The Impact of Pediatric Epilepsy on Children and Families: A Multicenter Cross-Sectional Study

Abstract

Background and Objectives:

Epilepsy is considered one of the most prevalent causes of morbidity in children. The aim of this study is to determine how epilepsy impacts the lives of children with epilepsy and their families.

Methods:

A translated version of the “Impact of Pediatric Epilepsy Scale” (IPES) questionnaire was completed by the 80 mothers of children with epilepsy, recruited at three hospitals in Jeddah, Saudi Arabia This is a validated self-administered questionnaire used to assess the impact of epilepsy on the lives of the child and family, as well as the quality of life (QoL) of the child.

Results:

The mean age of children epilepsy was 6.32 years (SD = 3.22). The mean IPES score was 6.28 (SD = 8.42) and the mean child’s QoL was 2.85 (SD= 0.83). 87.5% of the mothers rated their child’s QoL as low. IPES score was significantly associated with cause of seizure (β=0.259; 95%-CI= 0.263 - 10.334; p = 0.039). Child’s QoL was significantly associated with frequency of seizure (β=0.251; 95%-CI= 0.016 - 0.568; p= 0.039) and child’s nationality (β=-0.270; 95%-CI -0.252, -0.013; p= 0.031).

Conclusions:

Pediatric epilepsy may have a greater impact on the lives of the child and the family when it is not comorbid with cerebral palsy. Quality of life tends to be lower for non-Saudi children, and children with more frequent seizures. Therefore, these groups may need more support in managing the impact that epilepsy has on their daily functioning and quality of life.

Keywords: Epilepsy, Child, Family, Cerebral palsy, Quality of life, Pediatric epilepsy.

1. INTRODUCTION

Epilepsy, defined as recurrent unprovoked seizures originating from abnormal electrical signals in the brain, is a common chronic neurological illness in childhood [1, 2]. Epilepsy is a highly prevalent disorder around the world with a reported frequency of four to eight cases per 1000 children [3, 4]. The prevalence of epilepsy varies by country [3], with a range extending from 0.9 to 58 per 1000 people [4-18]. Estimates for children range from 5.1 to 7 cases per 1000 [19, 20] Prevalence tends to be higher in low to middle income countries when compared to high income countries [21]. There has been limited investigation of its prevalence in Middle Eastern countries. However, one study identified a prevalence of 6.5/1000 for Saudi Arabia [18]. The data on pediatric epilepsy are even more limited, with one study from 1998 estimating prevalence at 2.5/1000 [22]. However, more recent investigation is warranted.

Epilepsy represents a significant cause of morbidity as it is considered to be the most common cause of referral to outpatient pediatric neurology clinics [1]. It is a progressive and complex disease with an unpredictable and debilitating nature. Coupled with the social stigma surrounding it and the economic burden associated with it, its effects extend not only to the individual suffering from it, but also to the family unit as a whole [23-27]. This is often characterized by stigmatization, dependence, low self-esteem, depression and emotional instability alongside social, occupational and financial restrictions [27]. In Arab populations, patients with epilepsy experience elevated levels of depression and anxiety, cognitive impairment, behavioral problems, sexual dysfunction, and underemployment [28]. Quality of life appears to be similarly impaired in both European and Middle Eastern samples [29]. Stress levels are often high in caregivers of patients with chronic diseases such as epilepsy, which can lead to lower parent–child relationship quality, a higher risk of depression in mothers, and problems with family functioning [30]. Families of children with epilepsy are more likely than families of healthy children to experience social and marital issues, impaired parent-child relationships, and higher levels of stress, depression and anxiety [30-33]. In addition, disease burden may worsen associated depression [33, 34], Mothers in particular often assume the role of primary caregivers to their children [35], and are therefore at a higher risk of developing psychological issues, e.g., depression [36, 37]. It is therefore important not only to consider the effect that pediatric epilepsy has on the child, but also on other family members including caregivers and siblings.

Although both mothers and fathers of children with epilepsy experience diminished QoL when compared to parents of healthy children, mothers have been shown to score lower than fathers [38]. A prospective study on maternal depression found that up to half of mothers of children with epilepsy are at increased risk for having clinical depression [39]. In fact, even mothers of children with newly-onset epilepsy are at higher risk of clinical depression, with the child’s cognitive impairments being the strongest predictor [40]. In addition to depression, anxiety levels may also be higher in mothers of children with epilepsy [41]. Therefore, a regular assessment of maternal mental health during clinic visits for pediatric epilepsy may be warranted [40]. Maternal symptoms of depression may also have a negative impact on the child with epilepsy, as they have been shown to correlate with poorer health outcomes and psychopathology in the child [42, 43].

