Brain Anatomy Alterations and Mental Health Challenges Correlate to Email Addiction Tendency

Despite the widespread use of email, our knowledge regarding the consequences of email addiction is lacking. The purpose of this study was to develop an email addiction tendency scale to evaluate its correlation to behavior and brain structure. Following this, the validity and reliability of the developed scale was investigated. We used voxel-based morphometry, correlation, and univariate regression analysis to assess the relationships between email addiction tendency scores and regional gray and white matter volumes, depression, and nonverbal reasoning abilities in a large sample of healthy young adults (n = 1152; mean age, 20.69 ± 1.84 years). The content validity ratio, content validity index, principal component analysis, and confirmatory factorial analysis all showed that the email addiction tendency scale (EATS) has high validity. Additionally, the Cronbach’s alpha internal consistency and split-half reliability coefficient showed that the EATS has high reliability. We found that email addiction tendency scores were significantly negatively correlated with nonverbal reasoning. We also observed that the email addiction tendency scores were significantly and positively correlated with depression symptom severity and gray matter volume of the left rostrolateral prefrontal cortex (RLPC) in subjects. These results indicate that email addiction tendency is associated with lower mental health outcomes and increased GMV in the left RLPC.


Introduction
In recent years, access to digital devices has increased dramatically. Indeed, it is estimated that there will be approximately 3.01 billion smartphone users worldwide by 2021 [1]. Most internet users use social media applications several times a day, and can do so anytime and anywhere [2]. One of the most popular functions used on digital devices is online-communication applications.
The last report showed that 58.4% of the worldwide population uses social media every day and spends about 2 h and 27 min on it [3]. Accumulating evidence shows that the repeated use of social media can lead to habitual usage and impulsive responses to social media cues, as well as behavioral dependence [4,5]. To define dependence in terms of substance abuse, the Diagnostic and Statistical Manual of Mental Disorders (DSM 5) uses two concepts: behavioral and physiological [6]. In behavioral dependence, substance-seeking behavior and pathological use patterns are emphasized, while physical dependence refers to the physical effects of repeated episodes of substance abuse. Tolerance or withdrawal are associated with definitions that emphasize physical dependence, and the term addiction is nearly the same concept as physical dependence.
So, behavioral addiction to technology, such as email addiction and mobile phone addiction, can be defined as excessive use and intermittent cravings [7]. As defined by LaRose, Mastro [8] and Thadani and Cheung [9], dependence on social networks is the inability to control the way one uses the tool, which may negatively affect one's personal, family, and professional lives. Social media addiction is the compulsive use of social networking sites and apps, which manifests as symptoms of behavioral dependence [10,11].
Previous studies have shown that excessive use of social networks is associated with mental health problems in users [12][13][14]. For example, Donnelly and Kuss [15] showed that social network addiction is related to depression in young adults. Similarly, McDougall, Walsh [16] revealed that daily use of social networking is significantly correlated with depression. Overall, a systematic review with meta-analysis studies demonstrated that social network dependence is associated with psychiatric disorders and symptoms such as poor sleep quality, anxiety, stress, depression, and attention-deficit/hyperactivity disorder [17][18][19]. Moreover, within the last decade, several studies have been conducted that characterize the impacts of social network system addiction on users' cognitive functions. These studies reported that several key cognitive domains, such as information processing, executive control, reward processing, and socio-cognitive functions, have been affected by internet-related technologies [20]. Additional studies have shown that substance and alcohol abuse are associated with impaired cognitive abilities (e.g., speed processing, abstract reasoning, planning, inhibition, working and long-term memory, sustained attention, and cognitive flexibility [21][22][23][24][25]). However, the relationships between email addiction and users' mental health and cognitive abilities have not been thoroughly studied.
The neural correlates of internet addiction have been studied much more than the neural correlates of social networks addiction. In studies using magnetic resonance imaging (MRI), internet addiction scores significantly correlate with GMVs in the right-middle frontal gyrus, supplementary motor area (SMA), anterior cingulate cortex (ACC), left rostral anterior cingulate cortex (rACC), orbitofrontal cortex (OFC), bilateral dorsolateral prefrontal cortex (DLPFC), cerebellum, right supramarginal gyrus, and the post-central gyrus (postCG) [26][27][28][29]. There have been few studies examining the effects of social networking on brain anatomy. He and Turel [30] found that social network site dependence scores are negatively correlated with gray matter volume (GMV) in the bilateral amygdala. Meanwhile, the same scores are positively correlated with GMV in the anterior/midcingulate cortex. The ACC and amygdala are thought to be key neural substrates for social information processing and emotional responses [31,32]. In another study, a research team showed that the GMVs of the posterior parts of the bilateral middle, superior temporal, and left fusiform gyri are positively associated with the level of Facebook use [33]. The superior temporal cortex and fusiform gyrus are thought to be involved in the ability to recognize faces and visual analysis of social information [34,35]. The brain structures linked to email dependence have not been studied to the best of our knowledge.
Also, while internet addiction has been extensively examined over the years [36][37][38][39], very few studies have developed or validated tools to measure and confirm the reality of social media addiction [40]. Specifically, significant research into email and its impact on our lives is lacking. Nowadays, checking the email is an inevitable part of our daily activities. Renaud and Ramsay [41] reported that some individuals check their email inbox 30 to 40 times an hour. However, no reliable tool exists for measuring the tendency for email addiction. Therefore, the first aim of this study was to develop a highly valid and reliable email addiction tendency scale (EATS). The second objective was to identify the relationships between email addiction tendency and behavioral outcomes and brain structures.
On the basis of the previous studies, we hypothesized that higher EATS scores may be associated with structural alterations in the frontal and temporal areas known to contribute to dependence vulnerability [29,[42][43][44][45]. Furthermore, we hypothesized that email addiction tendency is significantly positively correlated with the severity of depression symptoms and significantly negatively correlated with nonverbal reasoning abilities.

