Adjunctive lacosamide treatment for adult focal-onset epilepsy: focus on comorbid intellectual/developmental disorders and differing responses

Abstract

Background

Data regarding lacosamide treatment as an adjunctive therapy in patients representative of a focal-onset epilepsy population including those with and without intellectual/developmental disorders (IDDs) are limited.

Purpose

To evaluate the retention rates of lacosamide in focal-onset epilepsy patients with and without IDD.

Patients and methods

We retrospectively reviewed all consecutive electronic and paper medical records of patients diagnosed with focal-onset epilepsy who were treated with lacosamide in two tertiary epilepsy centers.

Results

One hundred and thirty-six patients who met the inclusion criteria were studied. Number of patients with IDD was 46 (33.8%). Median lacosamide dose was 300 mg/day. A total of 39 patients (28.7%) experienced side effects, and 22 of them (16.2%) discontinued lacosamide. The 1-, 2-, and 3-year retention rates of lacosamide in patients with IDD were 68%, 62%, and 53%, respectively. Kaplan–Meier survival analysis showed that the retention rates were significantly lower in patients with IDD when compared to patients without IDD (P=0.04). Cox regression analysis showed that concomitant use of sodium channel blocker antiepileptic drugs (AEDs) was the only independent predictor of retention rate of lacosamide treatment (P=0.03). In the subgroup of patients with IDD, the analysis was performed again and the number of background AEDs was the only predictor for the retention rate of lacosamide (P=0.04).

Conclusion

When compared to patients without IDD, retention rates of lacosamide adjunctive therapy were lower in patients with IDD. However, these rates were higher than the rates suggested with previously registered AEDs including lamotrigine, levetiracetam, and topiramate. Therefore, irrespective of having comorbid IDD, we might suggest that lacosamide is a well-retained drug with a high efficacy profile in patients with focal-onset epilepsy.

Keywords:

• lacosamide
• focal-onset epilepsy
• intellectual/developmental disorders

Introduction

Intellectual/developmental disorder (IDD) is defined as the condition of arrested or incomplete development of the mind, which is especially characterized by impairment of skills manifested during the developmental period that contribute to the overall level of intelligence.¹

The prevalence of epilepsy in people with IDD is higher than in the population without IDD, which varies between 26% and 40%. However, treatment of these patients is usually challenging due to frequent antiepileptic drug (AED)-related side effects caused by polypharmacy and a more refractory course.²

Lacosamide is a third-generation AED with a proven efficacy for focal-onset epilepsies. It has a unique mechanism of action. It selectively enhances the slow activation of voltage-gated Na channels by altering their voltage dependence, but without affecting the fast channels.^3,4 This is in contrast to that seen in traditional sodium channel blocking AEDs. The efficacy of lacosamide has been demonstrated in large clinical studies, but data regarding the use of lacosamide in patients representative of a general epilepsy population including those with IDD are limited. Patients with IDD are usually excluded from randomized studies due to several ethical concerns. Lack of capacity to give consent, restricted reporting of adverse events due to communication problems, in addition to incompliance to drugs are among the main concerns.⁵ Therefore, in our study, we aimed to assess the retention rates of adjunctive lacosamide treatment, particularly in patients with comorbid IDD in a real-world setting.

Patients and methods

We retrospectively reviewed all the medical records of patients diagnosed with epilepsy who were treated with lacosamide in two large tertiary epilepsy centers over a 3-year period.

Patients aged ≥16 years were included only if they had a diagnosis of focal-onset epilepsy. Subjects were excluded if the available information was inadequate and/or if the dose(s) of other AED(s) were increased simultaneously with lacosamide initiation.

Patients were divided into two subgroups: patients with IDD and patients without IDD. IDD was graded in concordance with the Diagnostic and Statistical Manual of Mental Disorders, fifth edition criteria.^6,7 As a general approach in both clinics, a basal electrocardiogram was obtained for all patients with IDD. PR, QT intervals, and QRS durations were analyzed before lacosamide treatment.

In both centers, epilepsy outpatient clinics are being directed by the epilepsy specialists (EAD in Akdeniz University and BOG in Necmettin Erbakan University) and all appointments are arranged only with the legal representatives of the patients with IDD.

