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This project is aiming to better understand the use of perampanel as an appropriate standard-of-care therapy for treatment refractory status epilepticus (RSE), to identify determinants of outcomes, and establish safety. The study will recruit 25 patients at WSU. The study will last for about 96 weeks and will involve a screening visit and two in clinic visits at 3 and 6 months. If the subjects give written informed consent and meet all eligibility criteria they will be clinically evaluated and will be given the study drug. This study will involve recording of patients medical history, drug history and epilepsy history. A physical exam and a and neurological exam will also be performed to study the heath status of the participant. Results and patient information will be stored in a database for analysis to find commonality among key factors that have been seen in past research.
ILAE (International league against epilepsy) defines status epilepticus (SE) as generalized tonic-clonic seizures > 5 minutes or focal impaired awareness seizure > 15 min or recurrent seizures with alteration of consciousness in between seizures.
Refractory status epilepticus (RSE) is defined as failure to respond to first line benzodiazepines and one antiepileptic drug (AED). It often requires treatment with anesthetic drugs and continuous EEG monitoring for diagnosis and titration of medications. Status epilepticus (SE) is estimated to be refractory in about 30 % of cases, associated with increased morbidity and mortality and requires continuous EEG monitoring to guide treatment [1]. It is seen across all ages, and around 200,000 cases are seen in the United States annually resulting in significant morbidity and mortality [2]. Morbidity and mortality of SE and especially RSE is due to prolonged stay in the ICU and at times treatment from IV anesthetics including hemodynamic instability, and related infections of the ICU stays.
Standard of Care treatment of SE and RSE
Rapid termination of the SE is the primary goals of SE treatment with evidence indicating that if left untreated, SE becomes harder to terminate [3,4]. In a patient with SE, the first AED should be started at the onset concomitantly with the first line benzodiazepine or soon after. The agents of choice are typically those available in IV (intravenous) formulation with purpose of fast and safe administration in a seizing patient. These include phenytoin (PHT)/fosphenytoin, valproic acid (VPA), levetiracetam (LEV); lacosamide (LCM) with no clear evidence that one drug is superior [5,6]. Beyond the introduction of a second seizure medication, there is no unified consensus or clear evidence to guide treatment at that stage of RSE.
Other AED are used as add-on therapy in the treatment of SE when benzodiazepine (1st agent) and IV AED (2nd agent) fail. These have been demonstrated to be efficacious in different cohorts and case series and include but not limited to clobazam, topiramate, oxcarbazepine and eslicarbazepine [7].
Perampanel
Perampanel (PMP) has recently been shown to be efficacious in the treatment of variable subsets of SE including simple partial SE, refractory SE, and super-refractory SE [8, 9]. Efficacy of 75% was also demonstrated in a very difficult to treat subset of patient with nonconvulsive SE in post-anoxic patients. Systematic qualitative analysis of publications in use of PMP for status epilepticus revealed highly variable results in highly variable populations [10]. More homogeneous single-center outcomes are needed. In a multi-centered study looking at 52 patients receiving PMP for treatment of SE, PMP was the last drug added in 61.5 % of patients and a positive response attributed to PMP in 36.5% and PMP was well tolerated with minimal side effects and no discontinuation [11].
The mechanism of action unique to PMP may be key in its success in this disease state. Perampanel (PMP) is a selective noncompetitive AMPA receptor antagonist. Blockade of excitatory mechanisms become important in SE given that prolonged SE may result in postsynaptic internalization of GABA-A receptors and subsequent reduced efficacy of GABAergic drugs [12]. In addition, PMP is rapidly absorbed by the GI system and peak plasma concentrations are achieved as early as 0.5 hours (0.5-2.5hours) with 100% bioavailability; features which make the drug attractive even in its oral form in the treatment of SE.