Participants and Procedures
The subjects of this study were 1152 healthy right-handed young adults (666 males, mean age 20.79 years, SD = 1.89 years and 486 females, mean age 20.60 years, SD = 1.61 years). This study is part of an ongoing project to investigate the associations among brain imaging characteristics, cognitive functions, aging, genetics, and daily habits. All subjects were students from the Tohoku University or neighboring universities and colleges in Japan. All had normal vision, and none had a history of neurological or psychiatric illness. None reported the currently using psychoactive or other drugs that could negatively impact cognitive ability. As part of our laboratory's routine questionnaire, each subject was asked about their current or previous experiences with any of the listed diseases and drugs that they had recently taken, as well as their history of psychiatric and neurological diseases and/or recent drug use. In addition, the questionnaire required personal contact information, their age, their birthday, their institutes, and their weight, height, and sex. We used the Edinburgh Handedness Inventory to evaluate handedness in subjects [46]. A number of previous studies have demonstrated significant differences between righthanders and lefthanders in terms of brain morphology and activity patterns [47][48][49][50][51]. In this context, left-handed individuals tend to be excluded from fMRI studies. The Ethics Committee of the Tohoku University approved all procedures. These were performed in accordance with relevant guidelines and regulations. Written, informed consent was obtained from each subject for all projects in which they participated. Descriptions for this subsection are adapted from a previous study that used similar methods [52].
For scale construction and validation, we developed the email addiction tendency scale. The content domain of the construct that the scale is designed to measure was identified by literature review on internet-related technology addiction tools. We developed the EATS based on the Young's internet addiction tendence (IAT) scale [39]. Furthermore, an expert panel evaluated the validity of the scale. The determination of the number of experts has always been partly arbitrary. A minimum of five people is recommended to have sufficient control over chance agreement [53]. Our expert panel consisted of professionals with research experience or work in the field and had doctorate degrees in psychology.