Despite the fact that epilepsy is a universal public health issue affecting more than 100 million individuals and families worldwide [44], contributing to 1% of the global burden of diseases and 80% in developing countries [45], there has been limited investigation as to its effects on family life, particularly in the Middle East. Given that scarcity in the literature and the importance of understanding the impact that epilepsy has not only on the patient, but also on the family as a whole, we have decided to evaluate the impact of pediatric epilepsy on children and their families, as rated by their mothers in 3 main hospitals in Jeddah, Saudi Arabia: (1) King Abdul-Aziz University Hospital, (2) Al-Aziziyah Maternity and Children's Hospital and (3) Jeddah Maternity and Children's Hospital.

2. METHODS

2.1. Design and Participants

This is a cross-sectional study. From September 2016 to March 2017 we recruited a total of 80 mothers of children with physician-diagnosed epilepsy at three hospitals in Jeddah, Saudi Arabia: King Abdul-Aziz University Hospital (KAUH), Al-Aziziyah Maternity and Children's Hospital (AMCH) and Jeddah Maternity and Children's Hospital (JMCH). To be included in the study, children had to be between 2 and 18 years old, have had a seizure in the past 6 months, diagnosed with Epilepsy by a pediatric neurologist, and the mothers must have been taking care of the child for the past 6 months at a minimum. We did not include fathers of children with epilepsy as mothers are more often the primary caregiver.

2.2. Measures

We used the “Impact of Pediatric Epilepsy Scale” (IPES), an epilepsy-specific self-administered questionnaire. The IPES is an 11-item scale that is made for parents to evaluate the impact of epilepsy on major aspects of family life. It assesses the impact of epilepsy on health, relationship with siblings and partners, participation in social and family activities, child’s academic achievement and self-esteem, and caregiver's hopes for their child's future. Each item is rated on severity between 0 (not at all) to 3 (a lot), with higher scores indicating a higher impact of that item. The highest possible score was 33. We categorized IPES score below the median as “low impact”; and equal or above median and “high impact”.

A visual analogue scale was also used to rate QoL between 1 (poor) and 6 (excellent). IPES has been widely used to assess the quality of life of children with epilepsy [46-50]. We conducted a forward-backward translation of the questionnaire and pre-test to develop an Arabic version of IPES. While we did not seek to validate the Arabic version of the IPES, the IPES has been validated and is used extensively to measure the impact of epilepsy on family life. Finally, we collected data on child’s age, gender, nationality and cognitive ability, mother’s education, family monthly income, the frequency of seizure and cause of the seizure.

2.3. Bias

In order to reduce selection bias, we recruited a consecutive sample of eligible mothers. The rate of refusal to participate was less than 5% in all study hospitals. With the purpose of reducing information bias, we measured our primary outcome, the impact of epilepsy on child’s and family life, using a validated and pretested questionnaire.

2.4. Ethical Considerations

This study was approved by the Institutional Review Board (IRB) of King Abdul-Aziz University Hospital and the Research Ethics Committee of King Abdulaziz University in Jeddah. Signed informed consent was obtained from all subjects who participated in this study.

2.5. Analysis

To describe our study population, we used frequencies and absolute numbers for categorical variables, and mean, standard deviation, median and interquartile range for continuous variables. Associations between two categorical variables were assessed using the Chi-squared test. To adjust for potential confounding variables, univariate and multivariate logistic regression models were constructed. A backward elimination procedure was used to select the variables for the regression model. Multiple linear regression was also used. For all statistical tests, a p-value of < 0.05 was defined as a level of significance, to adjust for multiple testing. We used the Statistical Package for Social Sciences (SPSS©) version 20. for data analysis.

3. RESULTS

Our study included 80 mothers. The mean age of children with epilepsy was 6.32 years (SD = 3.22). 61.2% (n=49) were male and 45.0% (n=36) were Saudis. 11.3% (n=9), 42.5%(n=34), and 46.2% (n=37) of the mothers were illiterate, attended school, or university, respectively. 63.8% (n= 51) of the families had a monthly income less than 5000 SAR and only 2.5% (n=2) had an income higher than 10000. 72.5% (n=58) suffered from weekly seizures and 8.8% (n=7) reported daily seizures. In 78.8% (n= 63) of the child with epilepsy, cerebral palsy was the cause of seizure, and in 16.3% (n=13) hypoxic-ischemic encephalopathy, was the cause. 86.2% (n= 69) of the children had cognitive impairment. Demographic information is summarized in Table 1.