The study was performed in compliance with the Declaration of Helsinki, and the study protocol was approved by the Akdeniz University School of Medicine Ethics Committee. As per the institutional review board guidelines, patients’ personal information and confidentialities were searched only after obtaining local committee’s approvals of Akdeniz and Necmettin Erbakan universities. As approved by the Akdeniz University School of Medicine Ethics Committee, individual patient informed consent was exempted, since the personal information was encrypted.

Data were systematically recorded based on age, gender, duration of epilepsy, and severity of IDD. In accordance with the International League against Epilepsy (ILAE) guidelines, seizures were classified by the mechanism of onset. Etiology of epilepsy, duration of lacosamide treatment, concomitant behavioral medication, adverse events, and number of previous and current AEDs were recorded.

Due to inadequate reimbursement for care management and cost factors, the etiologic factor(s) could not be elucidated in the whole of the patients with IDD. In these patients, we could not exclude perinatal infections or genetically inherited diseases, which precludes us from asserting a definite diagnosis. Therefore, patients with a diagnosis of “hypoxic birth” were classified under the heading “patients with presumed birth-related complications and/or genetically inherited diseases”.

AEDs were classified according to whether they are sodium channel blockers (phenytoin, carbamazepine, lamotrigine, oxcarbazepine) or non-sodium channel blockers.⁸

In both centers, lacosamide dose was initiated and up-titrated to the optimal dose according to the treating physician’s usual practice. Hospital charts included all clinically relevant parameters which had been captured at regular time intervals in the first year (baseline, after a month, and every 3 months). However, due to the retrospective design of the study, no exact visit windows could be defined after the first year and the visit schedules were up to the physician’s discretion and the patients’ health conditions.

Statistical analyses

Statistical analysis was carried out using SPSS 18 Software (SPSS Inc., Chicago, IL, USA). Continuous data were characterized by median and range and mean±SD. Categorical data were characterized by number and percentage. Significances of the differences between continuous variables were tested by Mann–Whitney U test. Chi-squared test was used for categorical comparisons of nominal values. Kaplan–Meier analysis was conducted to estimate the retention rates of lacosamide treatment. Log-rank test was used to compare the retention rates of the patients with and without IDD. Patients still using lacosamide at their last follow-up were regarded as censored in the survival analysis. In order to assess the retention rates in concordance with the literature, 1-, 2-, and 3-year time periods were chosen.

Cox regression analysis was performed to identify the predictors of retention rate and the efficacy of lacosamide treatment. The level of significance was set at 0.05.

Results

Demographic and clinical characteristics of the patients are displayed in Table 1. One hundred and thirty-six patients (70 male, 66 female) were identified who met the inclusion criteria with a median age of 30. Median age of onset for epilepsy was 14 years, and median duration of epilepsy was 11 years. Median and mean follow-up after initiation of lacosamide was 11.5 (range: 1–38) and 15.3±11.7 months, respectively. Median lacosamide dose was 300 mg/day. In 17 patients, lacosamide was not escalated to 400 mg, despite the absence of efficacy and any side effect. On average, 1.8±0.8 (median 2) AEDs were used alongside lacosamide. Mean daily doses of background AEDs are shown in Figure 1.

Figure 1 Daily mean doses of background AEDs in the study population.

Note: ^*Sodium channel blockers: carbamazepine, lamotrigine, oxcarbazepine, phenytoin.
Abbreviations: AED, antiepileptic drug; CBZ, carbamazepine; LEV, levetiracetam; LMT, lamotrigine; OXC, oxcarbazepine; PHT, phenytoin; TPM, topiramate; VA, valproic acid; ZNS, zonisamide.

