Patient-Reported Outcome Measures in Adult Patients Diagnosed with Epilepsy Being Treated with Perampanel.

BACKGROUND: Epilepsy is a complex disorder that can affect patients' medical, psychological, and social well-being. The purpose of this study was to evaluate the patient-reported outcome (PRO) measures of health-related quality of life (HRQoL), satisfaction, and adherence in adult patients diagnosed with epilepsy treated with perampanel in the United States (US).
METHODS: A US-based, multicenter, observational cross-sectional survey was completed by 61 patients taking perampanel with or without other antiseizure medications (ASMs). Respondents were ≥18 years old, had a physician-confirmed diagnosis of epilepsy, used perampanel for ≥4 months, and provided informed consent. Patients responded to questions concerning their demographic characteristics, treatment history, experiences before perampanel, experiences while taking perampanel, HRQoL, treatment satisfaction, and medication adherence.
RESULTS: Patients (N=61) were 42.8 years old on average; majority were female (63.9%) and white (75.4%). Mean time on perampanel was 2.5 years, with sodium channel blockers often (55.7%) used concomitantly with perampanel. Patients reported, on average, 5.5 (standard deviation [SD]=13.2) seizures/month after initiating perampanel, whereas these same patients reported experiencing 20.4 (SD=60.0) seizures/month prior to perampanel. When comparing their experience on perampanel with their experience with previous ASMs, more patients "strongly agreed" that perampanel allowed them to live a more normal life (36.1% vs 27.5%) and worked as intended if they missed taking a dose (16.4% vs 7.8%). Average satisfaction scores were high, with ratings of 71.8 for effectiveness, 84.0 for convenience, and 71.9 for global satisfaction (0-100 scores). Perampanel use was associated with improvements in HRQoL and fewer symptoms of depression and anxiety. The majority of patients were adherent (62.3%) to perampanel. DISCUSSION: Perampanel use was associated with reductions in number of seizures, better HRQoL, and high adherence rates. These results provide initial evidence that perampanel can be an effective, tolerable, and valid option for patients with epilepsy in the real world.

Introduction

Epilepsy is one of the most prevalent neurological diseases, affecting an estimated 3 million individuals in the United States (US) and 50 million people worldwide.1 The International League Against Epilepsy defines epilepsy as 2 or more seizures occurring greater than 24 hours apart, or a single seizure with additional features that are associated with an enduring predisposition of the brain to future seizures.2 Epilepsy is an extremely heterogeneous disease because of its different causes, different seizure types, its ability to vary in severity, its impact from person to person, and its range of co-existing conditions.

Many patients remain unsatisfied with their antiseizure treatment. Indeed, whereas half of patients with epilepsy are completely seizure free after their first antiseizure medication (ASM) is administered, a precipitous drop in efficacy has been documented in the setting of a second ASM.3 Approximately one-third of epileptic patients remain refractory to drug treatment, continue to experience uncontrolled seizures, and experience adverse events (AEs) that can contribute to poor health-related quality of life (HRQoL).4 The substantial number of pharmacoresistant patients underscores the urgent need for the development of new strategies that can enhance epilepsy management,5,6 including new agents that have longer half-lives, treat multiple seizure types, and can provide improved effectiveness, as well as once-daily dosing that can promote greater adherence.7,8

Over the last two decades, the market for ASMs has expanded, with over 20 different drugs currently available to patients.9 The current study focused on one of the recent market entrants, perampanel, and assessed its use in the real-world setting from the patient perspective. Perampanel is a first-in-class ASM that has been shown to significantly improve seizure control in epileptic patients.10 This agent is an orally active, highly selective, non-competitive antagonist of the alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid glutamate receptor;11 it effectively blocks the uncontrolled synchronous spread of electrical signals in the brain (ie seizures).4,10 Perampanel has a relatively long half-life (70–100 hours), thus enabling once-daily dosing and ensuring the concentration of the drug rises and falls gradually, thereby eliminating many potential AEs or withdrawal symptoms6,10,12–16 and helping to promote adherence, patient satisfaction, and HRQoL.13,15,16

Since US Food & Drug Administration approval, clinical and real-world studies continue to suggest that perampanel is an efficacious, effective, and tolerable treatment for some forms of epilepsy, either as adjunctive therapy or as monotherapy.4,17,18 Post-market studies on the effectiveness of perampanel outside the experimental setting are limited and, in general, consist of retrospective claims database studies. This real-world study expanded on the existing literature by assessing the patient experience with perampanel in a post-market, real-world setting in the US, from the patients’ perspective, to describe patient demographics and characteristics, HRQoL, treatment satisfaction, and medication adherence.

