Efficacy and Safety of Epilepsy Surgery for Older Adult Patients with Refractory Epilepsy.

PURPOSE: The population of elderly patients with epilepsy has been growing rapidly and the chances of referring older patients with refractory epilepsy for surgical options could be increasing. In general, epilepsy surgery at higher ages has been less likely to be performed, because little is known regarding the risks and benefits in elderly patients. We, therefore, investigated surgical outcomes and comorbidities in a population ≥50 years old who underwent epilepsy surgery.
METHODS: Patients ≥50 years old who underwent epilepsy surgery were identified from the database of our epilepsy center for the period from 2009 to 2017. Surgical complications and seizure outcome were reviewed, and seizure outcomes were evaluated using the International League Against Epilepsy (ILAE) surgery outcome scale.
RESULTS: The mean age of 32 patients at the time of surgery was 56.1±5.1 years. The mean duration of epilepsy was 23.4±18.5 years and mean follow-up was 2.7±2.0 years. As of the most recent visit, 56.3% of patients remained completely seizure-free (ILAE Class I). The surgery-related complication rate was 11.5%, comprising permanent deficits in 3.8% and transient deficits in 7.7%.
CONCLUSION: These results suggest that epilepsy surgery may represent a valuable approach in selected adult patients.

Introduction

On the present epilepsy medication, the majority of patients with epilepsy can reach sustained remission with the first or second monotherapy utilized, whereas approximately one-third continues to experience seizures despite adequate treatment1 and the burden of treatment-resistant epilepsy has remained fairly stable over the years despite the availability of new antiepileptic drugs, including those of third-generation like brivaracetam, eslicarbazepine acetate and perampanel.2–5 Those drug-resistant epilepsy patients are the candidates of surgical treatment, also might include elderly populations. The population globally is aging rapidly, and this tendency is expected to continue and strengthen in future.6,7 Similarly, elderly patients represent the most rapidly growing segment of the population with epilepsy.8 Around 2000, the elderly started to exceed children in terms of the incidence of epilepsy, and today the elderly show the highest incidence.9 New-onset epilepsies in the elderly are mostly seen as symptomatic focal epilepsy, which is likely to be amenable to epilepsy surgery.8,10,11 The need for surgery for the elderly thus seems likely to be increasing over time. Although many elderly patients now live with epilepsy, very few centers are performing epilepsy surgery for the elderly. The optimal age for such surgery was previously considered to be between 12 and 30 years,12 and surgery in adults between 45 and 60 was approached with caution.13 The reasons for low rates of elderly surgery are considered to be the higher incidences of stroke, hemorrhage and tumors and the higher prevalence of comorbidities such as cardiovascular disease.9,14 Basically, comorbidities and other risk factors are more likely to be present with increasing age.15 This seems likely to result in a reluctance of surgeons to perform or patients to undergo such surgery.16 However, little is known regarding the surgical risks and benefits in elderly patients, because most studies have included subjects <50 years old.14 Older patients still tend to be underreported in general.17

If good surgical outcomes and minimal complications can be ensured, elderly individuals can be more confident in selecting the surgical option. This could, in turn, lead to better outcomes for epilepsy and better quality of life after surgery. This perspective seems very important for countries with increasingly elderly populations, particularly Japan as the most aged country in the world.18 The aims of the present retrospective study were to report our experience with surgical treatment for patients ≥50 years old with refractory epilepsy and to investigate the efficacy and safety of surgery in this population.

Methods

Study Design and Ethics Approval

The ethics committee at Seirei Hamamatsu General Hospital approved the protocol for this study in accordance with the principles of the Declaration of Helsinki. Participants in this study were identified via a retrospective electronic chart review at the Comprehensive Epilepsy Center, Seirei Hamamatsu General Hospital. Written informed consent was obtained from all patients.

Patients

Patients who had undergone epilepsy surgery between August 2009 and November 2017 were identified from the database of our epilepsy center. Inclusion criteria were age ≥50 years at the time of surgery and availability of postoperative information.

