A Latent Profile Analysis of Problematic Media Device Use and Its Association With Executive Function and Behavioral Problem Among Children: A Population-Based Study
Article information
Abstract
Objective
Despite the rapid increase in problematic media device use, relatively little is known about specific characteristics and extent of problematic media device and how they relate to different psychological features.
Methods
Data extracted from the Panel Korea Study for the Child Cohort Study were used. At the age of 9 years, media device addiction severity was assessed using the K-scale, and children’s behavioral outcomes were assessed using the Child Behavior Checklist. Among children with problematic media device use (n=339), we performed latent profile analysis using the K-scale to identify subtypes of problematic media device use, and then compared the child behavioral problems and executive function according to the different subtypes of problematic media device use.
Results
Children with problematic media device use were divided into class 1 (n=51), class 2 (n=138), and class 3 (n=150). Compared with classes 2 and 3, class 1 had more severe problematic media device use, including daily activity disturbance, withdrawal, and tolerance. Class 1 had the most serious behavioral problems and executive function difficulties among classes. Class 2 had greater daily activity disturbance and tolerance than those of class 3, but executive function showed no significant difference between the two classes. In logistic regression analysis, behavioral problems except for somatization were more common in class 1 than in the control group.
Conclusion
Results suggest that problematic media device use is associated with significant behavioral problem and executive function difficulties and underscore the need for further clinical and research attention for these specific subgroup members.
INTRODUCTION
Due to the rapid growth of information technology and mobile communication, personal computers and smartphones have become very popular among children and adolescents [1]. The purpose of media use has also been diversified to include information seeking, communication, education, and entertainment, and the use of media devices has become indispensable to children and adolescents [2]. Despite the various benefits of using media devices, their excessive use has become a growing concern in modern society [3,4].
Researchers have demonstrated that excessive media device use has a negative influence on children’s physical and psychological health and academic achievement [5-7]. Previous studies on children and adolescents demonstrating negative concerns about media device use have focused on psychopathology and found that impulsivity, inattention, hyperactivity, anxiety, and depression are positively related to media device addiction [8-10]. However, little is known about problematic media device use in younger children, but not in older children.
Internet gaming disorder (IGD) is registered as a research category in DSM 5 and has received considerable clinical attention [11]. IGD has been reported to be associated with aggressive behavior, impulsivity, sleep problem, anxiety, inattention, and hyperactivity [12,13]. Similarly, it has been reported that the problematic behavior similar to that in IGD is observed in Internet and smartphone addiction [14,15]. However, since the Internet and smartphones are used for various purposes, it is difficult to conclude that excessive internet/smartphone use causes the same outcomes. Media device usage patterns are heterogeneous; therefore, it is difficult to specify certain patterns and define pathological use. Thus, in order to determine the definition and extent of media device addiction and identify related problematic behaviors, further study considering the heterogeneity of excessive media device use is necessary.
Latent profile analysis (LPA) is a statistical approach used to identify subtypes of problematic media device use [16]. Rather than the classical statistical method, LPA may be a helpful method for revealing latent and homogeneous populations and profiles of meaningful groups [17]. LPA has been applied in previous studies to find appropriate classifications of IGD, smartphone addiction, and Internet addiction [18,19]. But, most previous studies were classified based on the purpose of media device use (education, entertainment, information seeking) or the type of device (smartphone, personal computer, television), or classified according to the quantitative use time [20-22]. In addition, the subjects of previous studies were limited to adolescent and adult populations [19,22]. However, since media device addiction is based on core symptoms characteristic of behavioral addiction rather than the quantitative aspect of media device use, it is more appropriate to classify it according to symptoms of media device addiction severity. In particular, it is necessary to determine whether these behavioral addiction patterns are also present in children with problematic media device use.
Therefore, this study aimed to identify the subtypes of children with problematic media device use and compare behavioral problems and executive function according to the identified subtypes.
METHODS
Participants
This study used data from the 10th year of the Panel Study on Korean Children (PSKC), an annual follow-up survey of 2,150 newborn babies born in 2008. The detailed methodology of the PSKC study has been described elsewhere [23]. To represent Korean newborn infants in 2008, the PSKC sample was recruited through stratified multi-stage sampling based on the 2008 resident registration population data. The study protocol was approved by the Institutional Review Board of the National Center for Mental Health (IRB No. 116271-2020-41).
We had complete data on media device addiction severity, behavioral problems, and executive function as evaluated in 9-year-old children using the Korean internet addiction scale, Child Behavior Checklist (CBCL 6-18), and executive function difficulty questionnaire scale (EFDSC). The 1,484 households that participated in the 10th year survey conducted in 2017 showed a panel retention rate of 69% among the original 2,150 households. In this study, the Internet addiction risk group consisted of 339 elementary school 3rd grade children with a media device addiction score of ≥28, comprising 211 boys (62.24%) and 128 girls (37.76%).
