) will not be assessed. Rather, about nine AEDs are expected to be collectively evaluated. Generic brittleness anticipates that, for individual subjects, brand and generic may be the same or different, depending upon the underlying basis for generic brittleness. This exploratory research is focused on understanding individual patient attributes that contribute to GB, and is not focused on either product development or comparison of specific products.
Conditions
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Study Design
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RANDOMIZED
CROSSOVER
TREATMENT
QUADRUPLE
Study Groups
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Sequence 1
This is a crossover study with 4 treatment periods consisting of 2 Test periods(generic drug) and 2 Reference periods (brand name drug). Each treatment period lasts about 2 weeks, and patients will be randomized into one of the two sequences. All drugs are administered orally, and dosage will depend on a patient.
Oxcarbazepine (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Divalproex Sodium (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Carbamazepine (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Lamotrigine (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
levetiracetam (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Topiramate (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Zonisamide (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Phenytoin sodium (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Sequence 2
This is a crossover study with 4 treatment periods consisting of 2 Test periods(generic drug) and 2 Reference periods (brand name drug). Each treatment period lasts about 2 weeks, and patients will be randomized into one of the two sequences. All drugs are administered orally, and dosage will depend on a patient.
Oxcarbazepine (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Divalproex Sodium (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Carbamazepine (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Lamotrigine (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
levetiracetam (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Topiramate (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Zonisamide (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Phenytoin sodium (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Interventions
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Oxcarbazepine (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Divalproex Sodium (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Carbamazepine (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Lamotrigine (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
levetiracetam (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Topiramate (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Zonisamide (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Phenytoin sodium (brand name vs generic drugs)
This is a cross-over replicate study with 2 sequences (arms) comparing brand name and generic anti-epileptic drugs. Subjects will take a brand name and a generic drug of the same intervention. While there are only 2 sequences, there are 8 possible drugs for this study, and a study patient will only take 1 out of 8 study drugs. Only pharmacists will know which sequence each patient is assigned to.
Eligibility Criteria
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Inclusion Criteria
2. Subject is male or female between 18 and 76 years of age inclusive.
3. Subject has a diagnosis of epilepsy including focal or primary generalized epilepsy.
4. Subject is taking at least one study antiepileptic drug for the treatment of epilepsy.
5. Subject is an acceptable candidate for venipuncture.
6. Subject is willing to be switched between brand and generic drug.
7. Subject is willing to stop all non-routine OTC medications for 24 hours prior to and during pharmacokinetic study visits.
8. Subject is willing to maintain stable doses of all other AEDs, including Vagus Nerve Stimulation parameters for the duration of the study.
Exclusion Criteria
2. Subject has a history of alcohol or drug abuse, which in the opinion of the investigator, could jeopardize the subject's health or would compromise the subject's ability to participate in this trial.
3. Subject has a history of previous or current significant psychiatric disorder that would interfere with conduct of the study.
4. Subject is pregnant or lactating.
5. Subject has severe liver impairment as assessed by alanine aminotransferase (ALT), aspartate aminotransferase (AST), or total bilirubin levels ≥10 times the upper limit of normal (ULN).
6. Subject has severe renal impairment as assessed by creatinine clearance lower than 30mL/min, using the Cockcroft-Gault formula.
7. Female subjects of childbearing potential will not be eligible to participate who are unwilling or unable to use a medically acceptable method of contraception throughout the entire study period and for one week after the study is completed. Medically acceptable methods of contraception that may be used by the subject and/or her partner are: condom with spermicide, diaphragm with spermicide, IUD without progesterone, vaginal spermicidal suppository, surgical sterilization of their partner(s) or abstinence.
8. Subject is not willing or able to be adherent to study protocol (e.g. study medication dosing and any interacting comedication).
18 Years
76 Years
ALL
No
Sponsors
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University of Maryland, Baltimore
OTHER
Food and Drug Administration (FDA)
FED
Responsible Party
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Principal Investigators
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James E Polli, Ph.D
Role: PRINCIPAL_INVESTIGATOR
University of Maryland School of Pharmacy
Locations
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University of Maryland, Baltimore
Baltimore, Maryland, United States
Countries
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References
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Andermann F, Duh MS, Gosselin A, Paradis PE. Compulsory generic switching of antiepileptic drugs: high switchback rates to branded compounds compared with other drug classes. Epilepsia. 2007 Mar;48(3):464-9. doi: 10.1111/j.1528-1167.2007.01007.x.