Table 1.
Demographic information.
Variable Results % (n)
Child Age
        Mean (SD) in Years 6.3 (3.2)
        3 years or less 16.3% (13)
        4 - 6 years 40.0% (32)
        7 - 9 years 27.5% (22)
        10 years and above 16.3% (13)
Child Gender
        Male 61.2% (49)
        Female 38.8% (31)
Child Nationality
        Saudi 45.0% (36)
        Egyptian 12.5% (10)
        Syrian 17.5% (14)
        Somalia 8.8% (7)
        Yamani 7.5% (6)
        Other 8.8% (7)
Mother Education
        Illiterate 11.3% (9)
        School 46.2% (37)
        University 42.5% (34)
Family monthly income
        < 10,000 SAR 65.0% (52)
        >= 10000 SAR 35.0% (28)
Family monthly income
        < 5000 SAR 63.8% (51)
        > 5000 to 10000 SAR 33.8% (27)
        > 10000 SAR 2.5% (2)
Frequency of Seizure
        Daily 8.8% (7)
        Weekly 72.5% (58)
        Monthly 10.0% (8)
        More than monthly 8.8% (7)
Frequency of Seizure
        Daily or Weekly 81.3% (65)
        Monthly and More 18.8% (15)
Cause of Seizure
        Cerebral palsy 78.8% (63)
        Hypoxic encephalopathy ischemic 16.3% (13)
        Unknown 5.0% (4)
Cognitive disability
        Yes 86.2% (69)
        No 13.8% (11)

Most of the mothers (87.5%; n=70) rated their child’s QoL as low (less than the median of 3), with a mean rating of 2.85 (SD=0.83). 58.8% (n=47) and 25.0% (n=20) of the mothers rated their child’s quality of life as average and less than average, respectively. The mean IPES score of the participating mothers was 6.28% (SD=8.42). Most of the mothers (87.5%; n=70) had high impact IPES score 53.8% [43], defined as more than or equal to a median of 2.0. Scale responses are summarized in Table 2.

Table 2.
Scale responses.
QOL
        Low QOL (<= median) 87.5% (70)
        High QOL (>median) 12.5% (10)
        Mean (SD) 2.85 (0.83)
        Max – Min 6 – 0
        Interquartile Range (3rd – 2nd) = (3 – 3) = 0
        1 3.8% (3)
        2 25.0% (20)
        3 58.8% (47)
        4 8.8% (7)
        5 2.5% (2)
        6 1.3% (1)
IPES
        Low impact (<median) 46.3% (37)
        High impact (>=median) 53.8% (43)
        Mean (SD) 6.28 (8.42)
        Max – Min 33 – 0
        Interquartile Range (3rd – 2nd) = (11 – 2) = 9

In cross tabulation (Pearson Chi-square test for independence), we found a significant difference between mothers with high vs. low IPES score by cause of seizure. For example, 84.6% (n=11) of mothers whose children had Hypoxic-Ischemic Encephalopathy (HIE) showed high IPES impact score. There was no significant difference between mothers with high compared to low IPES score by child’s age, child’s gender, child’s nationality, mother’s education, family’s monthly income, frequency of seizure, or cognitive disability.

In cross tabulation (Pearson Chi-square test for independence), we found a significant difference between mothers who reported a high vs. low overall quality of life for their child by family income and cause of seizure. By family income, 94.1% (n = 48) of mothers in families with income < 5000 SAR reported that their children had a low quality of life, compared to 81.5% [22] mothers with income > 5000 to 10000 SAR (p < 0.001).

By cause of seizure, 92.1% (n = 58) and 92.3% (n = 12) of mothers whose children had cerebral palsy and HIE, respectively, reported their children to have lower quality of life (p < 0.001).

There was no significant difference between mothers with reported high vs. low overall quality of life by child’s age, child’s gender, child’s nationality, mother’s education, frequency of seizure, cause of seizure, or Cognitive disability.

Using univariate analysis, mothers of children who had HIE had almost 6 times higher IPES score than mothers whose children did not have HIE (OR= 5.677, 95% CI: 1.163 - 27.717). No significant association was found between IPES score (high vs. low) on one side, and child’s age, child’s gender, child’s nationality, mother’s education, family’s monthly income, frequency of seizure, or cognitive disability, on the other side.