Materials and Methods

Study Design and Period

A multicenter, cross-sectional study of patients with a confirmed diagnosis of epilepsy and confirmation of current perampanel usage was conducted from November 2018 to October 2019.

Study Setting and Participants

A total of 61 US patients from 6 neurology sites completed up to a 30-minute online survey. Physicians invited patients to participate who met the following inclusion criteria:

Age 18 years or older

Physician-confirmed diagnosis of epilepsy

Currently on perampanel for a minimum of 4 months as confirmed by a physician

Provide informed consent

Ability to read and write in English

Recruitment efforts were made to maximize representativeness of the sample in order to reflect real-world practice. However, due to potential variations in treatment patterns and size of the population of interest, recruitment was done through convenience sampling only. The physicians assisting with this research screened their patients for study eligibility and identified those eligible to participate. Once a patient was found eligible for inclusion, the investigator informed the patient about the study. For patients who expressed interest in participating, the investigator discussed the patient consent form and addressed any of the potential subject’s questions. If paper consent was required by the site, the patient was asked to read and sign the informed consent. Otherwise, patients were instructed to use the survey link and asked to sign the patient consent online.

Eligible patients were provided with a unique de-identified survey link to access either by a device (computer, tablet) of their own or one provided by the site at the time of their visit. The link directed patients to the welcome page, in which there was the statement of informed consent for this study. In order to proceed with the survey, all patients were required to consent electronically, regardless of whether a paper copy had been previously signed. No personal information was collected, and the only patient-identifying information remained at the site in the study binder.

Instruments and Data Collection

The survey was developed using a multi-step process. First, a targeted review of the literature was undertaken to identify which validated scales had been utilized in the past in patients with epilepsy. Survey design experts conducted a pilot phase of the study, which included 45-minute in-depth telephone interviews of patients who have been diagnosed with epilepsy (N=3). The pilot phase ensured question clarity, identified missing concepts and topics important to patients, and assessed the respondents’ ability to understand the content and instructions. The survey instrument was then developed and reviewed by an epileptologist who suggested further revisions before the survey was finalized.

The survey collected sociodemographic (age, sex, race/ethnicity, health insurance, and education) and clinical characteristics (body mass index [BMI], smoking frequency, select comorbidities, age at epilepsy diagnosis, type of epilepsy seizures, current ASM prescriptions, and duration and dosage of perampanel usage).

Patient experience immediately before and during perampanel use was recorded, including average number of seizures per month, average length of a seizure, and action(s) taken as a result of having a seizure.

Patient ratings of ASM regimen attributes (immediately before perampanel use and during perampanel use) were assessed on a five-point Likert scale, where 1=“strongly agree”, 2=“agree”, 3=“neither agree nor disagree”, 4=“disagree”, and 5=“strongly disagree”. Patients were asked about the following ASM attributes: “I worried that I would have another seizure if I missed a dose of my epilepsy medication”; “My epilepsy medication(s) eliminated my fear of sudden unexpected death in epilepsy (SUDEP)”; “My epilepsy medication(s) worked as intended if I missed taking a dose”; “My epilepsy medication(s) allowed me to live a normal life”; “My epilepsy medication(s) were affordable”; “My epilepsy medication(s) made me feel independent”; “My epilepsy medication(s) had a convenient pill size”; “My epilepsy medication(s) had a convenient dosing schedule”; “My epilepsy medication(s) made me confident that I would not have another seizure if I missed taking a dose”; and “My epilepsy medication(s) were not well-tolerated”.

Patient ratings of HRQoL immediately before and during perampanel use were assessed on a five-point Likert scale, where 1=“strongly disagree”, 2=“somewhat disagree”, 3=“neither agree nor disagree”, 4=“somewhat agree”, and 5=“strongly agree”. A patient’s well-being was evaluated with the following statements: “My epilepsy makes it difficult for me to perform daily functions such as work, social activities, or driving around”; “My quality of life is good”; “I have a lot of energy”; “I feel depressed”; and “I feel anxious”.