EATS
To assess email addiction tendency, we developed the EATS. The EATS tool consists of 20 questions answered on a 1-5 scale from 1 = "Never" to 5 = "always." The scale is self-administered and requires 5-10 min for completion. The EATS scale minimum and maximum scores are 20 and 100, respectively. Higher scores reflect a greater tendency toward email addiction. We calculated and reported the psychometric properties of the EATS in this study.

Internet Addiction Tendency (IAT)
The IAT tool [39] consists of 20 items, with answers ranging from 1 = "rarely" to 5 = "always". The scale is self-administered and takes 5 to 10 min to complete. IAT measures the impact of internet use on daily life, social life, productivity, sleep patterns, and people's feelings. The minimum and maximum values on the IAT scale are 20 and 100, respectively. The higher the value, the greater the tendency for internet addiction. The Japanese version of this scale has demonstrated high reliability and validity [54]. We used the Japanese version of Young's IAT scale to assess the EATS's convergent validity.

Raven's Advanced Progressive Matrices
Raven's advanced progressive matrices were used to measure the general nonverbal intelligence and abstract reasoning ability of the participants [55]. Raven's advanced progressive matrices are constructed for those with a higher level of intelligence, such as students pursuing advanced scientific or technical studies. The reliability and validity of this tool has been demonstrated across a range of populations [56].

Beck Depression Inventory-Second Version (BDI-II)
The BDI-II was used to assess the severity of depression symptoms in participants [57]. The reliability and validity of the BDI-II has been demonstrated across a range of populations, including college students [58].

Statistical Analysis
The psychometric properties of the EATS were analyzed. We calculated the index of content validity (CVI) and the content validity ratio (CVR) to assess content validity [60]. We used the following two kinds of CVI: Item-CVI (I-CVI) and Scale-level CVI (S-CVI).
Additionally, principal component analysis (PCA) and confirmatory factorial analysis (CFA) were used to assess scale construct validity. Furthermore, the Cronbach's alpha, splithalf reliability coefficient, and item-total correlation were determined to assess reliability.
Quality control of the MRI images has been conducted by visual inspection and images with artifacts had been removed from the images. Preprocessing of the neuroimaging data was performed using Statistical Parametric Mapping software (SPM12; Wellcome Department of Cognitive Neurology, London, UK) and implemented in MATLAB (Mathworks, Inc., Natick, MA, USA). For analysis, T1-weighted structural images of each individual were segmented using the new segmentation algorithm implemented in SPM12. These were further normalized to the Montreal Neurological Institute (MNI) space-to-yield images with 1.5 × 1.5 × 1.5 mm 3 voxels, using diffeomorphic anatomical registration through an exponentiated lie algebra registration process implemented in SPM12. We also performed a volume change correction (modulation) [61]. Subsequently, the generated regional GMV (rGMV) and white matter volume (rWMV) images were smoothed by convolution using an isotropic Gaussian kernel of 8-mm full width at half maximum. These procedures were adapted from our previous study using similar methods. For full descriptions of these procedures, see our previous work [52].
Statistical analyses of imaging data were performed with SPM8. Structural wholebrain regression analyses were performed to investigate any associations between email dependence scores and rGMV and rWMV. Age, sex, and total intracranial volume, calculated using voxel-based morphometry (for details of calculation see [62]), were added as covariates. Multiple comparison correction was performed using threshold-free cluster enhancement (TFCE) [63] with randomized (5000 permutations) nonparametric testing, using the TFCE toolbox (http://dbm.neuro.uni-jena.de/tfce/ accessed on 15 August 2019). We applied a threshold of family-wise error correction at p < 0.05. SPM8 was used for this analysis because of its better compatibility with TFCE software and our in-house scripts [64].

Results
The characteristics of the psychological variables of participants are presented in Table 1.

