A comprehensive search of the electronic database PubMed, Cochrane Central Register of Controlled Trials and Embase for articles published in English was conducted in March 2019. Search strategy combined MeSH Terms and keywords. The MESH term drug-resistant epilepsy was combined with 15 MeSH terms of psychiatric and cognitive categories. In terms of cognition, general terms were utilized in order to include both a broad range of cognitive functions along with more specific ones such as memory or attention. Search terms keywords were: drug-resistant epilepsy, refractory epilepsy AND cogniti*, neuropsychology, cognition disorders, psychia*, mental disorders, psychopathology, depress*, affective, anxiety, bipolar, personality disorder, personality traits, psychosis. The following search terms were excluded: mental retardation, intellectual disability, mental disability. These search terms were all combined in a large big search using the Boolean operators AND, OR, NOT, (). Article bibliographies were scanned to identify additional eligible articles.

Eligible studies for inclusion were clinical trials (either randomized or not, as well as either blinded or not) with or without control group along with observational studies (cohort studies, cross-sectional studies) in which patients were 18 years or older without mental disability. Date of publication must be from January 1st 1990 to February 28th 2019. All or at least a subgroup of patients had been diagnosed of refractory or hard-to-control epilepsy. Studies must report the use of objective measures for both neuropsychological and psychiatric assessments for selection. Despite not being diagnostic tools, the use of scales, tests or questionnaires is important because it enables to evaluate from an objective point of view as well as to assess severity and can easily be used in everyday clinical practice. Therefore, articles which did not specify the use of neuropsychological or psychopathological batteries assessment were excluded. Articles investigating our primary outcome only after they had undergone neurosurgery (either resective surgeries or surgeries involving neuromodulation) for epilepsy were also excluded.

The Newcastle-Ottawa Scale (NOS)19 was used for assessment of bias risk of the nonrandomized studies. It is used for cohort and case control studies and has been adapted for its use in cross-sectional studies. It uses a “star system” to punctuate on several aspects of three domains: selection of the study group, comparability of the groups and ascertainment of outcome of interest. From a total of 10 points, studies were classified as follows: ≥6 high quality, 4–5 moderate quality and ≤3 low quality.

The Jadad Scale20 was used for assessing the quality of randomized trials. It consists of a five-point scale that assesses three main aspects (randomization (0–2 points), double blinding (0–2 points) and withdrawals and dropouts (0–1 point)). Scores ≤2 points indicated inferior quality of the study whereas scores ≥3 points were indicative of high quality.

The literature search in PubMed, Cochrane Central Register of Controlled Trials and Embase resulted in a final number of 372 studies. Filters were activated according to inclusion and exclusion criteria and the search finally concluded with 168 articles. All titles and abstracts of these 168 articles were read and subsequently selected according to the established criteria. In case of doubt, the article was selected for the next step which involved full-text reading. A total of 46 articles were selected for full-text review. Out of these, 35 were excluded and a final number of 11 studies were selected evaluating 772 subjects in total, 562 with a diagnosis of refractory or hard-to-control epilepsy. The PRISMA flowchart shown in Fig. 1 sets out the steps in screening.

Figure 1.

PRISMA flowchart indicating the study selection process.

(0.32MB).

A summary of the selected studies is shown in Table 1. Only six of the total number of studies selected matched our primary outcome. The remaining five investigated our matter of interest as a secondary outcome. One of the studies was designed for evaluating the effects of anterior thalamic stimulation (it was included because cognition and psychopathology were assessed at baseline, previous to any intervention) and five were specifically designed for the investigation of determined AEDs. Out of the eleven studies, seven were observational. There were six cross-sectional studies, one prospective cohort study, three randomized clinical trials and one secondary analysis of a randomized controlled study. The sample sizes of the studies were small; study populations ranged in size from 20 to 186 patients.

Different criteria were used for the diagnoses of DRE. In a study they used the term ‘poorly controlled’ rather than refractory because a minority of patients had not previously tried valproic acid (considered drug of choice)21 and another study used the term hard-to-control.22 Only one study referred to the International League Against Epilepsy (ILAE) for the diagnoses of DRE.2 In four of the studies, the criteria were not specified.