Two studies (E2007-A001-024 and E2007-A001-023) in healthy recreational drug users evaluated safety and abuse potential of perampanel and submitted with PMP NDA (#202834) to the FDA. Data was established at 8mg, 24mg, and 36 mg in both studies (Table 1). Increasing the dose to 36 mg was not associated with significant safety or tolerability issues. [Somnolence and dizziness were the most common side effects. Hemodynamics (systolic blood pressure, diastolic blood pressure, and heart rate) were not impacted. Kidney and liver functions were also largely not impacted with the exception of a single-incident of liver enzyme elevation. In order to reach steady state, simulation data reveals that steady state is reached immediately with a 4-5:1 dosing (loading dose to maintenance dose) Thus, the established safety confirmed a 36 mg loading dose as safe and tolerable. Hence, the investigators have chosen this as the loading dose for our study. Given that this is not an FDA approved dosage or indication, the investigators have obtained FDA authorization as an investigational new drug (IND 157959) to conduct this study.](streamdown:incomplete-link)
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Single arm prospective study | Experimental |
|
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Perampanel | Drug | The purpose of this study is to determine the efficacy of Perampanel, an approved antiseizure medication, in the treatment of refractory status epilepticus (RSE), to identify determinants of outcomes, and establish safety. |
| Measure | Description | Time Frame |
|---|---|---|
| Primary Outcomes | Successful wean of IV anesthetics without recurrence of status epilepticus. a. Determined by absence of clinical and electrographic seizure activity. | Within 48 hours of stopping intravenous anesthetics |
| Measure | Description | Time Frame |
|---|---|---|
| Secondary Outcomes |
|
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Maysaa Basha, MD | Wayne State University | Principal Investigator |
| Wazim Mohamed, MD | Wayne State University | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Wayne State University | Detroit | Michigan | 48201 | United States |
Data in accordance with clinical care will be collected through chart review. Long term Follow up Data collection will be prospectively collected in person and transferred into an Research Database.
Once a subject is consented, the data to be collected will include the following variables:
Demographic data (age, sex, race/ethnicity)
Presumed etiology of SE
Neurological co-morbidities including prior history of epilepsy
Neurologic examination
Medical co-morbidities
Medication list
Social history including functional status, employment, and use of alcohol and drug use
EEG pattern of status epilepticus, duration of status epilepticus.
Neuroimaging reports
Treatment of SE details:
Daily laboratory values including blood chemistry and hematology.
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| ID | Term |
|---|---|
| D013226 | Status Epilepticus |
| D004827 | Epilepsy |
| D012640 | Seizures |
| ID | Term |
|---|---|
| D009461 | Neurologic Manifestations |
| D009422 | Nervous System Diseases |
| D012816 | Signs and Symptoms |
| D013568 | Pathological Conditions, Signs and Symptoms |
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| ID | Term |
|---|---|
| C551441 | perampanel |
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|
| 3 months and 6 months |
| 2. Total duration of intravenous anesthetic infusion. | a. Total length of IV anesthetic infusion usage in days | 90 Days |
| 3. The number of antiseizure medications used. | a. Determined by the number of antiseizure medications used during hospitalization. | 90 Days |
| 3. Total duration of intubation | a. Total length of intubation in days | 90 days |
| Total ICU and in-hospital length of stay | a. Total ICU and in-hospital length of stay in days | 90 days |
| 5. Mortality rate | Death rate | ICU and hospital discharge |
| 6. Functional impairment | a. Percentage of patients that experience functional impairment as determined by modified Rankin Scale (mRS) during review of charts and/or general practitioner interview. Appendix 1. Modified Rankin Scale (MRS) Modified Ranking Scale Scale Symptom description 0 No symptoms
| Hospital discharge, 3 months, 6 months |
| 7. Favorable outcome | A favorable outcome is defined by a Extended-Glasgow Outcome Scale (e-GOS).The Glasgow Outcome Scale (GOS) will be determined according to patients charts review and/or general practitioner interview conducted by an independent assessor. Appendix 2. Extended Glasgow Outcome Scale Extended Glasgow Outcome Scale (GOS-E) Category Description Death Dead Vegetative state (VS) Unable to obey commands Lower severe disability (LSD) Dependent on others for care Upper severe disability (USD) Independent at home Lower moderate disability (LMD) Independent at home and outside the home but with some physical or mental disability Upper moderate disability (UMD) Independent at home and outside the home but with some physical or mental disability, with less disruption than LMD Lower good recovery (LGR) Able to resume normal activities with some injury-related problems Upper good recovery (UGR) No injury-related problems. | Hospital discharge, 3 months, 6 months |
| 8. Favorable discharge location | Patients home or arranged living facility.
| Hospital discharge |
| Seizure Control | Hospital discharge, 3 months, 6 months | Determined by percentages of the patients that do not experience seizure recurrence |
| D001927 | Brain Diseases |
| D002493 | Central Nervous System Diseases |