Table 1 Demographic characteristics of the patients

	Value
Age (years)	30 (16–79); 34±14.5a
Gender, n (%)
Male	70 (51.5%)b
Female	66 (48.5%)b
Epilepsy onset (age)	14 (1–65); 19.7±17.7a
Epilepsy duration (years)	11 (1–52); 14.3±11.0a
Lacosamide dose (mg/day)	300 (200–400); 323.5±66.9a
Follow-up duration (months)	11.5 (1–38); 15.3±11.7
Severity of IDDc (n)	46
Mild to moderate	10 (21.7%)d
Severe	28 (60.9%)d
Profound	8 (17.4%)d
Background AEDs (n)
Valproic acid	34 (25.0%)b
Carbamazepine	29 (21.3%)b
Oxcarbazepine	20 (14.7%)b
Lamotrigine	31 (22.8%)b
Levetiracetam	68 (50.0%)b
Topiramate	13 (9.6%)b
Epdantoin	9 (6.6%)b
Zonisamide	22 (16.2%)b
Concomitant antipsychotic medication (n)	17 (12.5%)b

Notes:

a Median (minimum–maximum); mean±SD.

b Number (percentage).

c According to the DSM-V criteria.

d Percentages were calculated according to the total number of patients with IDD.

Abbreviations: AED, antiepileptic drug; DSM-V, Diagnostic and Statistical Manual of Mental Disorders, fifth edition; IDD, intellectual/developmental disorder.

Presumed birth-related complications and/or genetically inherited diseases constituted the major part of the study population (n=47; 34.6%). Thirty-three patients (24.3%) had brain tumor documented on brain magnetic resonance imaging and/or computed tomography. Eighteen patients (13.2%) had mesial temporal sclerosis. Cerebrovascular or degenerative diseases were the cause in eight patients (5.9%). Etiologic classification of the patient population is presented in Table 2.

Table 2 Etiologic classification of the patient population

Etiology	n
Birth related and/or genetica	47 (34.6%)
Brain tumor	33 (24.3%)
Mesial temporal sclerosis	18 (13.2%)
Trauma	11 (8.1%)
Cerebrovascular/degenerative disease	8 (5.9%)
Cortical dysplasia	6 (4.4%)
Meningitis sequelae	6 (4.4%)
Tuberous sclerosis	5 (3.7%)
Arteriovenous malformation	1 (0.7%)
Paraneoplastic limbic encephalitis	1 (0.7%)

Note:

a Presumed birth-related complications and/or genetically inherited diseases.

Demographic and clinical characteristics of patients with and without IDD are demonstrated in Table 3. Gender rates, mean follow-up, and mean lacosamide dose did not differ significantly. Average age was lower (P<0.001) and the number of background AEDs was significantly higher in patients with IDD (P=0.006).

Table 3 Comparison of patients with and without IDD

	IDD (+), n=46	IDD (−), n=90	P-valueb
Age (years)a	26.8±11.0; 23 (16–66)	37.7±14.7; 33.5 (16–79)	<0.001
Gender (male)	22 (47.8%)	48 (53.3%)	0.59
Follow-upa	15.3±12.9; 11 (1–38)	15.3±11.1; 12 (1–38)	0.67
LCM dosea	337.0±67.0; 325 (200–400)	316.7±66.2; 300 (200–400)	0.07
Use of concomitant SCB	30 (65.2%)	48 (53.3%)	0.20
Background AED, na	2.07±0.90; 2 (1–4)	1.62±0.57; 2 (1–3)	0.006
Side effect	16 (34.8%)	23 (25.6%)	0.32

Notes:

a Continuous variables are defined as mean ± SD and median (minimum–maximum), respectively.

b Mann–Whitney U test was used for the comparison of continuous variables.

Abbreviations: Background AED nr, number of initial antiepileptic drugs; IDD, intellectual/developmental disorders; LCM, lacosamide; concomitant SCB, concomitant traditional sodium channel blocking agent.

Lacosamide was reported to be effective in 66.2% (n=90) of the patients in reducing seizure frequency, severity, or both. In 41 patients (30.1%), there was no effect on seizures. In 5 patients (3.7%), increased seizure activity was observed.

Kaplan–Meier survival analysis was conducted to estimate and compare the retention rates of lacosamide in patients with and without IDD. The 1-, 2-, and 3-year retention rates of lacosamide in patients with IDD were 68%, 62%, and 53%, respectively. The 1-, 2-, and 3-year retention rates of lacosamide in patients without IDD were 88%, 73%, and 33%, respectively (Table 4). Kaplan–Meier survival analysis showed that the retention rates were significantly lower in patients with IDD when compared to those in patients without IDD (P=0.04; Figure 2).