An important factor regarding cognition was considered in many of the studies: learning disability, mental retardation or IQ lower than 70 (in two cases lower than 80) were included in the exclusion criteria. Also, a few evaluated history of psychiatric disorders such as depression and in only three studies patients had undergone a clinical evaluation, only one of them following the guides of the SCID-IV (Structured Clinical Interview for DSM-IV). One of the studies specified history of psychiatric disorder as an exclusion criteria (but did not exclude patients presenting with current psychiatric symptoms at the time of evaluation) 23 while another excluded those patients presenting with acute and severe psychiatric disorders at the moment of the evaluation.24

The NOS19 for assessing the quality of nonrandomized studies is shown in Table 2. The scores ranged from four to nine stars, meaning that all nonrandomized studies included in this review were classified as moderate or high quality and that no low quality study according to the NOS was included.

Outcome of quality assessment for randomized controlled studies using the Jadad Scale20 is shown in Table 3. Only one study scored four points, while one scored three and two studies scored two points. The first two studies were considered as high quality while the studies scoring two were classified as low quality.

From the 11 studies included in this systematic review, six took specifically into consideration this relationship and it was considered as a primary outcome. As seen in Table 1, a positive association was found in three of them, while two concluded that no association existed between these factors and one study showed some controversial results.

Walsh et al.25 evaluated intellect, memory and executive dysfunction along with anxiety, depression and personality traits in 60 patients with drug-refractory JME in order to investigate the relationship between dysexecutive functions and specific psychiatric and personality traits. Half of the cohort exhibited moderate to severe anxiety symptoms. Higher anxiety scores were significantly associated with poorer function on a wide range of tests (vocabulary, similarities, information, picture completion, verbal IQ, performance IQ, full-scale IQ and letter fluency) compared to people with drug-refractory JME and less extreme anxiety scores. Furthermore, anxiety was considered a significant independent predictor of performance on the particular information subtest when correlated clinical and demographic characteristics were controlled. Higher depression scores were also significantly correlated to poorer function on category fluency although independent t-tests revealed a nonsignificant difference, which could likely be due to the small number of the cohort presenting with high depressive symptoms. In addition, people with high neuroticism performed worse across the battery of cognitive and executive function tests and those with introvert traits scored lower on the Boston Naming Test.

One distinctly interesting study carried out by Tang et al.26 in Hong Kong investigated the neurocognitive and psychological profile of one hundred eighty-six adults with epilepsy, eighty-four of them being drug-resistant. First of all, they highlight that drug-responsiveness has often not been controlled in previous studies. They concluded that psychological disturbances were present in both groups but patients with DRE were significantly more distressed in terms of depression and anxiety, and that the group with drug-responsive epilepsy outperformed their counterparts with resistant seizures in all the neurocognitive domains studied. In spite of the association between neurocognitive performances and psychological measures being fairly weak, they stated that the significant relationships between them deserve further exploration.

A recent publication by Valente et al.22 compared behaviour (particularly impulsive traits) and cognition in patients with JME and healthy controls, and also took drug-responsiveness into account, discriminating between easy and hard-to-control epilepsy in the group of JME, in an attempt to establish possible differences. Their results demonstrated that patients with hard-to-control JME showed worse performance in almost half of the neuropsychological tests carried out (12 out of 25) as well as significantly higher impulsive traits.

To sum up, according to the studies mentioned above a relationship between cognition and psychopathology in patients with DRE must exist. Anxiety, depression and certain personality traits seem to be particularly associated with specific impairment in terms of cognition, demonstrating that a subgroup of patients with epilepsy suffer from a more severe disorder. Furthermore, it must be mentioned that two of these studies took drug-responsiveness into account to discriminate between resistant and non-resistant epilepsy and compared cognition and psychopathology in these two groups of patients. Finally, and concerning the quality of the studies, all three studies were classified as high quality according to the NOS as they had the highest scores in the group of nonrandomized studies, ranging from seven to nine stars, with an adequate selection of the sample as well as comparability of the groups and ascertain of the outcome of interest.