Validity Content Validity
All items with an I-CVI of 1.00, S-CVI/UA = 1, and S-CVI/Ave = 1 were considered relevant. The UA is calculated by adding all I-CVI values equal to 1.00 (20 items) divided by 20, while the average takes the sum of all I-CVI values (20) divided by 20. Overall, the UA and the Average demonstrate high content validity for the EATS.
Furthermore, the CVR was generated for each item. Items that were marked essential had a CVR of >0.99 (this value is based on the total number of experts, N = 5, and the numerical values of the Lawshe table) [65]. Useful but not essential items can be eliminated. However, in this case, they were modified (items: 2, 4, 10, and 11). The average CVR value was 0.83.

Construct Validity
PCA was used to assess the construct validity of the EATS [66]. The Kaiser-Meyer-Olkin assessment of sampling adequacy of the 20 items was 0.945, which is well above the Brain Sci. 2022, 12, 1278 6 of 14 commonly acceptable limit of 0.600. Bartlett's test of sphericity that evaluates the appropriateness of factoring also indicated that the identity matrix was significant (χ 2 : 11,380.66, df = 190, p < 0.0001). The Scree plot results proposed a one-factor solution. From the original 20-item set, no items were removed because the factor loading of the items was higher than 0.30 and all items fit well into the factor (Figure 1). numerical values of the Lawshe table) [65]. Useful but not essential items can be eliminated. However, in this case, they were modified (items: 2, 4, 10, and 11). The average CVR value was 0.83.

Construct Validity
PCA was used to assess the construct validity of the EATS [66]. The Kaiser-Meyer-Olkin assessment of sampling adequacy of the 20 items was 0.945, which is well above the commonly acceptable limit of 0.600. Bartlett's test of sphericity that evaluates the appropriateness of factoring also indicated that the identity matrix was significant (χ 2 : 11,380.66, df = 190, p < 0.0001). The Scree plot results proposed a one-factor solution. From the original 20-item set, no items were removed because the factor loading of the items was higher than 0.30 and all items fit well into the factor (Figure 1).  Table 2.  All of the 20 items loaded on the main factor and the main factor of the final solution cumulatively accounted for 42.151% of the variance. The results of the PCA are shown in Table 2. In the next step, a CFA was used to recognize the EATS's factor structure that was confirmed in the EFA. The goodness of fit model indices were calculated as follows: comparative fit index = 0.94, normed fit index = 0.93, goodness of fit index = 0.80, relative fit index = 0.93, and incremental fit index = 0.94. According to these indices, the construct is considered acceptable [67,68]. Furthermore, the CFA results in our current approach showed that the model is coherent. As presented in Figure 2, all items loaded on the factor are statistically significant (p < 0.05).

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Have you ever tried shortening your email time and failed? 0.676 18 Do you want to hide from people how long you have been emailing? 0.645 19 Have you ever opted to spend more time exchanging emails instead of going out with others? 0.626 20 If you don't have a new email, you will feel depressed, in a bad mood, and frustrated, but have you ever experienced that you can get rid of it immediately by emailing? 0.602

Percentage of total variance explained 42.15
In the next step, a CFA was used to recognize the EATS's factor structure that was confirmed in the EFA. The goodness of fit model indices were calculated as follows: comparative fit index = 0.94, normed fit index = 0.93, goodness of fit index = 0.80, relative fit index = 0.93, and incremental fit index = 0.94. According to these indices, the construct is considered acceptable [67,68]. Furthermore, the CFA results in our current approach showed that the model is coherent. As presented in Figure 2, all items loaded on the factor are statistically significant (p < 0.05).

Reliability
The internal reliability of the scale was calculated using Cronbach's alpha, split-half reliability coefficient, and item-total correlation. The Cronbach's alpha internal consistency score and split-half reliability coefficient of the scale were 0.916 and 0.843, respectively. The item-total correlation coefficients ranged from 0.52 to 0.75 for the 20 items. All correlation coefficients were positive, as well as statistically significant.