Figure 2 Kaplan–Meier survival analysis showed that the retention rates were significantly lower in patients with IDD when compared to those in patients without IDD (P=0.04).

Abbreviations: IDD, intellectual/developmental disorder; LCM, lacosamide.

Table 4 Retention rates of LCM treatment during follow-up in patients with and without IDD

Time period (months)	0	6	12	18	24	30	36
Patients at risk (on LCM), n
IDD −	90	70	46	34	22	17	3
IDD +	46	31	22	20	14	9	4
Discontinuation, n
IDD −	7	1	1	1	3	1	1
IDD +	12	2	0	0	1	1	0
Censored patients, n
IDD −	13	23	11	11	2	13	2
IDD +	3	7	2	6	4	4	4
Retention rate, %
IDD −	92	90	88	85	73	66	33
IDD +	73	68	68	68	62	53	53

Abbreviations: IDD, intellectual/developmental disorder; LCM, lacosamide.

In our study population, the number of patients with brain tumor was high (24.3%); therefore, to prevent a bias regarding the severity of epilepsy associated with brain tumor, a distinct assessment was provided excluding this subgroup and the statistical significances were recalculated. The statistical significance was still present after excluding the patients with brain tumor (P=0.03).

A total of 39 patients (28.7%) experienced side effects. While 22 of them (16.2%) discontinued lacosamide (Table 5), 17 (12.5%) continued the drug despite experiencing side effects. Eight patients (5.9%) discontinued lacosamide due to lack of efficacy. One of the patients discontinued lacosamide due to an unplanned pregnancy (Table 5).

Table 5 Daily dosage scheme of LCM and other AEDs at the time of discontinuation and the reasons for discontinuing LCM are shown

No.	Patient no.	Gender	Age (years)	Etiology	Discontinuation reason	Follow-up (months)	Lacosamide dose (mg)	Other AED, dosage (mg)
1	2	M	32	Birth related and/or genetica	Behavioral disorder	1b	300	LEV3,000, OXC900
2	7	M	44	Birth related and/or genetica	GI intolerance	6	300	OXC1,200
3	12	F	34	Brain tumor	Nausea/vomitingc	3	300	LAM300, CRB1,200
4	15	M	36	Birth related and/or genetica	Behavioral disorder	1b	400	LEV3,000
5	16	F	22	Mesial temporal sclerosis	Lack of efficacy	27	400	ZNS300, PHN300
6	22	M	19	Birth related and/or genetica	Behavioral disorder	1b	400	LEV2,000, PHN300
7	23	F	37	Brain tumor	Lack of efficacy	16	200	VAL1,500, PHN300
8	27	F	25	Cortical dysplasia	Pregnancy	37	400	LEV3,000, ZNS200
9	30	M	28	Birth related and/or genetica	Behavioral disorder	1b	350	LEV2,000, VAL1,500, OXC600
10	31	M	20	Meningitis sequelae	Palpitation	1	300	LAM300, PHN300
11	35	M	36	Birth related and/or genetica	Nausea/vomiting	3	300	LEV2,000, VAL2,000, LAM200
12	45	F	50	Birth related and/or genetica	Behavioral disorder	1b	200	LEV2,000, VAL1,000
13	46	F	16	Birth related and/or genetica	Lack of efficacy	34	300	LAM300, OXC1,200, VAL2,000, ZNS200
14	49	M	21	Post-traumatic	Nausea/vomiting	1	300	LAM400, CRB1,200
15	51	F	20	Birth related and/or genetica	Behavioral disorder	1b	300	LEV1,500
16	54	F	22	Birth related and/or genetica	Lack of efficacy	2	200	CRB1,200, ZNS200
17	67	F	16	Birth related and/or genetica	Allergic reaction	2	300	LAM200, OXC1,200
18	69	M	29	Birth related and/or genetica	Palpitation	4	400	LEV3,000, VAL3,000, CRB1,200
19	75	M	33	Mesial temporal sclerosis	Suicidal thoughts	10	300	LEV2,000, PHN200
20	77	F	27	Post-traumatic	Behavioral disorder	1b	300	LEV2,000, OXC1,200
21	78	M	52	Brain tumor	Lack of efficacy	28	300	LEV3,000, CRB1,000
22	83	F	43	Birth related and/or genetica	Palpitation	2	400	LAM350, PHN400
23	86	F	28	Post-traumatic	Lack of efficacy	19	300	LEV2,000
24	91	M	52	Brain tumor	Lack of efficacy	26	300	LEV1,000, CRB400
25	92	F	18	Birth related and/or genetica	Nausea/vomitingd	1	300	VAL750, CRB300
26	113	F	29	Mesial temporal sclerosis	Nausea/vomitingc	1	200	VAL1,500, OXC1,200
27	117	F	18	Birth related and/or genetica	Rash	11	400	LEV3,000, LAM300, CRB600, ZNS200
28	124	F	58	Post-traumatic	Fatigue	30	300	LEV3,000, CRB400
29	128	M	36	Brain tumor	Nausea	4	200	LEV1,500, PHN300
30	129	F	57	Cerebrovascular disease	Nausea/vomiting	2	300	LEV3,000, OXC900
31	136	M	27	Birth related and/or genetic	Lack of efficacy	25	300	LEV1,000, CRB1,200, VAL1,000

