- 1College of Physical Education, Yancheng Teachers University, Yancheng, China
- 2College of Foreign Languages, Wuhan University of Science and Technology, Wuhan, China
- 3College of Physical Education, Yangzhou University, Yangzhou, China
Purpose: This study investigated levels of anxiety and sleep quality and their association with physical activity in junior high school students under quarantine during the COVID-19 pandemic. It also tests the effectiveness of physical activity and psychological nursing interventions in alleviating anxiety ‘and improving sleep quality.
Methods: In July 2021, 14,000 home-quarantined junior high school students in Yangzhou City (China) were selected by random cluster sampling to complete an online survey. We then selected 95 junior high school students for an 8-week longitudinal experiment exploring whether the two types of intervention made positive contributions to students' anxiety, sleep quality, and physical activity.
Results: The cross-sectional study revealed that physical activity was significantly related to anxiety and sleep quality. In the longitudinal study, students who underwent the exercise intervention or the psychological nursing intervention experienced significant improvement in their anxiety levels. The exercise intervention also promoted improved sleep quality. Overall, the exercise intervention was more effective than the psychological nursing intervention in reducing levels of anxiety and sleep disorders.
Conclusion: During the epidemic period, junior high school students should be encouraged to spend more time engaging in physical activity, and their sleep quality and anxiety shouldbe focused on.
1. Introduction
Against the background of the normalization of the COVID-19 epidemic in China, the rapid spread of virus mutations necessitates a range of prevention and control measures, including closing workplaces and schools. Residents in affected areas have been required to follow quarantine measures, resulting in negative impacts on their daily life and physical and mental health. One group particularly vulnerable to the detrimental effects of home or hotel quarantine, especially with respect to psychology, sleep, and learning, is junior high school students (Tao et al., 2023). With rising incidences of anxiety and depression in children and adolescents subject to sudden quarantines, there is an urgent need for targeted interventions to improve their physical and mental health (Önder et al., 2022). Therefore, to promote the healthy development of the adolescent population, it is especially important to focus on the physical and mental health problems they experience during COVID-19 quarantine periods, including what factors can worsen or alleviate these problems (Houghton et al., 2022).
Traditional approaches to the prevention and early treatment of common mental health diseases include physical therapy, psychotherapy, and drug therapy, but their effectiveness is somewhat limited by factors such as poor compliance and the side effects of drugs (Samushiya et al., 2021). Exercise intervention is increasingly recognized as an effective treatment for depression because it is easy to regulate and has no obvious side effects. By adjusting the timing, type, and organizational form of exercise intervention, the interests and hobbies of different depressed people as well as the time and frequency of exercise intervention are divided into different exercise items for intervention (Schuch and Stubbs, 2019). The influence of exercise interventions on sleep quality may be related to circadian rhythms. The circadian rhythm system of the human body is mainly concentrated in the suprachiasmatic nucleus of the hypothalamus and adjacent sites. Circadian signals are transmitted to multiple sleep-and-wake brain regions via the suprachiasmatic nucleus to regulate the phase transitions of each sleep stage and the transition between sleep and wake cycles. Disturbance of circadian rhythms and amplitude variation are the main causes of abnormal sleep structure. With the development of modern medicine, increasing attention is being paid to the mental health and happiness of different populations. Research has found that psychological nursing can alleviate low mood in students. Moreover, positive psychological interventions appear to have a calming and comforting effect on patients with schizophrenia. However, there are few reports of such interventions being targeted at primary and middle school students (Singh et al., 2020). Although academic circles have different perspectives on the hot topic of various sports and sports combined intervention in psychological problems, traditional sports may no longer be the most effective exercise for alleviating depression in students; instead, different forms of intervention activities may be more therapeutic.
To address gaps in the literature, this study investigates the influence of two types of intervention—exercise and psychological nursing—on the anxiety and sleep quality of junior high school students under home quarantine. We hope that our findings will offer insights on effective social support for adolescents during the COVID-19 epidemic, as well as providing a theoretical basis for improving adolescent anxiety and sleep quality.
2. Subjects and methods
2.1. Subjects of the survey
For the cross-sectional survey conducted between July and September 2021, we selected 14,000 junior high school students in Yangzhou City, Jiangsu Province, using stratified cluster random sampling. All participants were aged 12–15 years old and were in the first to the third grade. We sought to ensure roughly equal representation of male and female students and urban and rural residents. All participants gave fully informed to participating before completing the questionnaire. A total of 12,927 valid questionnaires were returned, representing an effective response rate of 92.3%. The data were analyzed using chi-square tests and logistic regressions. Table 1 presents basic information on the final sample.