Behavioral Results
Univariate regression analyses were employed to assess the relationship between email addiction tendency, nonverbal reasoning, and depression in subjects. The results

Reliability
The internal reliability of the scale was calculated using Cronbach's alpha, split-half reliability coefficient, and item-total correlation. The Cronbach's alpha internal consistency score and split-half reliability coefficient of the scale were 0.916 and 0.843, respectively. The item-total correlation coefficients ranged from 0.52 to 0.75 for the 20 items. All correlation coefficients were positive, as well as statistically significant.

Behavioral Results
Univariate regression analyses were employed to assess the relationship between email addiction tendency, nonverbal reasoning, and depression in subjects. The results revealed that email addiction tendency was significantly negatively correlated with nonverbal reasoning (Figure 3. r = −0.14, p < 0.01). Email addiction tendency was also significantly positively correlated with depression symptom severity (Figure 4. r = 0.12, p < 0.01) and internet addiction tendencies (r = 0.30, p < 0.01) in subjects. Regression analyses showed that for each unit of increase in the EATS scores, the nonverbal reasoning decreased by 0.019 (t = −3.89, p < 0.0001), and depression severity increased by 0.015 (t = 3.22, p < 0.001). revealed that email addiction tendency was significantly negatively correlated with nonverbal reasoning (Figure 3. r = −0.14, p < 0.01). Email addiction tendency was also significantly positively correlated with depression symptom severity (Figure 4. r = 0.12, p < 0.01) and internet addiction tendencies (r = 0.30, p < 0.01) in subjects. Regression analyses showed that for each unit of increase in the EATS scores, the nonverbal reasoning decreased by 0.019 (t = −3.89, p < 0.0001), and depression severity increased by 0.015 (t = 3.22, p < 0.001).

Neuroimaging Results
Voxel-based morphometry analysis revealed a significant positive correlation between the GMV of the left rostrolateral prefrontal cortex (RLPC) and email addiction tendency scores (Table 3 and Figure 5).

Neuroimaging Results
Voxel-based morphometry analysis revealed a significant positive correlation between the GMV of the left rostrolateral prefrontal cortex (RLPC) and email addiction tendency scores (Table 3 and Figure 5).   Regions with significant correlation between email addiction tendency scores and GMVs are overlaid on a "single subject" T1-weighted image from SPM8. Results were obtained using a threshold of TFCE with p < 0.05 based on 5000 permutations (a). A significant, positive correlation was found in the left rostrolateral prefrontal cortex (b).

Discussion
To the best of our knowledge, this is the first study to not only develop and validate a scale that measures email addiction, but also to investigate its behavioral and neurological correlations. Our findings confirm our hypothesis: email addiction tendency is corre- Figure 5. Gray matter brain regions correlate to email addiction tendency scores in young adults. Regions with significant correlation between email addiction tendency scores and GMVs are overlaid on a "single subject" T1-weighted image from SPM8. Results were obtained using a threshold of TFCE with p < 0.05 based on 5000 permutations (a). A significant, positive correlation was found in the left rostrolateral prefrontal cortex (b).