Measures
Korea Internet Addiction Scale
Children’s addiction severity to media devices was measured using the K-scale (Korea Internet Addiction Scale) provided by the Korea Information Society Agency as a modified tool in the Korean Children’s Panel Study [24,25]. This scale consists of three factors: daily life disturbance, withdrawal, and tolerance, and was measured according to parental reports. Daily life disturbance measures the degree of difficulty in everyday life, such as school life or interpersonal relations, due to the use of media devices, and consists of a total of five items. Withdrawal measures the degree of irritation or annoyance when a media device is not available and consists of a total of four items. Tolerance consists of a total of four items, measuring the degree to which more stimulating content is added or more immersed in to obtain greater satisfaction. The child’s parents responded using a 4-point Likert scale (1=not at all, 4=very much so). As a result of the reliability analysis, Cronbach’s alpha was 0.885 for elementary school students and 0.899 for middle school students and above. In addition, based on the total score, those with ≥30 points were defined as high-risk users, 28–29 points as potential risk users, and ≤27 points general users [26]. Based on the responses, the level of addiction was divided into a general user group (control) and risk group (problematic media device user group, K-scale≥28) according to the specific criteria of the overall score.
Child Behavior Checklist (CBCL 6–18)
To assess children’s problem behaviors, the CBCL 6–18 was used [27]. The Korean CBCL 6–18 scale, as standardized by Oh et al. [28], was applied in this study. The Cronbach’s alpha for internal consistency for this scale ranged 0.62–0.95. Internalizing problems include anxious/depressed, withdrawn/depressed, and somatization. Externalizing problems include rule-breaking and aggressive behaviors. For each question, the parents of the child responded with a score on a 3-point Likert scale (1=not at all, 3=often), with higher scores reflecting a higher degree of the problem behavior related to each area.
Executive function difficulty screening questionnaire
Children’s executive function was evaluated using the executive function difficulty screening questionnaire developed by Song [29]. This scale was composed of 40 questions, with four factors: 11 items concerning difficulty to plan/organize, 11 items related to difficulty to control behavior, 8 items related to difficulty to control emotions, and 10 items related to inattention. For each question, the caretaker of the child responded using a 3-point Likert scale (1=not at all, 3=often), with higher scores reflecting a higher level of difficulty with respect to executive function. Cronbach’s α for each sub-factor was 0.88, 0.86, 0.92, and 0.92, respectively, and the overall reliability was 0.95.
Statistical analysis
In this study, a latent profile analysis (LPA) was conducted to identify potential groups according to the level of the child’s media device addiction. To determine the optimal model selection, the Akaike information criterion (AIC), Bayesian information criterion (BIC), sample-size adjusted BIC (aBIC), entropy, Vuong-Lo-Mendell-Rubin likelihood ratio test, and bootstrapped likelihood ratio test (BLRT) verification and composition ratio distribution using potential profiles were comprehensively considered. Second, to examine if there was a difference between problem behavior and executive function according to the class of media device addiction identified in the potential profile analysis, a one-way analysis of variance was performed. To explore the association between different classes of problematic media device user and behavioral problems, logistic regression was performed with 65 or more cutoff points for each CBCL subscale as dependent variables and sex and maternal education as covariates. In further analysis, suicidal thoughts were assessed using CBCL item 91, “Talks about killing self,” and suicidal behavior was assessed using CBCL item 18, “Deliberately harms self or attempts suicide.” Analyses were performed using SPSS (version 21.0; IBM Corp., Armonk, NY, USA) and M plus version 7.0 (Muthén & Muthén, Los Angeles, CA). Statistical significance was defined as a p-value of <0.05.
RESULTS
Determining the number of classes
Latent profile analysis was conducted to determine the number of classes of problematic media device user group, and the results are shown in Table 1. To determine the optimal model, this study examined the changes in model fitness by sequentially increasing the number of hierarchies from two latent hierarchical models. The AIC and aBIC values of each latent layer model decreased until the number of latent profiles was six, and the entropy was higher than 0.80 [17]. In addition, if the BLRT and VLMR-LRT are significant, it means that the k group is superior to the k-1 group in terms of fitness [30]. Of the six models, two, three, and four latent models were found to be statistically significant. In addition, two to four models were found to be satisfactory for the condition that can be compared by class when the proportion of the classified subgroups in the entire sample is at least 5% [16]. Therefore, in this study, three class models were finally selected considering the information criteria, entropy value, statistical significance test, ratio of cases, conceptual explanation of class, and actual application points.