Notes:

a Presumed birth-related complications and/or genetically inherited diseases.

b Symptoms appeared in the first 2 weeks.

c Accompanied by vertiginous symptoms.

d Weight loss was observed.

Abbreviations: AED, antiepileptic drug; CRB, carbamazepine; GI, gastrointestinal; LAM, lamotrigine; LCM, lacosamide; LEV, levetiracetam; OXC, oxcarbazepine; PHN, phenytoin; VAL, valproic acid; ZNS, zonisamide.

In the whole study population (with and without IDD), reasons for discontinuation were nausea/vomiting (n=7) and behavioral disorders [(n=7); all of these patients were receiving levetiracetam treatment before initiation of lacosamide, whereas six of them had IDD], insufficient benefit (n=8) and palpitation (n=3).

Cox regression analysis showed that the concomitant use of a sodium channel blocker AED was the only independent predictor of retention rate of lacosamide treatment (P=0.03), as shown in Table 6. In the subgroup of patients with IDD, the analysis was performed again and the number of background AEDs was found to be the only predictor for the retention rate of lacosamide (P=0.04).

Table 6 Cox regression analysis showed that use of traditional sodium channel blockers was the only independent predictor of retention rate of LCM treatment

	Odds ratio	95% CI	P-value
Age (years)	1.01	0.98–1.04	0.43
Gender (male)	1.65	0.79–3.43	0.18
Presence of IDD	0.58	0.25–1.32	0.19
Use of concomitant SCB	0.31	0.11–0.89	0.03
Background AEDs, n	1.51	0.94–2.45	0.09

Note: Background AED, initial antiepileptic drug.

Abbreviations: AED, antiepileptic drug; IDD, intellectual/developmental disorder; LCM, lacosamide; SCB, sodium channel blocker.

Discussion

In this two-centered retrospectively designed study, we found the following: 1) the retention rates of lacosamide for the whole study population at 1, 2, and 3 years were 68%, 62%, and 53% respectively; 2) according to Kaplan–Meier survival analysis, the retention rate of lacosamide was significantly lower in patients with IDD when compared to patients without IDD (P=0.04); 3) behavioral problems (anxiety, unsteadiness, and/or aggressive behavior) were observed in seven patients, who were receiving levetiracetam as the co-medication; and 4) while the predictor of retention rate for the whole study population was on a sodium channel blocker AED, the predictor of retention for the subgroup of IDD patients was the number of background AEDs.