Surgical Procedures

All patients received standardized evaluations and had been diagnosed with refractory epilepsy. They accepted various procedures: resective epilepsy surgery, intracranial subdural grid and depth electrode insertion for extra-operative electrocorticographic monitoring, tumor removal, vagal nerve stimulation (VNS) implantation, replacement of the VNS device and corpus callosotomy. We included all procedures in this study.

Evaluation of Complications

We investigated surgery-related complications and also included complications of invasive examinations such as the Wada test.

Outcome Measurement

We established a group of patients who had undergone resective epilepsy surgery, removal of magnetic resonance imaging (MRI)-documented lesions and apparent epileptogenic tissue as suggested by preoperative evaluations. We searched for seizure-related outcomes in this group. Outcomes were determined through retrospective information from the most recent outpatient visit in accordance with the International League Against Epilepsy (ILAE) surgery outcome scale.19

Results

Patient Characteristics

We identified 32 patients (18 women, 14 men) who underwent epilepsy-related surgery. Mean age at epilepsy onset was 32.6±21.4 years (range, 1–68 years). Mean age at surgery was 56.1±5.1 years (range, 50–68 years). Mean duration of epilepsy prior to surgery was 23.4±18.5 years (range, <1–52 years). Mean duration of follow-up was 2.7±2.0 years (range, <1–8 years). These data are summarized in Table 1.

Table 1

Demographics and Characteristics of Patients >50 Years Old Who Underwent Epilepsy Surgery (N=32)

Gender (female) [n] (%)	18 (56)
Age at onset [years] median, mean (range)	24, 32.6±21.4 (1–68)
Age at surgery [years] median, mean (range)	55, 56.1±5.1 (50–68)
Epilepsy duration [years] median, mean (range)	28, 23.4±18.5 (<1-52)
Follow-up [years] median, mean (range)	2, 2.7±2.0 (<1–8)

We identified 52 surgeries, including 15 resective epilepsy surgeries, 15 intracranial electrode insertions, 7 tumor removal surgeries, 10 VNS implantations, 2 VNS replacements and 3 corpus callosotomies. These data are summarized in Table 2.

Table 2

Detailed Surgical Procedures (N=52)

Resective epilepsy surgery [n] (%)	16 (30.7)
Electrodes insertion [n] (%)	15 (28.8)
Tumor removal [n] (%)	6 (11.5)
VNS implantation [n] (%)	10 (19.2)
VNS replacement [n] (%)	2 (3.8)
Corpus Callosotomy [n] (%)	3 (5.8)

Complications

Surgical complications were found in six cases (11.5%). We underwent 15 cases with electrode insertion, four had intracranial hematoma. Two of which had to be evacuated (one of these two patients had a medical history of intracerebral hemorrhage and was eventually shown to have an arteriovenous malformation (AVM). The remaining two were observed. A different one patient with history of previous aneurysmal subarachnoid hemorrhage then had hydrocephalus followed by treatment with ventriculoperitoneal shunt (VP shunt). The last patient experienced cerebral infarction due to the Wada test. 20 patients who had Wada test performed; one patient had a cerebral infarction. The patient had transient neurological deficit and then was fully recovered.

Permanent neurological deficits were observed in two patients: one case who had hematoma evacuation has been severe disability (modified Rankin Scale Ⅴ), the other one who had hematoma evacuation due to AVM has been hemianopia. Transient neurological deficits were observed in two patients: one case who had cerebral infarction at Wada test had hemiparesis that had resolved within a few days, and the other one case who had left temporal focal resection had aphasia that had resolved within a few weeks. No cases of death were associated with surgeries in this study. The data are summarized in Table 3.