Data on satisfaction with perampanel treatment were captured using the abbreviated Treatment Satisfaction Questionnaire for Medication – 9 item (TSQM-9) instrument, measuring outcomes over the prior 2 to 3 weeks, or since the patient last used the medication. The TSQM-9 provides a unique opportunity to measure satisfaction with medication in such naturalistic studies where measuring patient-reported side effects may interfere with the study objectives.19 The TSQM-9 is a psychometrically robust and validated instrument comprising three domains: effectiveness (questions 1–3), convenience (questions 4–6), and global satisfaction (questions 7–9). Likert scales were used for all questions. Seven-point scales, ranging as follows, were used for the corresponding questions: (a) 1=“extremely dissatisfied” to 7= “extremely satisfied” (questions 1–3 and 9); (b) 1=“extremely difficult” to 7=“extremely easy” (questions 4–5); and (c) 1=“extremely inconvenient” to 7=“extremely convenient” (question 6). Five-point scales, ranging as follows, were used for the corresponding questions: (a) 1=“not at all confident” to 5=“extremely confident” (question 7); and (b) 1=“not at all certain” to 5=“extremely certain” (question 8). The TSQM-9 domain scores were calculated as recommended by the instrument’s authors and described in detail elsewhere.20 TSQM-9 domain scores range from 0 to 100, with higher scores representing higher satisfaction in that domain.

Satisfaction with perampanel was further evaluated by asking patients their satisfaction, relative to their satisfaction with the ASM regimen that immediately preceded perampanel with the following response options: “Much more satisfied with current medication”; “Somewhat more satisfied with current medication”; “Neither more satisfied nor more dissatisfied with current medication”; “Somewhat more dissatisfied with current medication”; and “Much more dissatisfied with current medication”. Satisfaction with the size of the perampanel tablet was assessed on five-point Likert scale, where 1=“Extremely satisfied”, 2=“Very satisfied”, 3=“Satisfied”, 4=“Somewhat satisfied”, and 5=“Not at all satisfied”.

Medication adherence was collected using the Morisky, Green, Levine Scale (MGLS), a structured self-report measure of medication-taking behavior that was first validated in antihypertensive drugs in outpatient settings.21 It is a four-item questionnaire with dichotomous response categories with yes or no. The rationale behind the four items was the drug errors of omission, which could occur in any or all of several ways: “forgetting”, “carelessness”, “stopping the drug when feeling better”, or “stopping the drug when feeling worse”. A score of 4 was categorized as adherent, and scores 0–3 were non-adherent.

Sample Size

A sample size of 150 was targeted based on the estimated number of adult patients taking perampanel, as initially provided by the investigators at the six sites.

Data Analysis

All data management and analyses were performed using SAS Software, Version 9.4 (Copyright © 2013, SAS Institute Inc., Cary, NC, USA). The overall sample was characterized on the variables listed in the Instruments and Data Collection section, using descriptive statistics, including frequencies and percentages for categorical variables, and means and standard deviations for continuous variables. Pearson correlations were conducted to assess the relationship between HRQoL and treatment satisfaction. Due to the small sample size reached versus that targeted, multivariable regressions adjusting for covariates were not employed.

Results

A total of 61 patients completed the survey, provided informed consent, and met the inclusion/exclusion criteria of the study (83 patients accessed the survey, response rate=73.5%). Demographics and patient characteristics are presented in Table 1. Patients (N=61) were, on average, 42.8 years old (standard deviation [SD]=12.9); the majority were female (63.9%), white (75.4%), and had health insurance (96.7%). The majority had a high-school degree (or equivalent) or higher level of education (96.7%). The proportion of patients receiving disability benefits was 39.3%. The average BMI of patients was 29.5 (SD=7.6). The majority of patients had never smoked (67.2%). The most frequently stress-related comorbidities experienced within the past 12 months included: depression (59.0%), anxiety (49.2%), and headache/migraine (37.7%).