Demographic characteristics of problematic media device user
Out of a total of 1,389, 339 children had an Internet addiction scale score of 28 or higher, comprising 211 boys (62.24%) and 128 girls (37.76%). Table 2 shows the results of comparing the demographic characteristics of a total of four groups (three identified classes of problematic media device users and a control group). In the control group, there were 491 boys (46.76%), whereas boys accounted for more than 60% of each of the three classes of problematic media device users, indicating that there was a statistically significant difference in sex distribution between the groups (p<0.001).
There was no significant difference between the four groups in terms of parental age. Maternal education level showed a significant difference between the groups (p<0.001). In the control group, high school graduate or lower accounted for only approximately 23.90% of mothers, whereas in classes 1, 2, and 3, it accounted for 47.06%, 36.96%, and 32.67% of mothers, respectively. There was no significant difference between groups in terms of paternal education level or household income.
Characteristics of classes of problematic media device user
Statistically significant differences were found in all media device addiction severity according to the class of problematic media device user, and the results of addiction severity comparison are shown in Table 3. Class 1 accounted for the lowest proportion (15.04%) of high-risk media device users among the three classes and had higher scores in areas of daily activity disturbance, withdrawal, and tolerance than the other two classes. Second, class 2 accounted for 40.71% of high-risk media device users, and the scores of daily activity disturbance and tolerance were lower than those of class 1 and higher than the scores of class 3. In terms of withdrawal, there was a significant difference compared to that in class 1, but there was no significant difference compared to that in class 3. Lastly, class 3 accounted for 44.25% of high-risk media device users, and the scores in the areas of daily activity disturbance, tolerance, and total severity were the lowest among the three classes. In a post-hoc test, there was no significant difference in the withdrawal score compared to that in class 2. Overall, compared to the control group, all classes had significantly higher media device addiction severity on all scales.
Differences in executive function difficulty according to class of problematic media device user
According to the class of problematic media device user, statistically significant differences were found in all four subscales of difficulty in execution function, and the analysis results are shown in Table 4. Class 1 had higher scores in the areas of planning-organization difficulty, behavior control difficulty, emotional control difficulty, and inattention than those of the other classes. As a result of the post-test, class 1 had significantly higher scores for executive function difficulties than those in classes 2 and 3. Class 2 had lower scores on the executive function difficulties subscale compared to those in classes 1 and 3. The scores of class 3 for each subscale were lower than those of class 1 and higher than those of class 2. The post hoc test showed no significant difference between classes 2 and 3. Overall, compared to the control group, all classes had significantly more severe executive function difficulties according to all subscales.
Child behavioral problems according to class of problematic media device user
Behavioral problems were among 339 problematic media device user compared based on the class of problematic media device user (Table 5). There were significant statistical differences between the three classes in all subscales of the CBCL except for the anxious/depressed, somatization, and thought problems subscales. Class 1 reported had the most severe total, externalizing, withdrawn/depressed, immature, attention, rule-breaking, and aggressive behavior problems among the three classes. For all subscales of the CBCL, there were no significant differences between classes 2 and 3. Overall, compared to the control group, all classes had significantly more severe behavioral problems based on the total, externalizing, withdrawn/depressed, and rule-breaking subscales.
Associations between classes of problematic media device user and CBCL subscales
In logistic regression analysis, total, internalizing, anxious/depressed, and immature problems were more frequent in class 1 than in the control group (Table 6). Externalizing, rule-breaking, aggressive behavior, and thought problems were more frequent in class 1 and class 3 than in the control group. Withdrawn/depressed and attention problems were more frequent in class 1 and in class 2 than in the control group. In a further analysis to investigate the association between suicidal behavior and classes of problematic media device use, class 1 more frequently had suicidal ideation (p=0.007, adjusted odds ratio [OR]: 3.29, 95% confidence interval [CI]: 1.38–7.81) than the control group, and suicidal behavior was more frequent in class 1 (p<0.001, adjusted OR: 3.20, 95% CI: 1.72–5.94), class 2 (p=0.011, adjusted OR: 1.61, 95% CI: 1.11–2.32), and class 3 (p=0.003, adjusted OR: 1.71, 95% CI: 1.20–2.44) than in the control group.
DISCUSSION
In this study, three classes were identified in children with problematic media device use. Class 1 had significantly more severe daily activity disturbance, tolerance, and withdrawal than other classes. Behavioral problems and executive function difficulties were most severe in class 1. Classes 2 and 3 had less severe media device addiction scores than class 1, and executive function difficulties and behavioral problems were also significantly less severe than those in class 1.
Class 1 accounted for 51 out of 1,484 (3.44%), which is similar to the Internet addiction prevalence rate of 5% reported in previous studies [31,32]. In our study, class 1 children had significantly more severe externalizing problems, including aggressive behavior and rule-breaking behavior, than those of other classes. Although types of media device usage (e.g., social media service, video watching, education, and entertainment) and content were not investigated, we confirmed an association between problematic media device use and externalizing problems. This is consistent with the finding that aggressive behaviors in children with smartphone overuse are associated with usage time [33]. In a recently published prospective study, hostility worsened during Internet addiction among adolescents [34]. In particular, one study reported that reducing media is effective in decreasing aggressive behavior in elementary school-aged children [35]. Therefore, it is necessary to provide appropriate parental guidance regarding children’s media device usage.