For the longitudinal experiment, which started in September 2021, we selected 95 home-quarantined junior high school students aged 12–15 years old as participants: 75 had anxiety standard scores >4, while the other 20 had scores of 4 or below. Seventy-five participants with elevated anxiety were randomly divided into the anxiety control group (25 people), psychological nursing group (25 people), and exercise group (25 people). The experimental process was divided into pre-test and post-test. All participants took part voluntarily and were free to withdraw at any time. Before the start of the study, we obtained informed consent from the school teachers, participating junior high school students, and their parents. The study design was approved by the Ethics Committee of the Nursing School of Yangzhou University (Batch number: YXYLL-2020-106).
2.2. Measurements
2.2.1. General information questionnaire
The general information questionnaire covered participants' gender, age, grade, body mass index (BMI), only-child status, urban–rural residence, living mode, and family structure. BMI was calculated by dividing weight by height2 (kg/m2). Overweightness and obesity were defined according to gender and age BMI thresholds in the national health standard Screening for Overweight and Obesity of School-age Children and Adolescents (WS/T 568-2018) (Chen et al., 2018). For BMI, < 18.5 kg/m2 means underweight, 18.5–23.9 kg/m2 is normal, 24.0–27.9 kg/m2 signifies overweight, and ≥28.0 kg/m2 denotes obesity.
2.2.2. Generalized Anxiety Scale
We used Generalized Anxiety Scale (GAD-7) to evaluate participants' anxiety symptoms. The scale comprises seven items, each scored from 0 to 3. Total scores of 0–4 indicate minimal anxiety, 5–9 points represent mild anxiety, 10–14 denote moderate anxiety, and 15–21 suggest severe anxiety. Cronbach's α coefficient of the GAD-7 in this study was 0.932.
2.2.3. Physical Activity Rating Scale
The revised Physical Activity Rating Scale (PARS-3) by Liang Deqing was employed to assess the amount of physical activity of junior high school students (Zeng et al., 2022). The scale is divided into three items: exercise intensity, time, and frequency. Each item is answered on a five-point scale from 1 to 5, and exercise amount = intensity × (time−1) × frequency. Following the grade classification criteria used by Xia Xiangwei, a total score of ≤ 4 points denotes no exercise, 5–19 points indicate a small amount of exercise, 20–42 points represent a medium amount, and 43 or more points suggest a large amount. The scale has been shown to have high reliability and validity, with a test–retest reliability of 0.82. In the present study, Cronbach's α value of the scale was 0.639.
2.2.4. Pittsburgh Sleep Quality Index Questionnaire
We used the Chinese version of the Pittsburgh Sleep Quality Index Questionnaire (PSQI), as translated by Zou et al. (2023). The scale comprises seven items, each scored from 0 to 3 points, meaning the total score ranges from 0 to 21. Regarding the total PSQI score, ≤ 5 indicates good sleep quality, 6–10 means average sleep quality, 11–15 represents poor sleep quality, and 16–21 suggests very poor sleep quality. In international tests, the PSQI has demonstrated good reliability and validity. Cronbach's α coefficient of the scale in this study was 0.84.
2.3. Experimental process
The sample size for the longitudinal experiment was determined using Bayesian factor analysis, and the Bayesian factor threshold BF10 for stopping data collection was set at 10 (threshold for accepting H1) and 1/10 (threshold for accepting H0). Specifically, to test whether moral valence impacts on matching attempts in perceptual matching, this study focused on the difference in response time under different conditions and adopted Bayesian factor sequence design to test the BF values corresponding to three key effects: (1) the interaction between moral titer and matching degree; (2) the reaction time of the moral positive matching condition is faster than that of the neutral matching condition; and (3) the reaction time of the moral negative matching condition is slower than that of the neutral matching condition. The three key effects will be analyzed using Bayesian repeated-measures ANOVA and Bayesian paired-samples t-test (unilateral), respectively, which both use JASP built-in priors. Considering the practical factors of this study, the minimum sample size was set at 18 and the maximum sample size at 25 participants.
In the exercise group, the intervention lasted for 8 weeks and combined high-intensity interval training (HIIT) with regular exercise. The HIIT activities comprised 10 movements: 10 burpees, 30 opening and closing jumps, 10 kneeling push-ups, 20 alternating knee lifts, 20 squats, 20 bench bends, 10 squat jumps, 20 supine tummy rolls, 10 lunge squats, and 20 supine hip straightens on both sides. These exercises were performed at a medium intensity for 20 min, and completed 3 times per week. To ensure that exercise intensity was at the desired (safe) level, we randomly selected six participants to wear Polar heart rate monitors; their heart rates were recorded at quiet time and 3, 6, and 15 min into the exercise. Before the experiment, the research purpose and the exercise regime were clearly explained to all participants. They were forbidden to drink alcohol, coffee, tea, or any other drinks affecting sleep for 48 h before the experiment and instructed not to engage in strenuous exercise for 24 h before the experiment. No participants had any major life events.