Table 1

Demographics, Clinical, and Treatment Characteristics

	Total (N=61)
Age, mean ± SD	42.8 ± 12.9
Female, n (%)	39 (63.9)
Ethnicity/race, n (%)
African American/Black	6 (9.8)
Native American or Alaskan native	1 (1.6)
Hispanic	7 (11.5)
White	46 (75.4)
Prefer not to answer	1 (1.6)
Currently have health insurance, n (%)	59 (96.7)
Education, n (%)
No high school diploma	2 (3.3)
High school graduate or equivalent	32 (52.5)
Associate’s or bachelor’s degree	21 (34.4)
Graduate degree	6 (9.8)
BMI, mean ± SD	29.5 ± 7.6
Smoking frequency, n (%)
Never	41 (67.2)
Past smoker	13 (21.3)
Current smoker	7 (11.5)
Age at epilepsy diagnosis, mean ± SD	18.7 ± 13.2
Type(s) of seizure, n (%)
Partial/focal seizures	38 (62.3)
Primary generalized seizures	28 (45.9)
Do not know/not sure (%)	8 (13.1)
Top 5 comorbidities experienced within the past 12 months, n (%)
Depression	36 (59.0)
Anxiety	30 (49.2)
Headache/migraine	23 (37.7)
Insomnia	13 (21.3)
Diarrhea	12 (19.7)
Duration of perampanel use [years], mean ± SD	2.5 ± 2.7
Current perampanel dose, n (%)
≤4 mg	19 (31.1)
6–8 mg	29 (47.6)
10–12 mg	12 (19.7)
Do not know/not sure	1 (1.6)
Current concomitant ASM combinations with perampanel, n (%)
Sodium channel blockera	34 (55.7)
Synaptic vesicle protein 2A bindingb	24 (39.3)
Gamma-aminobutyric acid analogc	12 (19.7)
Multiple mechanismsd	22 (36.1)
Total number of current ASM prescriptions with perampanel, mean ± SD	3.0 ± 1.2

Notes: aPhenytoin, lamotrigine, carbamazepine, oxcarbazepine, lacosamide. bBrivaracetam, levetiracetam. cTiagabine, clonazepam, pregabalin, gabapentin, primidone, phenobarbital, vigabatrin. dValproic acid, felbamate, topiramate, zonisamide.

Abbreviations: ASM, antiseizure medication; BMI, body mass index; SD, standard deviation.

Patients reported using levetiracetam (31.1%), lacosamide (26.2%), and lamotrigine (23.0%) concomitantly with perampanel. Overall, sodium-channel blockers were the most common type of ASMs used concomitantly with perampanel (55.7%), with the average number of current ASM medications reported to be 3.0 (SD=1.2).

Patients currently taking a perampanel regimen reported, on average, 5.5 (SD=13.2) seizures per month, whereas these same patients reported experiencing 20.4 (SD=60.0) seizures per month prior to perampanel use. The sample size for the pre-perampanel group is smaller, as 10 patients reported not taking any epilepsy prescription medication prior to starting treatment on perampanel. Patients currently taking perampanel also reported slightly shorter seizure durations, relative to those reported pre-perampanel (44.3% vs 37.3% reported seizures <1 minute long) (Table 2).

Table 2

Seizures (Pre- versus Post-Perampanel Experience)

	Pre-Perampanel (N=51)	Post-Perampanel (N=61)
Average number of seizures per month, mean ± SD	20.4 ± 60.0	5.5 ± 13.2
Average length of a seizure, n (%)
Less than 1 minute	19 (37.3)	27 (44.3)
1–2 minutes	21 (41.2)	23 (37.7)
3–4 minutes	4 (7.8)	4 (6.6)
More than 4 minutes	7 (13.7)	7 (11.5)
Action(s) taken when experienced a seizure, n (%)
Made an appointment with my doctor	13 (25.5)	15 (24.6)
Called my doctor’s office to speak with nurse/on-call doctor	17 (33.3)	17 (27.9)
Visited the emergency Room	17 (33.3)	11 (18.0)
Took prescription ASM	17 (33.3)	17 (27.9)
Nothing	9 (17.6)	13 (21.3)

Abbreviations: ASM, antiseizure medication; SD, standard deviation.

When comparing their experience on perampanel with their experience with previous ASMs, more patients “strongly agreed” that perampanel: allowed them to live a more normal life (36.1% vs 27.5%), worked as intended if they missed taking a dose (16.4% vs 7.8%), had a more convenient dosing schedule (55.7% vs 51.0%), and engendered more feelings of independence (31.1% vs 27.5%) (Table 3).