Discussion
To the best of our knowledge, this is the first study to not only develop and validate a scale that measures email addiction, but also to investigate its behavioral and neurological correlations. Our findings confirm our hypothesis: email addiction tendency is correlated with mental health issues, as well as changes in brain structures involvedin high-level cognitive functioning.
First, the I-CVI, S-CVI/UA, S-CVI/Ave, and average CVR demonstrated the high content validity of the EATS. The PCA results showed the one-factor structure of the scale and the CFA supported the scale construct validity. Moreover, the Cronbach's alpha and the Guttman split-half coefficients revealed that the EATS is highly reliable. The EATS provides a unique self-reporting tool to assess an individual's dependence on email. Since it is well established that excessive use of internet is problematic [36,37,69,70], it is assumed that the EATS can evaluate email addiction tendency as a behavioral addiction.
Although this study shows the one-factor structure of EATS, like Young's IAT [39,71], the results revealed that the EATS correlates moderately with Young's IAT score (r = 0.30). This finding establishes that although internet addiction tendency and email addiction tendency have a positive and significant relationship with each other, they are, in fact, two independent constructs. The concepts of internet addiction and social network addiction have not been well-defined, largely because there are no gold standards for measuring these conditions, nor is there any widely accepted theory [72][73][74]. However, it is thought that email addiction is a subtype of internet addiction. As an example, Griffiths, Kuss [11] proposes three subtypes of internet addicts, based on the "object" of the addiction: online games, sex, and email or text messages. Social networks are an online activity where texting or emails are predominant, despite their being used for game-playing and even sex-related purposes.
Social network addiction has been associated with mental health problems in previous studies [15,36,75,76]. Interestingly, our results show that subjects who are more dependent on email experience more symptoms of depression and exhibit more deficits in nonverbal reasoning ability. These findings are in agreement with previous studies, demonstrating that problematic social network usage is associated with psychiatric disorder symptoms [17][18][19]. Li and Mo [77], in a large-scale prospective cohort study in Chinese adolescents, showed that the addictive use of online social networks is accompanied by an increase in the level of depression symptoms. One explanation for this finding is that the excessive use of online social networking displaces daily time spent with peers and family, leading to the withdrawal from interpersonal offline activities. This, in turn, increases negative emotions, such as depression symptoms [78]. In line with our findings, a recent study by Raj [79] has shown that internet-addicted subjects have more problems with abstract reasoning than nonaddicts. Moreover, studies by Romero-Martinez, Vitoria-Estruch [21] and Bagga andSingh [23] have shown impairments in abstract reasoning ability in alcoholdependent subjects. Our findings suggest that email dependence has a common cognitive underpinning with other addictions, including alcoholism.
This study also sought to expand our current understanding of the neuropsychological basis of email dependence using structural MRI. The MRI results showed that email addiction tendency was significantly and positively correlated with the GMV of the left RLPC. Previous studies showed that the rostral areas of the lateral prefrontal cortex play an important role in higher levels of cognitive control and abstract representations [80][81][82][83]. One study by Nee and D'Esposito [84] showed that the rostral areas of the lateral prefrontal cortex are correlated with abstract processing, organizing behavior according to future considerations (e.g., goals or plans), and future-oriented processing. These results confirmed our hypothesis that email addiction tendency might be correlated with changes in brain regions implicated in higher cognitive functions such as cognitive control. Cognitive control deficits and impulsivity play critical roles in daily life and are associated with influential behavioral styles and problems such as driving violations [85], drinking [86], eating disorders [87], and substance addiction [88].
This study had two limitations. First, the cross-sectional design excludes the establishment of a causal relationship between email addiction tendency, mental health problems, and changes in specific brain structures. Second, because the study cohort consisted of only healthy, young people with relatively high levels of education, these results cannot be extrapolated to the general population.

Conclusions
In the present study, we developed a scale to assess the aspects of email addiction in young adults that affect mental health and brain structures of users, either directly or indirectly. Our findings show that our EATS provides a simple and quick method for evaluating email addiction tendency in young adults (Appendix A). The EATS had good validity and reliability. We also demonstrated that the increased tendency for email addiction is associated with more symptoms of depression and impairments in abstract reasoning ability. Moreover, email addiction tendency was characterized by increased GMV in the left RLPC brain region. Previous studies have also shown that the RLPC has a significant relationship with cognitive control.  Data Availability Statement: All the experimental data obtained in the experiment of this study will be available to ones that were admitted in the ethics committee of Tohoku University, school of medicine. All the data sharing should be first admitted by the ethics committee of Tohoku University, school of medicine. Have you ever opted to spend more time exchanging emails instead of going out with others?

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If you don't have a new email, you will feel depressed, in a bad mood, and frustrated, but have you ever experienced that you can get rid of it immediately by emailing?