Currently, there are only three studies in which the retention rates of lacosamide were assessed specifically in IDD patients.^9–11 One of these studies was reported by Brenner et al,⁹ in which 132 patients with IDD were evaluated. In this study, the estimated 1-, 2-, and 3-year retention rates of lacosamide were found as 64%, 57%, and 56%, respectively. Our findings regarding the retention rates in the IDD subgroup are in line with this study. They have also reported that behavioral side effects were noted in a high proportion of patients (24.2%). In our study population, the behavioral side effects were encountered in 13.0% of patients with IDD. The other study was reported by Böttcher et al.¹⁰ They analyzed 136 patients with IDD. Different from our study, they analyzed the retention rate of lacosamide both in children and adults, and both the patients with focal-onset epilepsy and with other types of seizures were included. Our study comprises only those patients with focal-onset epilepsy as is indicated by US Food and Drug Administration. In this study, long-term retention rates were reported as 62.0% at 1 year, 43.7% at 2 years, and 29.1% at 3 and 4 years. Regarding the retention rate in patients with IDD for the first year, our results are also concordant with this study. However, when compared with this study, we found higher rates of retention for lacosamide at 2 and 3 years. This might be explained by the high doses in their study (100–800 mg/day). In our study, none of the patients received lacosamide >400 mg/day. This finding is in line with a recent meta-analysis reported by Zaccara et al.¹² In this meta-analysis, it is suggested that drug withdrawals are more common if AEDs are used at higher doses than recommended, and that the adverse events of an AED are clearly and significantly dose related.¹²

The other major finding reported by Böttcher et al¹⁰ was that concomitant sodium channel blocking AED was not a predictor for a lower retention rate. Our results support this finding; the concomitant sodium channel blocking AED was not a predictor for a lower retention rate in patients with IDD. In concordance with their results, we also suggest that the sole determinant of retention in patients with IDD is the number of background AEDs.

There is another study in which lacosamide use is described.¹³ This study comprises only pediatric patients. In this study also, McGinnis and Kessler used retention time as the primary outcome in their large cohort. They concluded that simultaneous use of another sodium channel blocking AED increases the treatment failure by 85%.

Several other studies have also shown that concomitant use of sodium channel blocking AEDs and lacosamide is associated with greater side effects.^14–17 Our results are in line with these studies. We also suggest that simultaneous use of sodium channel blocking AEDs with lacosamide is associated with a lower retention rate. However, regarding the discontinuation rates with the combination treatment of lacosamide and sodium blocking AEDs, the results are complicated.¹⁸

Primary outcome measures of AED trials include percent seizure reduction, responder rate (≥%50 seizure reduction), retention rate, and compliance.¹⁹ Both percent seizure reduction and responder rate require a “prospective baseline”, whereas compliance is regarded as a complex and impractical measure. On the other hand, retention rate has gained acceptance as a naturalistic functional endpoint encompassing efficacy, tolerability, and safety, in which no prospective data are required. Retention rate is calculated by measuring the time to treatment failure/study withdrawal for any reason and has grown in use as a primary measurement in AED studies. In 1998, an ILAE report defining outcome measures appropriate for AED clinical trials indicated that retention was a relevant endpoint. The advantage of using the retention time is that it can be applied readily to everyday practice, which measures a patient’s willingness to take a drug.²⁰

Therefore, we assessed the retention rate in our study. However, as the retention rate does not measure the actual changes in seizure frequency, we also reviewed our data based on three categories: 1) decrease in seizure frequency; 2) increase in seizure frequency; and 3) no change. We found that lacosamide was effective in 66.2% of the patients in reducing seizure frequency, severity, or both. In 30.1% of the patients, there was no effect on seizures, whereas seizure activity was increased in 3.7% of the patients.

In our study population, behavioral problems were reported in seven (six of them had IDD) patients after lacosamide initiation. These patients were sharing two features: 1) they had frequent seizures before lacosamide treatment as was reported by caregivers and 2) they were on levetiracetam co-medication before lacosamide treatment. In all of these patients, behavioral problems were encountered after seizures remitted and despite remission, they discontinued lacosamide. We tried to have a possible explanation for the high efficacy of lacosamide and the emergence of behavioral problems. The only explanation we could find was the phenomenon described as “forced normalization” (FN), which was firstly described by Landolt in 1953 in a group of patients with poorly controlled epilepsy who had psychotic episodes associated with remission of seizures and disappearance of epileptiform activity on their electroencephalographs.²¹ The primary and supportive diagnostic criteria of FN have been outlined in Table 7. According to these criteria (electroencephalograph is not required if other supportive data are available), we hypothesized that FN was the most likely diagnosis in our patient population, because the behavioral changes occurred in an acute/subacute fashion, there were no seizures for more than a week (corroborated by a relative/a caregiver), and symptoms emerged within the recent change of the drug regimen (lacosamide was initiated within 15 days in all patients presenting with behavioral problems).