Table 3

Patient Ratings of ASM Regimen Attributes (Pre- versus Post-Perampanel Experience)

	Pre-Perampanel (N=51)	Post-Perampanel (N=61)
I worry that I will have another seizure if I miss a dose of my epilepsy medication, n (%)
Strongly agree	19 (37.3)	25 (41.0)
Somewhat agree	19 (37.3)	16 (26.2)
Neither agree nor disagree	7 (13.7)	8 (13.1)
Somewhat disagree	2 (3.9)	7 (11.5)
Strongly disagree	4 (7.8)	5 (8.2)
My epilepsy medication(s) eliminate(s) my fear of SUDEP, n (%)
Strongly agree	13 (25.5)	14 (23.0)
Somewhat agree	8 (15.7)	17 (27.9)
Neither agree nor disagree	21 (41.2)	18 (29.5)
Somewhat disagree	3 (5.9)	7 (11.5)
Strongly disagree	6 (11.8)	5 (8.2)
My epilepsy medication(s) work(s) as intended if I missed taking a dose, n (%)
Strongly agree	4 (7.8)	10 (16.4)
Somewhat agree	9 (17.6)	12 (19.7)
Neither agree nor disagree	22 (43.1)	22 (36.1)
Somewhat disagree	8 (15.7)	9 (14.8)
Strongly disagree	8 (15.7)	8 (13.1)
My epilepsy medication(s) allow(s) me to live a normal life, n (%)
Strongly agree	14 (27.5)	22 (36.1)
Somewhat agree	16 (31.4)	19 (31.1)
Neither agree nor disagree	8 (15.7)	9 (14.8)
Somewhat disagree	10 (19.6)	5 (8.2)
Strongly disagree	3 (5.9)	6 (9.8)
My epilepsy medication(s) are affordable, n (%)
Strongly agree	18 (35.3)	21 (34.4)
Somewhat agree	15 (29.4)	14 (23.0)
Neither agree nor disagree	7 (13.7)	13 (21.3)
Somewhat disagree	7 (13.7)	6 (9.8)
Strongly disagree	4 (7.8)	7 (11.5)
My epilepsy medication(s) make me feel independent, n (%)
Strongly agree	14 (27.5)	19 (31.1)
Somewhat agree	12 (23.5)	21 (34.4)
Neither agree nor disagree	13 (25.5)	9 (14.8)
Somewhat disagree	11 (21.6)	7 (11.5)
Strongly disagree	1 (2.0)	5 (8.2)
My epilepsy medication(s) have a convenient pill size, n (%)
Strongly agree	24 (47.1)	32 (52.5)
Somewhat agree	14 (27.5)	21 (34.4)
Neither agree nor disagree	4 (7.8)	4 (6.6)
Somewhat disagree	9 (17.6)	2 (3.3)
Strongly disagree	0 (0.0)	1 (1.6)
My epilepsy medication(s) have a convenient dosing schedule, n (%)
Strongly agree	26 (51.0)	34 (55.7)
Somewhat agree	19 (37.3)	21 (34.4)
Neither agree nor disagree	3 (5.9)	3 (4.9)
Somewhat disagree	1 (2.0)	3 (4.9)
Strongly disagree	2 (3.9)	0 (0.0)
My epilepsy medication(s) make me confident that I would not have another seizure if I missed taking a dose, n (%)
Strongly agree	4 (7.8)	13 (21.3)
Somewhat agree	15 (29.4)	13 (21.3)
Neither agree nor disagree	10 (19.6)	11 (18.0)
Somewhat disagree	9 (17.6)	13 (21.3)
Strongly disagree	13 (25.5)	11 (18.0)
My epilepsy medication(s) were not well tolerated, n (%)
Strongly agree	3 (5.9)	N/A
Somewhat agree	14 (27.5)	N/A
Neither agree nor disagree	13 (25.5)	N/A
Somewhat disagree	6 (11.8)	N/A
Strongly disagree	15 (29.4)	N/A

Abbreviations: ASM, antiseizure medication; N/A, not applicable; SUDEP, sudden unexpected death in epilepsy.

HRQoL

Perampanel use was also associated with improvements in HRQoL. When comparing their experience with perampanel with their experience with previous ASMs, more patients taking perampanel “strongly agreed” that they now have more energy (13.1% vs 9.8%), are less depressed (6.6% vs 11.8%), and are less anxious (6.6% vs 11.8%) than before taking perampanel (Table 4).