Table 3

Neurological Deficits and Complications

Total 6 Cases (n=6/52: 11.5%)
Permanent deficits	2 (3.8%)
Transient deficits & asymptomatic	4 (7.7%)
Intracranial hematoma	4
Hematoma removal	(2)
Observation	(2)
Cerebral infarction	1
Hydrocephalus	1
Invasive procedures
Electrodes insertion	4
Resective epilepsy surgery	1
Wada test	1

Seizure Outcome

The present study reviewed 16 cases involving resective epilepsy surgery. At the time of final follow-up, 9 (56.3%) of the 16 patients were documented as completely seizure-free (ILAE Class I), including 8 (88.9%) of 9 patients who had undergone temporal lobe surgery. Twelve (75%) of the 16 patients were classified as ILAE Class I–III (rare disabling seizure).

Histopathology in this group was hippocampal sclerosis (HS) in three cases and focal cortical dysplasia (FCD) in three. These data are summarized in Table 4.

Table 4

Detailed Seizure Outcomes Using the ILAE Seizure Outcome Scale and Histopathology of Surgical Specimens

N=16	Temporal	Frontal	Multilober	Total
ILAE Class I	8		1	9 (56.3%)
Class II	1			1 (6.3%)
Class III	1		1	2 (12.5%)
Class IV	2	1	1	4 (25%)
	12 (75%)	1 (6.3%)	3 (18.8%)
Histopathology				15
HS				3 (20%)
HS+AVM				1 (6.7%)
AVM				1 (6.7%)
FCD				3 (20%)
Gliosis				1 (6.7%)
Non specific				6 (40%)

Discussion

This study investigated the surgical risks and outcomes in patients ≥50 years old with refractory epilepsy.

In terms of surgical risk, our results showed that the surgically related complication rate (11.5%) was similar to that seen in other studies of the same older patient group (10–10.9%).15,20 However, this complication rate was higher than that seen in younger patients. In large series of younger patients 7.5–8.9% of minor complications have been reported.20,21 Some studies have reported a significant increase in surgical risk with age.14,20 In those studies, complications were mostly transient and even cases with permanent deficits were able to take care of themselves. In our study, permanent deficit was noted in 2 patients (3.8%, 4.9% excluded VNS surgery), and transient deficits and asymptomatic were noted in 4 patients (7.7%, 9.8% excluded VNS surgery). No neurological deficits cases provided in VNS surgery. Two of our 6 complicated cases had clinical histories of AVM and SAH, and were complicated by intracranial hematoma and hydrocephalus, respectively. Thus, some difficulties existed in comparing our complication rates to those of other studies and other age groups, because of the heterogeneity of histopathology and surgical procedures. Older patients, therefore, had a risk of complications in epilepsy surgery, but risk maybe overemphasized, though needs further study.

In terms of seizure outcomes, our results showed that 10 (62.5%) of 16 patients achieved a seizure-free state with or without aura (ILAE Class I–II), 9 (56.3%) were completely seizure-free (ILAE I) and 12 (75%) involved rare disabling seizure (ILAE Class I–III). This seizure outcome was almost equivalent to that of other studies and also equivalent to the younger adults in other studies.8,22,23 As in our analysis, epilepsy surgery was equally effective in both younger and older patients, and older age did not preclude a favorable seizure outcome.

In summary, this study suggested that older patients with epilepsy should not be considered contraindicated for surgical treatment, despite a higher risk of surgical complications compared with younger patients. We should not lose the opportunities for treatment by emphasizing the risk too much. Careful assessment and sufficient preoperative evaluation would lead to selection of the appropriate candidates and improved affordability of effective treatment in elderly epilepsy patients.

Several limitations of this study should be acknowledged. Firstly, our sample size was small. And the data were collected retrospectively. Therefore, the results have to be interpreted with caution. A younger control group was absent, although our data showed similar characteristics compared to elderly patients in other studies. Furthermore, we did not evaluate pre- and post-cognitive function associated with surgery. This viewpoint would be one of the chief concerns regarding epilepsy surgery in elderly patients. Some studies have reported no significant cognitive morbidities in most elderly individuals.15,23

Conclusion

The present study demonstrated that epilepsy surgery for patients ≥50 years old provided equal efficacy compared with younger adult patients. Although the surgical complication rate in older patients was higher than that in younger patients, most complications were transient deficits, and permanent deficits were not higher than younger adults with similar invasive procedures.