Mothers of children who did not have cerebral palsy perceived their children to have an almost 5 times higher QoL than children with cerebral palsy (OR= 4.833, 95% CI: 1.208 - 19.341). No significant difference was found between mother’s perception of their child’s quality of life (high vs. low) on one hand, and child’s age, child’s gender, child’s nationality, mother’s education, family’s monthly income, frequency of seizure, or cognitive disability, on the other.

Using multivariate linear regression, mothers of non-cerebral palsy children reported a higher IPES score (higher impact) than mothers whose children had cerebral palsy (β=0.259, 95.0% CI: 0.263 - 10.334). No significant association was found between IPES score (high vs. low) on one side, and child’s age, child’s gender, child’s nationality, mother’s education, family’s monthly income, frequency of seizure, or cognitive disability, on the other.

Using multivariate linear regression analysis, mothers of non-Saudi children perceived their children to have lower quality of life than mothers of Saudi children (β=-0.270; 95.0%; CI: -0.252 - -0.013). Mothers whose children had less frequent seizures (monthly or more) perceived their children to have higher quality of life than mothers whose children had more frequent seizure (daily or weekly; β=0.251, 95.0% CI: 0.016 - 0.568). No significant association was found between IPES score (high vs. low) on one side, and child’s age, child’s gender, mother’s education, family’s monthly income, cognitive disability, or cause of seizure on the other side.

4. DISCUSSION

The present study examined the QoL of children with epilepsy as evaluated by their mothers, and the impact of epilepsy on family life in Saudi Arabia. In terms of impact on life, the most significant factor was the cause of the seizures, with HIE being the most impactful cause in the everyday life of the child and the mother. This can be attributed to the nature of moderate to severe HIE, which can affect several aspects of daily life, including cognitive, motor and sensory functioning. The lowest impact was observed in children with idiopathic causes. This can be partially explained by the nature of some epilepsy syndromes such Benign Rolandic Seizures, Idiopathic Generalized Seizures, and other idiopathic localization epilepsies, which tend to have a better prognosis and a relatively benign course, which would lead to a reduced impact [51]. It is important to note that epilepsy syndromes may be confused with motor stereotypies, or vice versa, and they may also coexist which may create a more complex picture of the epilepsy [52].

Mean IPES score in our study was 6.28, which is similar to other studies [46, 53], but lower than IPES scores in a UK study, which had a mean of 12.84 [54]. This indicates higher impact of epilepsy on the child and family among the UK sample than in our sample. This difference may be attributed to better home nursing services, or how family is structured in each country in terms of number of children and the support provided by distant family members. Further cross-cultural investigation is warranted to determine the experiential differences of children with epilepsy and families in different countries.

In our study, the mean QoL of children with epilepsy was 2.85 out of 6 which is lower than the mean QoL in another study (mean = 4.5) that had a mean IPES score of 6.59 which is close to ours [46]. This may indicate a worse QoL of children in our study population but a similar impact on the families. This further highlights the need for an intercultural comparison.

Both mother’s level of education and the child's age did not significantly affect QoL. Interestingly, the child's cognitive disability was found to have a low impact, a finding which contrasts to multiple studies [24, 55] which have found that intellectual disability in children with epilepsy was significantly associated with lower QoL [24]. Patients with epilepsy who also have an intellectual disability have also been found to suffer more behavioral problems in comparison to those without an intellectual disability [55]. Still, our findings are consistent with those of another study [56] which found no difference based on intellectual abilities. This conflict in the results of multiple studies may be attributable to different sample sizes, methodologies, or populations. Another possible reason may be due to cultural differences in attitudes towards intellectual disability.

Mothers of children who had epilepsy, but not cerebral palsy perceived their children to have an almost five times higher QoL than did mothers of children with both epilepsy and cerebral palsy. This may be associated with the added physical disability associated with cerebral palsy. Other reasons for a lower QoL may be related to the time and effort it takes to care for physical disabilities in addition to seizures, which can lead to unemployment and a higher economic burden. All of these factors may lead to high parental stress and family dysfunction [1, 57-59]. These stressors may eventually lead to the development of anxiety or depression in the mothers, which may lead to cognitive impairment [57, 58, 60]. A qualitative investigation comparing the experience of mothers caring for children with epilepsy both with and without cerebral palsy would be a logical next step in determining the reasons for this difference.