Previous studies have reported high levels of anxiety, depression, and social withdrawal in adolescents with Internet addiction [36-38]. In our study, it was confirmed that the internalizing problem increased as the symptom severity of problematic media device use in children increased, which is consistent with the results of longitudinal studies of adolescents with Internet addiction [39]. In class 1, suicidal ideation was significantly more frequent than in the control group, and suicidal behavior was significantly more frequent in all classes compared than in the control group. A growing body of evidence suggests that Internet addiction is associated with increased suicidality [40,41]. It has been reported that among individuals with Internet addiction, adolescents under the age of 18 have more frequent suicidal ideation than adults [42]. A recent large-scale study also provided evidence that adolescents with Internet addiction more frequently had non-suicidal self-injury [43]. Although the peak onset of non-suicidal self-injury occurs after 13 years of age, our study confirmed the association between suicidal behavior and problematic media device use in prepubertal children [44].
In our study, a high level of executive function difficulty was demonstrated in the highest problematic media device use class, which corroborates previous studies [45,46]. Compared to class 1, class 2 and class 3, which were the subgroups with less severe media device addiction, also showed significant difficulties in executive function relative to the control group. Studies on Internet addiction and neurocognitive characteristics suggest that Internet addiction persists due to the loss of behavioral inhibitory control, disadvantageous decision making against predicted negative outcomes, and decreased mental flexibility related to changes in the activation of specific brain regions [47-49]. However, since the results of this study cannot identify the causal relationship between the impairment of executive function and media device addiction, a prospective study on this should be performed.
Regarding the addiction scale, class 2 had a higher score for daily life disturbance and tolerance than those of class 3, but there was no significant difference between classes 2 and 3 with respect to the withdrawal subscale. Classes 2 and 3 had no significant differences in executive function difficulties despite the difference in addiction scale. In class 2, suicidal behavior, withdrawn/depressed, and attention problems were significantly more common than in the control group, and in class 3, rule-breaking, aggressive behavior, thought, and externalizing problems were more common than in the control group. In sum, class 2 is characterized by depressive symptoms and attention problems, and class 3 can be characterized by externalizing problems as the main manifestation. Although media device addiction severity was lower in class 3 than in class 2, externalizing problems were higher than in class 2. A possible explanation for this is that although there was no statistically significant difference between class 2 and class 3, it may reflect the greater executive function difficulties of class 3. Therefore, children with problematic media device use may have behavioral problems according to the severity of addiction, and even in children with mild media device addiction levels, careful screening of aggressive behaviors may be clinically useful.
Among children with media device addiction, children in classes 1 or 2 (n=189, 55.75%) were more likely to be included in the clinical risk group for CBCL attention problems (cutoff ≥65 T score) than those in the control group. In a previous study, ADHD was reported to be a common comorbidity in Internet addiction [50]. A possible explanation for this finding is that because of the “easy to bore” and “aversion to delayed reward” features of ADHD, it would be easy to abuse the Internet, which gives an immediate and interesting response [51]. Conversely, problematic media device use may have contributed to attentional problems [52].
This study had several limitations. First, as this study was a cross-sectional design study, the causal relationship between variables could not be confirmed. Second, no information was collected on the quantitative use of the media device, purpose of use, type of use, or environment of use.
In conclusion, we confirmed three subtypes of children with problematic media device use. Behavioral problems and executive function difficulties were most severe in the subtype with the highest media device addiction severity. Also, even in children with mild media device addition, significant levels of externalizing behavior were observed. Problematic media device use is highly correlated with mental illness in children and adolescents, and careful screening and clinical attention are required in the children with problematic media device use. Future research should determine whether the contents of media device use and parental supervision can reduce the burden of mental health conditions.
Notes
Availability of Data and Material
The datasets generated or analyzed during the study are available from the corresponding author on reasonable request.
The authors have no potential conflicts of interest to disclose.
Author Contributions
Conceptualization: Yunhye Oh, Yoo-Sook Joung. Data curation: Yunhye Oh. Formal analysis: Yunhye Oh, Youngmi Kim. Investigation: all authors. Supervision: Yoo-Sook Joung. Writing—original draft: Yunhye Oh, Yoo-Sook Joung. Writing—review & editing: all authors.
Funding Statement
None.
Acknowledgements
On behalf of all authors, the corresponding author states that there are no conflicts of interest. The findings and conclusions of this study are those of the authors and do not necessarily represent the views of the funding agency. The authors declare no competing financial interests. The results of the present study do not constitute endorsement by “Psychiatry Investigation.