Other studies reported no associations between cognitive and psychiatric alterations. In the study carried out by Sarkis et al.21 they evaluated 19 patients with poorly controlled Idiopathic Generalized Epilepsy (IGE) and 23 patients with poorly controlled Temporal Lobe Epilepsy (TLE). The results showed that while patients with IGE had lower performance IQ and required longer time to complete the Trail Making Tests, they had lower depression scores compared to TLE. This could indicate that no association might be made in this case between cognitive and psychiatric alterations, or even an inversely association could be postulated. However, it must be said that these results could be due to different pathophysiological processes, as the authors of the study indicate in the discussion. Another study that pointed in a similar direction was carried out by Rayner et al.27, and they prospectively studied nine patients with medically refractory Frontal Lobe Epilepsy (FLE) compared to twenty-four matched healthy controls in terms of mood disturbance and autobiographic memory functioning. They concluded that mood disorder was largely unrelated to poor autobiographic memory in the subgroup of refractory FLE (four out of nine patients with preserved autobiographic memory were notable for depressive symptoms).

Despite these initial conclusions and as the authors state in their studies, it should be mentioned that these contrasting results could be due to the differences in the diverse types of epilepsies and their pathophysiological processes, which lead to a non-representative sample of the whole group of patients with DRE as well as to the limitations of the study in terms of selection bias, including patients not strictly diagnosed of DRE, heterogeneity and small sample sizes. This fact is represented in the evaluation of quality using the NOS where both studies showed the lowest scores (four and five stars), classified among the group of moderate quality studies.

A recent article published by Tröster et al.28 in which they analyzed neuropsychological data from a previously reported trial29 demonstrated some controversial conclusions. The subjects of the study were evaluated at different times including at baseline (before any intervention) where only eight patients (7.3%) reported history of depression while the baseline average memory scores of the entire group of participants was mildly impaired. Despite these results, no specific association was examined and therefore no further conclusion on the relationship between depression and memory might be suggested. On the other hand, they do mention a connection at baseline between memory and insomnia: those reporting memory impairment were more likely to have a history of insomnia compared to those not reporting it. Still, this is the only particular association found. Nonetheless, the authors mention that lack of statistical power might explain why they did not find an association between memory scores and depression.

Patients with DRE frequently take more than one AED. Some of the studies selected in this review evaluated both cognition and psychopathology through the use of scales and questionnaires, concerning the effects of AEDs. There are numerous publications investigating either cognition or psychopathology in this group of patients, but the number of studies which have used objective measures to assess both aspects simultaneously remains low. The results are also shown in Table 1.23,24,30–32

Nevertheless, it must be acknowledged that in the studies mentioned above the principal investigated factor was the effect of different AEDs on cognition and psychopathology rather than the main subject of the present review. They are interventional trials in a highly selected population and differ from the studies matching our primary outcome. Therefore, the main results do not focus on our primary research question and are just taken into consideration as secondary outcomes. Still, we suggest that some results could also be related with the expected link between cognition and psychiatry in DRE and the worse psychopathological functioning of determined subgroups might play a role in their slightly worse cognitive results, along with or even to a further extent than the type of AED itself.

The present review has limitations. Firstly, only articles written in English were selected; this could imply that articles in other languages were excluded despite they might have provided valuable information. Besides, despite the extensive search strategy, studies not found in Pubmed, Cochrane Central Register of Controlled Trials and Embase database or not indexed by the MeSH Terms used could have been missed. Also, a meta-analysis could not be performed due to several factors: the variability at assessing cognition and psychopathology, the multiple and wide ranging profiles because of the different types of epilepsy and epileptic syndromes, the type of comparison group employed (or no comparison group), the different parameters and time intervals used and the different criteria when diagnosing DRE. Therefore, a remarkable heterogeneity was noticed and must be taken into account. Lastly, another constraint is that despite in some studies the effects of specific AEDs were investigated, in many cases the impact of this medication was overlooked and it must be emphasized that it should be taken into consideration as a potential confounder.