Zachry WM 3rd, Doan QD, Clewell JD, Smith BJ. Case-control analysis of ambulance, emergency room, or inpatient hospital events for epilepsy and antiepileptic drug formulation changes. Epilepsia. 2009 Mar;50(3):493-500. doi: 10.1111/j.1528-1167.2008.01703.x. Epub 2008 Jun 26.
Rascati KL, Richards KM, Johnsrud MT, Mann TA. Effects of antiepileptic drug substitutions on epileptic events requiring acute care. Pharmacotherapy. 2009 Jul;29(7):769-74. doi: 10.1592/phco.29.7.769.
Fitzgerald CL, Jacobson MP. Generic substitution of levetiracetam resulting in increased incidence of breakthrough seizures. Ann Pharmacother. 2011 May;45(5):e27. doi: 10.1345/aph.1P765. Epub 2011 Apr 26.
Bialer M, Midha KK. Generic products of antiepileptic drugs: a perspective on bioequivalence and interchangeability. Epilepsia. 2010 Jun;51(6):941-50. doi: 10.1111/j.1528-1167.2010.02573.x. Epub 2010 Apr 8.
Liow K, Barkley GL, Pollard JR, Harden CL, Bazil CW; American Academy of Neurology. Position statement on the coverage of anticonvulsant drugs for the treatment of epilepsy. Neurology. 2007 Apr 17;68(16):1249-50. doi: 10.1212/01.wnl.0000259400.30539.cc. No abstract available.
Shaw SJ, Hartman AL. The Controversy over Generic Antiepileptic Drugs. J Pediatr Pharmacol Ther. 2010 Apr;15(2):81-93.
McAuley JW, Chen AY, Elliott JO, Shneker BF. An assessment of patient and pharmacist knowledge of and attitudes toward reporting adverse drug events due to formulation switching in patients with epilepsy. Epilepsy Behav. 2009 Jan;14(1):113-7. doi: 10.1016/j.yebeh.2008.08.009. Epub 2008 Sep 26.
Ting TY, Jiang W, Lionberger R, Wong J, Jones JW, Kane MA, Krumholz A, Temple R, Polli JE. Generic lamotrigine versus brand-name Lamictal bioequivalence in patients with epilepsy: A field test of the FDA bioequivalence standard. Epilepsia. 2015 Sep;56(9):1415-24. doi: 10.1111/epi.13095. Epub 2015 Jul 23.
Stevens RE, Limsakun T, Evans G, Mason DH Jr. Controlled, multidose, pharmacokinetic evaluation of two extended-release carbamazepine formulations (Carbatrol and Tegretol-XR). J Pharm Sci. 1998 Dec;87(12):1531-4. doi: 10.1021/js980203+.
Rouits E, Burton I, Guenole E, Troenaru MM, Stockis A, Sargentini-Maier ML. Pharmacokinetics of levetiracetam XR 500mg tablets. Epilepsy Res. 2009 Apr;84(2-3):224-31. doi: 10.1016/j.eplepsyres.2009.02.001. Epub 2009 Mar 4.
Elger C, Bialer M, Falcao A, Vaz-da-Silva M, Nunes T, Almeida L, Soares-da-Silva P. Pharmacokinetics and tolerability of eslicarbazepine acetate and oxcarbazepine at steady state in healthy volunteers. Epilepsia. 2013 Aug;54(8):1453-61. doi: 10.1111/epi.12242. Epub 2013 Jun 12.
Cawello W, Bonn R. No pharmacokinetic interaction between lacosamide and valproic acid in healthy volunteers. J Clin Pharmacol. 2012 Nov;52(11):1739-48. doi: 10.1177/0091270011426875. Epub 2011 Dec 8.
Provided Documents
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Document Type: Study Protocol and Statistical Analysis Plan
Other Identifiers
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HHSF223201400188C
Identifier Type: OTHER_GRANT
Identifier Source: secondary_id
15-107D
Identifier Type: -
Identifier Source: org_study_id
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