Table 7 Proposed criteria for forced normalization

Primary (essential) criteria

1. Established diagnosis of epilepsy based on clinical history, EEG, and imaging

2. Presence of a behavioral disturbance of acute or subacute onset characterized by one or more of the following:  • Psychosis with thought disorder, delusions, hallucinations  • Significant mood change, hypomania or mania, or depression  • Anxiety with depersonalization, derealization  • Hysteria: motor, sensory, aphasia

3A. Reduction in the total number of spikes counted in a 60-minute waking-state electroencephalographic recording with a 16-channel machine, using standard 10–20 electrode placement, by over 50% compared with a similar recording performed during a normal state of behavior

OR

3B. Report of complete cessation of seizures for at least 1 week, corroborated by a relative or a carer  Supportive criteria  Recent change (within 30 days) of pharmacotherapeutic regimen  Report of similar episodes of seizure cessation and behavioral disturbance in the past, from a close relative or a carer, or general practitioner, or documentation of this in hospital records with or without electroencephalographic evidence. This may or may not be linked with an anticonvulsant drug

To make the diagnosis

Primary criteria 1, 2, and 3A

OR

Primary criteria 1, 2, and 3B and one supportive criterion

In observations from a prospective audit, it has been reported that patients with learning disabilities were more prone to develop intolerable psychiatric problems compared to those without learning disabilities.²² In this report, it has been suggested that untangling psychiatric comorbidities from behavioral and other issues in patients with IDD can be challenging, and that misdiagnoses might be more common than in general population. There are several other studies supporting this observation.^23,24

On the other hand, albeit our finding regarding the emergence of symptoms which are compatible with FN, it is not possible to relate these findings directly to IDD or only to the mechanisms of the drug. This finding may only provide a framework which may help clinicians dealing with patients with IDD as psychotic disorder, hallucinations, agitation, and aggression have been reported in patients receiving lacosamide treatment in preapproval clinical trials and in unpublished postmarketing data by the US Food and Drug Administration in 2014.^25–31

In our study population, lacosamide was not escalated to 400 mg despite the absence of efficacy and any side effect (n=17). Median dose of lacosamide was 300 mg in this subgroup. The explanation for this was the lack of any other suitable AED options in patients with drug-resistant epilepsy in our country. Due to an acceptable side effect profile, caregivers/patients sometimes opt to use this dose of lacosamide despite there being no significant efficacy. However, we chose to include these patients as we wanted to conduct a study representing the real world; there are patients who will go on using AEDs despite the absence of any significant efficacy in clinical practice. Additionally, this condition meets the definition of retention rate as well as “the willingness of a patient to take the drug”.

Limitations of our study

While our study has supplied information from a clinic-centered perspective, it has some limitations which have to be pointed out. First, the retrospective nature of the study precludes us from making a definitive conclusion on seizure frequency after lacosamide. To overcome this limitation, we used retention rate in accordance with recent data and ILAE reports. Retention rate is considered as a measure of clinical effectiveness which combines both efficacy and tolerability. In light of these data, we not only also used the retention rate as a primary outcome in our study, but also added our data to represent the seizure frequency changes (defined as reduction, increase, or no change) after lacosamide treatment. Another limitation is the relatively small patient population. Therefore, we used comparative data and analyzed the patient population according to the existence of IDD.

Conclusion

Our study shows that the retention rate for adjunctive treatment with lacosamide in a real-world setting is comparable with recently published studies. Given the paucity of studies among patients with epilepsy and IDD comorbidity, we believe further studies might shed light on this important area.

Disclosure

The authors report no conflicts of interest in this work.