Income was a significant determinant of QoL. More than 94% of families with monthly income less than 5000 SAR reported a low QoL, compared to 81.5% of families with monthly income greater between 5000 and 10000 SAR. This finding is consistent with other studies showing a correlation between QoL and family income [60, 61]. Multiple factors may play into this. Monthly income is associated with parental anxiety [61]. This can negatively influence the parent’s behavior around the child [24, 42], which may decrease the child’s QoL. If severe, this can lead to negative effects on the child personality in the future [57]. Low income can also lead to depression [60]. Both depression and anxiety can either cause or be caused by low QoL. Another factor is that families with higher income may have better access to private sector healthcare, like a daycare and rehabilitation centers. Further investigation into the mental health of mothers and of children with epilepsy is needed to determine the nature of the relationship between low income and low QoL in children with epilepsy.

Mothers of non-Saudi children perceived to their children to have a lower QoL than mothers of Saudi children, which may be attributed to the healthcare system in Saudi Arabia. Governmental hospitals provide free services to citizens, while non-citizens may not have the same number of services. A more universal problem is that illegal immigrants are at increased risk of not seeking help, due to the fear that they will get deported [62, 63]. Immigrants also face additional stressors that are not applicable to citizens, such as prejudice and difficulty integrating into society, which may reduce quality of life regardless of health status. This should be explored in future research to determine whether this effect is attributable to these social factors or to variation in healthcare services received.

Mothers whose children had less frequent seizures (monthly or more) perceived their children to have a higher QoL than mothers whose children had more frequent seizures (daily or weekly). This finding is consistent with most studies [55, 64], which have found an association between seizure frequency and lower QoL. This association may have a number of explanatory variables, one being the increased levels of anxiety in both parents and patients that occur with a higher seizure frequency [65]. Patients who experience more frequent seizures are also more likely to take anti-epileptic drugs (AEDs), which are known to be associated with reduced QoL [24, 28]. Dosage may also increase with frequency, as may the number of AEDs used and compliance with AEDs, leading to more side effects which may be distressing to patients and their families [28, 66].

One of the limitations in the present study is the convenience sampling technique used, which can lead to sampling bias. Indeed, children with cerebral palsy seem to be overrepresented in our sample. It is also important to note that all measures in the present study are subject to the bias of maternal perception. For example, mothers may want to imagine they provide a good quality of life for their children, which may skew their response to this question. Reliability and the psychiatric condition of the caregivers were not assessed, in part due to the nature of our study, as the sample was taken from pediatric department; in addition, we aimed to explore the primary caregiver's subjective outlook on their quality of life and relating it to the IPES scale. Another limitation is the single measure used to describe QoL. It may be more beneficial to use a multidimensional measure of QoL as seen in other studies of epilepsy, as this may give a more accurate account of mother’s perception of a number of different areas which encompass their child’s QoL. Lastly some patient related data may have been unavailable in the filing system of the hospitals such as, statues at time of diagnosis, and severity. Others weren't available to all the patients, such as the EEG track record. Others were not collected, due to not being one of the objectives of this paper.

A more comprehensive study that involves multiple cities in Saudi Arabia may provide further insight into the unique challenges associated with pediatric epilepsy in this country. Future research should also narrow its focus by examining the impact that pediatric epilepsy has on each member of the family, rather than examining the family unit as a whole. In particular, further investigation on the effects that pediatric epilepsy has on maternal mental health is warranted, particularly in Arab nations, as this area of investigation has received limited attention. The formulation of additional measures similar to the IPES with a narrower focus on just parents or siblings may be beneficial for this purpose.

CONCLUSION

The present study demonstrates that income, migrant status, cause and frequency of seizures are all significant factors affecting the lives of children with epilepsy and their families as perceived by their mothers. There is a need to increase healthcare support to non-citizens and those with low income to improve their quality of life. Children with more frequent seizures may also require additional support.

ETHICS APPROVAL AND CONSENT TO PARTICIPATE

This study was approved by the Institutional Review Board (IRB) of King Abdul-Aziz University Hospital and the Research Ethics Committee of King Abdulaziz University in Jeddah.

HUMAN AND ANIMAL RIGHTS

No animals/humans were used for studies that are the basis for this research.

CONSENT FOR PUBLICATION

Signed informed consent was obtained from all subjects who participated in this study.

CONFLICT OF INTEREST

The authors declare no conflict of interest, financial or otherwise.

ACKNOWLEDGEMENTS

We would like to acknowledge the initial help of Khaled Taha Aletwady, Khaled Mohammed Jan, and Sara Abuznadah in this paper.