In the psychological nursing group, quarantined students with elevated anxiety received remote online support from the nursing staff of Yangzhong People's Hospital. During the 8-week intervention, each student met remotely with a nurse once per week for 30–40 min. The intervention was designed to create a quiet and comfortable environment for dialogue, conducive to good communication; nurses maintained a cordial and warm attitude toward students and used technical language where appropriate, aiming to help students express their innermost thoughts and reduce their resistance to psychological intervention. Nurses explained to students the adverse effects of anxiety and how lack of physical activity is detrimental to physical and mental health, as well as providing information on the main causes of anxiety among junior high school students, such as learning pressure, change of environment, and separation. They also paid close attention to emotional variations in students, and gave targeted guidance based on each student's anxiety level, seeking to reduce their psychological burden and affirm their efforts in the intervention process. In addition, the nurses gave timely examples to illustrate the radical and fluctuating nature of anxiety, thereby aiming to lessen students' fear and concerns and promote their confidence. Students also received training in relaxation methods, such as listening to soft music to relax their minds and reduce both psychological tension and anxiety. Finally, the nurses also encouraged students to actively exercise at home.
Participants in the anxiety control group and the normal control group lived a normal home life and engaged in study as usual.
2.4. Statistical analysis
The Kolmogorov–Smirnov normality test was conducted on the questionnaire results. p-values for anxiety, sleep quality, and total questionnaire all exceeded 0.05. At the test level of α = 0.05, we can conclude that the survey results of each dimension and the total questionnaire did not significantly differ, indicating bivariate normal distributions suitable for Pearson correlation analysis. As p-value of the attitude dimension was < 0.001, Spearman correlation analysis was used.
The data were analyzed using SPSS 26.0 software. For MPAI, total scores of 34–50 represent mild cell phone addiction, 51–68 denote moderate addiction, and 69–85 indicate severe addiction. Paired-samples t-tests were used to compare the data before and after the intervention, and independent-samples t-tests and one-way ANOVAs were used to test the different groups.
3. Results
3.1. Comparative levels of anxiety and sleep quality according to demographic characteristics
Chi-square tests were performed to identify any significant differences in the levels of anxiety and sleep quality within demographic categories. The results indicate that anxiety (p < 0.05) and sleep quality (p < 0.01) significantly differed among participants of different grades during the quarantine period. Anxiety also significantly differed between urban and rural dwellers, while sleep quality significantly differed between male and female students. No other significant differences were found. The full results are shown in Table 2.
Table 2. Chi-square test results for comparative levels of anxiety and sleep quality in demographic categories of junior high school students.
3.2. Correlations and regressions of physical activity with anxiety and sleep quality
As shown in Table 3, Pearson correlation analysis revealed that physical activity was correlated with anxiety (r = −0.174, p < 0.001) and sleep quality (r = −0.258, p < 0.001). Next, we used a simple linear regression model to analyze the impact of physical activity (independent variable) on anxiety and sleep quality (dependent variables). The model formulas were as follows:
with respective R2 values of 0.030 and 0.066, indicating that physical activity explains the reasons of 3.0 and 6.6% changes in anxiety and sleep quality. Both regressions have overall significance (anxiety: F = 402.645, p = 0.000 < 0.05; sleep quality: 919.384, p = 0.000 < 0.05). The regression results are presented in Table 4.
3.3. Comparative levels of anxiety, physical activity, and sleep quality among different groups of junior high school students
As shown in Table 5, the results of independent-samples t-tests revealed significant differences in anxiety, physical activity, and sleep quality between the normal control group and the anxiety control group. The results illustrate that levels of anxiety, physical activity, and sleep quality significantly improved after the exercise intervention and psychological nursing during the quarantine period.
Table 5. Results of independent-samples t-tests comparing levels of anxiety, physical activity, and sleep quality between the normal control group and the anxiety control group.
A one-way ANOVA was performed to reveal differences between the anxiety control group, exercise group, and nursing group in levels of anxiety, physical activity, and sleep quality. As reported in Table 6, we found significant differences in anxiety, physical activity, and sleep quality between the three groups.
Table 6. ANOVA results for levels of anxiety, physical activity, and sleep quality in the three groups of students with elevated anxiety.
3.4. Pre- to post-intervention changes in levels of anxiety, physical activity, and sleep quality in each group
We carried out paired-samples t-tests to compare levels of anxiety, physical activity, and sleep quality in each group before and after the intervention. After the exercise intervention, there were significant improvements in student's levels of anxiety (p = 0.000), physical activity (p = 0.000), and sleep quality (p = 0.019). After the psychological nursing intervention, there was no significant difference in anxiety (p > 0.05), but there were significant differences in physical activity and sleep quality (p < 0.01). In both the anxiety control group and the normal control group, anxiety, sleep quality, and physical activity all significantly declined over the 8-week period. The full results are shown in Table 7.