Table 4

Patient Ratings of Health-Related Quality of Life (Pre- versus Post-Perampanel Experience)

	Pre-Perampanel (N=51)	Post-Perampanel (N=61)
My epilepsy makes it difficult for me to perform daily functions, n (%)
Strongly agree	11 (21.6)	11 (18.0)
Somewhat agree	10 (19.6)	19 (31.1)
Neither agree nor disagree	7 (13.7)	11 (18.0)
Somewhat disagree	10 (19.6)	7 (11.5)
Strongly disagree	13 (25.5)	13 (21.3)
My quality of life is good, n (%)
Strongly agree	13 (25.5)	18 (29.5)
Somewhat agree	22 (43.1)	23 (37.7)
Neither agree nor disagree	9 (17.6)	8 (13.1)
Somewhat disagree	5 (9.8)	9 (14.8)
Strongly disagree	2 (3.9)	3 (4.9)
I have a lot of energy, n (%)
Strongly agree	5 (9.8)	8 (13.1)
Somewhat agree	8 (15.7)	12 (19.7)
Neither agree nor disagree	16 (31.4)	19 (31.1)
Somewhat disagree	14 (27.5)	14 (23.0)
Strongly disagree	8 (15.7)	8 (13.1)
I feel depressed, n (%)
Strongly agree	6 (11.8)	4 (6.6)
Somewhat agree	10 (19.6)	20 (32.8)
Neither agree nor disagree	8 (15.7)	14 (23.0)
Somewhat disagree	12 (23.5)	12 (19.7)
Strongly disagree	15 (29.4)	11 (18.0)
I feel anxious, n (%)
Strongly agree	6 (11.8)	4 (6.6)
Somewhat agree	15 (29.4)	21 (34.4)
Neither agree nor disagree	11 (21.6)	19 (31.1)
Somewhat disagree	7 (13.7)	6 (9.8)
Strongly disagree	12 (23.5)	11 (18.0)

Treatment Satisfaction

Patients were satisfied with perampanel and its attributes. Results from the TSQM-9 indicated that patients reported an average score of 71.8 (SD=19.7) for effectiveness, 84.0 (SD=14.0) for convenience, and 71.9 (SD=22.9) for global satisfaction (Table 5). Nearly one-third of patients (31.1%) reported being “much more satisfied with current medication”, followed by “neither more satisfied nor more dissatisfied with current medication” (26.2%), and “somewhat more satisfied with current medication” (19.7%). The vast majority of patients were satisfied with the size of their perampanel tablet (98.3%) (Table 5). Overall, satisfaction with perampanel was positively correlated with satisfaction with the size of the perampanel tablet (Pearson correlation coefficient r=0.3).

Table 5

Treatment Satisfaction

	Total (N=61)
TSQM-9: Effectiveness, mean ±SD	71.8 ± 19.7
TSQM-9: Convenience, mean ± SD	84.0 ± 14.0
TSQM-9: Global Satisfaction, mean ± SD	71.9 ± 22.9
Satisfaction with perampanel regimen, relative to satisfaction with ASM regimen that immediately preceded perampanel, n (%)
Much more satisfied with current medication	19 (31.1)
Somewhat more satisfied with current medication	12 (19.7)
Neither more satisfied nor more dissatisfied with current medication	16 (26.2)
Somewhat more dissatisfied with current medication	2 (3.3)
Much more dissatisfied with current medication	2 (3.3)
Satisfaction with size of perampanel tablet, n (%)
Extremely satisfied	26 (42.6)
Very satisfied	19 (31.1)
Satisfied	15 (24.6)
Not at all satisfied or somewhat satisfied	0 (0.0)

Abbreviations: ASM, antiseizure medication; SD, standard deviation; TSQM-9, Treatment Satisfaction Questionnaire for Medication – 9 item.

Medication Adherence

Based on the MGLS, the average reported medication adherence score was 3.46 (SD=0.85; range, 0–4). The majority of patients (N=38, 62.3%) were completely adherent to their current medication regimen that included perampanel.