REFERENCES

1
Jan MM. Intractable childhood epilepsy and maternal fatigue. Can J Neurol Sci 2006; 33(3): 306-10.
2
Whatley AD, DiIorio CK, Yeager K. Examining the relationships of depressive symptoms, stigma, social support and regimen-specific support on quality of life in adult patients with epilepsy. Health Educ Res 2010; 25(4): 575-84.
3
Shakirullah S, Ali N, khan A, Nabi M. The Prevalence, incidence and etiology of epilepsy. Int J Clin Exp Neurol 2014; 2(2): 29-39.
4
Theodore WH, Spencer SS, Wiebe S, et al. Epilepsy in North America: A report prepared under the auspices of the global campaign against epilepsy, The International Bureau for Epilepsy, The International League Against Epilepsy, and The World Health Organization. Epilepsia 2006; 47(10): 1700-22.
5
Melcon MO, Kochen S, Vergara RH. Prevalence and clinical features of epilepsy in Argentina. A community-based study. Neuroepidemiology 2007; 28(1): 8-15.
6
Centers for Disease Control and Prevention (CDC). Epilepsy in adults and access to care: United States, 2010. MMWR Morb Mortal Wkly Rep 2012; 61(45): 909-13.
7
Tellez-Zenteno JF, Pondal-Sordo M, Matijevic S, Wiebe S. National and regional prevalence of self-reported epilepsy in Canada. Epilepsia 2004; 45(12): 1623-9.
8
Tekle-Haimanot R, Forsgren L, Abebe M, et al. Clinical and electroencephalographic characteristics of epilepsy in rural Ethiopia: A community-based study. Epilepsy Res 1990; 7(3): 230-9.
9
Purcell BaG, Athanasios and Sander, Ley and Majeed, A. Epilepsy prevalence and prescribing patterns in England and Wales. Health Stat Q 2002; 15: 23-30.
10
Forsgren L, Beghi E, Oun A, Sillanpää M. The epidemiology of epilepsy in Europe - A systematic review. Eur J Neurol 2005; 12(4): 245-53.
11
Blume WT, Lüders HO, Mizrahi E, Tassinari C, van Emde Boas W, Engel J Jr. Glossary of descriptive terminology for ictal semiology: Report of the ILAE task force on classification and terminology. Epilepsia 2001; 42(9): 1212-8.
12
Brown S, Betts T, Crawford P, Hall B, Shorvon S, Wallace S. Epilepsy needs revisited: A revised epilepsy needs document for the UK. Seizure 1998; 7(6): 435-46.
13
Forsgren L, Bucht G, Eriksson S, Bergmark L. Incidence and clinical characterization of unprovoked seizures in adults: A prospective population-based study. Epilepsia 1996; 37(3): 224-9.
14
Oka E, Ohtsuka Y, Yoshinaga H, Murakami N, Kobayashi K, Ogino T. Prevalence of childhood epilepsy and distribution of epileptic syndromes: A population-based survey in Okayama, Japan. Epilepsia 2006; 47(3): 626-30.
15
Diagana M, Preux PM, Tuillas M, Ould Hamady A, Druet-Cabanac M. Dépistage de l’épilepsie en zones tropicales: Validation d’un questionnaire en Mauritanie. Bull Soc Pathol Exot 2006; 99(2): 103-7.
16
De Boer HM. “Out of the shadows”: A global campaign against epilepsy. Epilepsia 2002; 43(Suppl. 6): 7-8.
17
Khedr EM, Shawky OA, Ahmed MA, et al. A community based epidemiological study of epilepsy in Assiut Governorate/Egypt. Epilepsy Res 2013; 103(2-3): 294-302.
18
Benamer HT, Grosset DG. A systematic review of the epidemiology of epilepsy in Arab countries. Epilepsia 2009; 50(10): 2301-4.
19
Nunes ML, Geib LT, Grupo A. Incidence of epilepsy and seizure disorders in childhood and association with social determinants: A birth cohort study. J Pediatr (Rio J) 2011; 87(1): 50-6.
20
Waaler PE, Blom BH, Skeidsvoll H, Mykletun A. Prevalence, classification, and severity of epilepsy in children in western Norway. Epilepsia 2000; 41(7): 802-10.
21
Fiest KM, Sauro KM, Wiebe S, et al. Prevalence and incidence of epilepsy: A systematic review and meta-analysis of international studies. Neurology 2017; 88(3): 296-303.
22
Ansari SA, Akhdar F. Prevalence of child disability in Saudi Arabia. Disabil Rehabil 1998; 20(1): 25-8.
23
de Weerd A, de Haas S, Otte A, et al. Subjective sleep disturbance in patients with partial epilepsy: A questionnaire-based study on prevalence and impact on quality of life. Epilepsia 2004; 45(11): 1397-404.
24
Yong L, Chengye J, Jiong Q. Factors affecting the quality of life in childhood epilepsy in China. Acta Neurol Scand 2006; 113(3): 167-73.
25
Karakis I, Cole AJ, Montouris GD, San Luciano M, Meador KJ, Piperidou C. Caregiver burden in epilepsy: Determinants and impact. Epilepsy Res Treat 2014; 2014: 808421.
26
Camfield C, Breau L, Camfield P. Impact of pediatric epilepsy on the family: A new scale for clinical and research use. Epilepsia 2001; 42(1): 104-12.
27
O’Dell C, Wheless JW, Cloyd J. The personal and financial impact of repetitive or prolonged seizures on the patient and family. J Child Neurol 2007; 22(5)(Suppl.): 61S-70S.
28
Al-Khateeb JM, Al-Khateeb AJ. Research on psychosocial aspects of epilepsy in Arab countries: A review of literature. Epilepsy Behav 2014; 31: 256-62.
29
Baker GA, Jacoby A, Gorry J, Doughty J, Ellina V, Group S. Quality of life of people with epilepsy in Iran, the Gulf, and Near East. Epilepsia 2005; 46(1): 132-40.
30
Rodenburg R, Meijer AM, Deković M, Aldenkamp AP. Family factors and psychopathology in children with epilepsy: A literature review. Epilepsy Behav 2005; 6(4): 488-503.
31
Shore CP, Austin JK, Huster GA, Dunn DW. Identifying risk factors for maternal depression in families of adolescents with epilepsy. J Spec Pediatr Nurs 2002; 7(2): 71-80.
32
Wood LJ, Sherman EM, Hamiwka LD, Blackman MA, Wirrell EC. Maternal depression: the cost of caring for a child with intractable epilepsy. Pediatr Neurol 2008; 39(6): 418-22.
33
Ferro MA, Speechley KN. Depressive symptoms among mothers of children with epilepsy: A review of prevalence, associated factors, and impact on children. Epilepsia 2009; 50(11): 2344-54.
34
Carta MG, Conti A, Lecca F, et al. The burden of depressive and bipolar disorders in celiac disease. Clin Pract Epidemiol Ment Health 2015; 11: 180-5.
35
Umemura T, Jacobvitz D, Messina S, Hazen N. Do toddlers prefer the primary caregiver or the parent with whom they feel more secure? The role of toddler emotion. Infant Behav Dev 2013; 36(1): 102-14.
36
Baki O, Erdogan A, Kantarci O, Akisik G, Kayaalp L, Yalcinkaya C. Anxiety and depression in children with epilepsy and their mothers. Epilepsy Behav 2004; 5(6): 958-64.
37
Lee MM, Lee TM, Ng PK, Hung AT, Au AM, Wong VC. Psychosocial well-being of carers of people with epilepsy in Hong Kong. Epilepsy Behav 2002; 3(2): 147-57.
38
Reilly C, Taft C, Nelander M, Malmgren K, Olsson I. Health-related quality of life and emotional well-being in parents of children with epilepsy referred for presurgical evaluation in Sweden. Epilepsy Behav 2015; 53: 10-4.
39
Ferro MA. Depressive symptoms in mothers of children with new-onset epilepsy: A prospective study. Electronic Thesis and Dissertation Repository 2011; 131.
40
Ferro MA, Avison WR, Campbell MK, Speechley KN. Prevalence and trajectories of depressive symptoms in mothers of children with newly diagnosed epilepsy. Epilepsia 2011; 52(2): 326-36.
41
Soltanifar A, Ashrafzadeh F, Mohareri F, Mokhber N. Depression and anxiety in iranian mothers of children with epilepsy 2011; 6(1): 6.
42
Ferro MA, Avison WR, Campbell MK, Speechley KN. The impact of maternal depressive symptoms on health-related quality of life in children with epilepsy: A prospective study of family environment as mediators and moderators. Epilepsia 2011; 52(2): 316-25.
43
Lovejoy MC, Graczyk PA, O’Hare E, Neuman G. Maternal depression and parenting behavior: A meta-analytic review. Clin Psychol Rev 2000; 20(5): 561-92.
44
Reynolds EH. The ILAE/IBE/WHO Global Campaign against Epilepsy: Bringing Epilepsy “Out of the Shadows”. Epilepsy Behav 2000; 1(4): S3-8.