Discussion

Perampanel appears to be an effective and tolerable treatment for epilepsy with important implications for patients’ general well-being. Results from this study provide the first real-world data on perampanel use from the patient’s perspective. The impact of epilepsy on patients’ daily lives is compounded by side effects commonly associated with ASMs, which further impair patients’ HRQoL. Clinical trials have shown perampanel to be an effective and tolerable treatment; however, little prior research exists from the perspective of the perampanel-treated patient on their own health, well‐being, and/or HRQoL.6,10,12–15 The current study helps to address this gap in the literature. The majority of patients in our study reported being adherent to their current perampanel regimen and experiencing improvements in HRQoL, seizures, and symptoms with perampanel use.

Indeed, patients in our study reported improvements in both seizures and symptoms after taking perampanel, with fewer seizures reported per month and shorter seizure lengths, compared with their previous therapy. Furthermore, compared with previous ASMs, patients were relatively satisfied with perampanel and its attributes. The TSQM-9 results are comparable with prior research involving ASMs in epilepsy patients.22,23

The reduction in seizure frequency and duration we observed in these data could have marked implications for patients’ HRQoL. Indeed, perampanel was associated with notable improvements in HRQoL, including boosts in energy, less depression, less anxiety, an increased ability to live a normal life, and feelings of independence. In addition, previous studies24,25 using administrative claims data found perampanel use was associated with fewer healthcare professional visits, emergency room visits, and hospitalizations due to epilepsy as compared with ASM regimens immediately preceding perampanel use.

For patients with epilepsy, adherence to ASMs is crucial in preventing or minimizing seizures and their cumulative impact on everyday life. Non-adherence can result in breakthrough seizures that occur many months or years after a previous episode and can have serious repercussions on an individual’s perceived quality of life, including being unable to drive for a set amount of time, inability to work, and loss of independence.26 Previous research suggests a substantial degree of non-adherence to other ASMs (59–66%27,28), whereas non-adherence was reported by only 37.7% of patients taking perampanel in this study. This notable difference could be due to the easier dosing regimen associated with perampanel use, as well as enhanced motivation given the increased efficacy reported by patients.

In line with results from randomized clinical trials, our study results suggest that a perampanel regimen is an effective option for adults with partial seizures and primarily generalized tonic-clonic seizures uncontrolled with other medications.29–32 A recent literature review by Trinka et al found that based on the published evidence, perampanel has the potential to be used a broad-spectrum ASM.33 Many of the real-world results observed in the current study are consistent with those reported in these randomized controlled trials,29–32 including a noted reduction in seizures and a tolerable side-effect profile.

The results of this real-world study align with clinical trial data and show that perampanel use could be associated with reducing seizures and side effects. The high level of satisfaction among patients, particularly as compared with previous ASMs, is noteworthy and suggests that perampanel could represent an important treatment option for clinicians to consider in the management of epilepsy. Effective resources are needed to help guide discussions between providers and patients regarding the risks and benefits of perampanel, and to further assess the effect this agent has on patient and clinical outcomes.

These data must be interpreted in the context of the particularities of a real-world study that uses patient-reported outcome measures. First, all measures and outcomes assessed were patient-reported data and these results are susceptible to the potential for inaccurate self-report related to recall bias, variable health literacy, errors in memory, or respondent fatigue. Second, these data are cross-sectional in nature and do not allow for causal conclusions to be made. All findings reported should be conceptualized as associations with perampanel use, rather than outcomes resulting from perampanel use. A longitudinal study or a randomized controlled experiment would be needed to verify any causal relationships among variables. Third, the study sample may not be representative of the total perampanel user patient population in the US due to the site-based nature of this study. Sites were primarily selected out of convenience due to practical challenges with accessing the perampanel patient population. Additionally, there may have been a bias in the types of patients that agreed to participate, and the sample size for the study was small, not reaching the target sample size. Perampanel users with extremely severe symptoms may have been too impaired to participate in this study, yielding a perampanel patient sample that may be less impaired than the general US perampanel patient population.

Conclusions

Perampanel use was associated with reductions in number of seizures, duration of seizures, and seizure-related symptoms. Patients were more satisfied with a perampanel regimen than their previous ASMs and reported improvements in HRQoL. This is the first study to examine patient-reported outcomes in patients treated with perampanel in the real-world setting. Future research with larger samples is needed to better evaluate perampanel outcomes from a patients’ perspective and understand the full impact of both the treatment and disease in both newly diagnosed patients with epilepsy and long-term epilepsy patients.