45
Organization WH. Atlas: Epilepsy care in the world 2005; 91.
46
Camfield C, Breau L, Camfield P. Impact of pediatric epilepsy on the family: A new scale for clinical and research use. Epilepsia 2001; 42(1): 104-12.
47
Breau GM, Camfield CS, Camfield PR, Breau LM. Evaluation of the responsiveness of the impact of pediatric epilepsy scale. Epilepsy Behav 2008; 13(3): 454-7.
48
Lv RJ, Wu LW, Jin LR, Lu Q, Wang MY, Liu H. Reliability and validity of a chinese version of the impact of pediatric epilepsy scale. Epilepsy Behav 2009; 16(1): 150-5.
49
Garófalo Gómez N, Fernández Concepción O, Gómez García AM. Reliability and validity of a spanish version of the impact of pediatric epilepsy scale in a cuban population. Epilepsy Behav 2013; 29(2): 357-60.
50
Tanriverdi M, Mutluay FK, Tarakçi D, Güler S, Iscan A. The impact of epilepsy on preschool children and their families. Epilepsy Behav 2016; 62: 6-11.
51
Shinnar S, O’Dell C, Berg AT. Distribution of epilepsy syndromes in a cohort of children prospectively monitored from the time of their first unprovoked seizure. Epilepsia 1999; 40(10): 1378-83.
52
Subki AH, Alsallum MS, Alnefaie MN, et al. Erratum: Pediatric motor stereotypies: An updated review. J Pediatr Neurol 2017; 15(06): 338-40.
53
Datta SS, Premkumar TS, Fielding S, et al. Impact of pediatric epilepsy on Indian families: Influence of psychopathology and seizure related variables. Epilepsy Behav 2006; 9(1): 145-51.
54
Turky A, Beavis JM, Thapar AK, Kerr MP. Psychopathology in children and adolescents with epilepsy: An investigation of predictive variables. Epilepsy Behav 2008; 12(1): 136-44.
55
Sabaz M, Cairns DR, Lawson JA, Bleasel AF, Bye AM. The health-related quality of life of children with refractory epilepsy: A comparison of those with and without intellectual disability. Epilepsia 2001; 42(5): 621-8.
56
Lewis JN, Tonge BJ, Mowat DR, Einfeld SL, Siddons HM, Rees VW. Epilepsy and associated psychopathology in young people with intellectual disability. J Paediatr Child Health 2000; 36(2): 172-5.
57
Lv R, Wu L, Jin L, et al. Depression, anxiety and quality of life in parents of children with epilepsy. Acta Neurol Scand 2009; 120(5): 335-41.
58
Jones C, Reilly C. Parental anxiety in childhood epilepsy: A systematic review. Epilepsia 2016; 57(4): 529-37.
59
Picardi A, Gigantesco A, Tarolla E, et al. Parental burden and its correlates in families of children with autism spectrum disorder: A multicentre study with two comparison groups. Clin Pract Epidemiol Ment Health 2018; 14: 143-76.
60
Sareen J, Afifi TO, McMillan KA, Asmundson GJ. Relationship between household income and mental disorders: Findings from a population-based longitudinal study. Arch Gen Psychiatry 2011; 68(4): 419-27.
61
Li Y, Ji CY, Qin J, Zhang ZX. Parental anxiety and quality of life of epileptic children. Biomed Environ Sci 2008; 21(3): 228-32.
62
Echeverria SE, Carrasquillo O. The roles of citizenship status, acculturation, and health insurance in breast and cervical cancer screening among immigrant women. Med Care 2006; 44(8): 788-92.
63
Derose KP, Bahney BW, Lurie N, Escarce JJ. Review: Immigrants and health care access, quality, and cost. Med Care Res Rev 2009; 66(4): 355-408.
64
Choi-Kwon S, Chung C, Kim H, et al. Factors affecting the quality of life in patients with epilepsy in Seoul, South Korea. Acta Neurol Scand 2003; 108(6): 428-34.
65
Jacoby A, Baker GA, Steen N, Potts P, Chadwick DW. The clinical course of epilepsy and its psychosocial correlates: Findings from a U.K. community study. Epilepsia 1996; 37(2): 148-61.
66
Baker GA, Nashef L, van Hout BA. Current issues in the management of epilepsy: The impact of frequent seizures on cost of illness, quality of life, and mortality. Epilepsia 1997; 38(Suppl. 1): S1-8.