Table 7. Comparative levels of anxiety, physical activity, and sleep quality within each group before and after intervention.
4. Discussion
The results demonstrated that, during the quarantine period, the incidence of anxiety among junior high school students was 43.0%, while 55.7% had sleep quality disorders. These levels are consistent with those reported by and Xu et al. (2019) and Chen and Qu (2021) for samples of junior high school students during the epidemic, but higher than those reported by Yao and Cao (2021) and Chen et al. (2022) in a normal environment. The epidemic is thus likely to explain differences in reported levels of anxiety and sleep quality. In our cross-sectional survey, anxiety was slightly more prevalent in female students (28.93%) than in male students (28.12%); bad sleep quality was also more prevalent in female students (53.07%) than in male students (46.93%). Anxiety prevalence was highest among third-grade students (35.63%), followed in turn by second-grade (33.96%) and first-grade students (30.41%); bad sleep quality was most prevalent in second-grade students (34.19%). Having one or more siblings, residing in a rural area, living with parents, and being in a two-parent family structure possessed significant anxiety and sleep quality problems.
Moderate exercise plays an important role in the physical and mental health development of adolescents (Biddle and Asare, 2011). According to the Guidelines for Physical Activity of Children and Adolescents in China, regular exercise can improve cardiovascular function, enhance metabolism, and improve muscle and bone health (Chen et al., 2020). The results show that the average level of moderate-to-vigorous physical activity among China's adolescents is only 37.66 min per day, far lower than the 60+ min per day recommended by the World Health Organization. In our study, the average physical activity level of junior high school students was only at a medium level; just 17.8% reported engaging in a high level of physical activity. Moreover, as BMI increases, the level of physical activity decreases, indicating that students who do not exercise are more likely to develop obesity. Male students reported significantly higher levels of physical activity compared with female students, consistent with the results of multiple prior studies. While in junior high school, children undergo rapid changes in physical form, physical function, and psychological state. In particular, boys experience rapid development in speed, strength, and endurance, resulting in greater gender differences in these physical attributes. Whereas male students often participate in sports and physical exercise in daily life, female students, due to physiological reasons, derive insufficient sense of self-efficacy from such activities, resulting in low enthusiasm for sports.
The level of self-reported physical activity was lowest in third-grade students, significantly lower than the levels reported by second- and first-grade students. In the third grade, students face heavy workloads and pressure to prepare for the high school entrance examination; devoting most of their time to study, they have little time available for physical exercise. At the end of the term, physical education is often given to the main class, resulting in insufficient physical education class hours, reduced activity time, and insufficient activity levels. We found that physical activity was negatively related to anxiety and sleep quality in junior high school students, indicating that the decline in physical activity under quarantine negatively impacted on their psychological wellbeing and sleep, due to the factors such as environment, online classes, and electronic devices. Therefore, our findings suggest that increasing physical activity levels could alleviate anxiety and improve the sleep quality of junior high school students.
Overall, the cross-sectional survey results indicate that junior high school students experienced an increase in anxiety, a drop in physical activity, and a decline in sleep quality while quarantined. One explanation for our findings is that junior high school students are a vulnerable group in public health emergencies: losing access to timely psychological guidance, they may be prone to developing negative psychological problems such as depression and anxiety. Another explanation is that these students usually engage in physical exercise on weekends after class or at school. Although it is possible to exercise at home, the influence of learning pressure, emergency issues, and students' consciousness may have contributed to a decline in their physical activity levels. Prior research has revealed that excessive use of electronic devices by junior high school students became a serious issue during the epidemic period; spending so much time looking at screens and remaining sedentary have been associated with anxiety, sleep disorders, and other physical and mental health problems. The anxiety of junior high school students during the epidemic urgently requires high vigilance and attention from society, schools, and responsible authorities (Bateman et al., 2016; Woods and Scott, 2016).
Adolescent mental health has always been a hot topic in China and abroad, with great importance to the nation, society, and families. Studies show that more than 30% of adolescents worldwide have mental health problems (Auerbach et al., 2018). Moreover, depression and anxiety are reportedly the third most common psychological problems in adolescents. Consistent with this study's results, depression levels rise with a decrease in physical activity: possible mechanisms include leptin resistance caused by low physical activity, anxiety induced by high levels of pro-inflammatory factors crossing the blood–brain barrier, and disturbance of intestinal flora. In our longitudinal experiment, junior high school students who underwent 8 weeks of exercise intervention or psychological nursing experienced a significant reduction in anxiety. The results thus demonstrate that both forms of intervention helped to alleviate students' anxiety, and the interventions were feasible and effective. The exercise intervention was also found to promote students' levels of physical activity and improve their sleep quality. By contrast, the psychological nursing intervention did not lead to improvements in levels of physical activity or sleep quality, which might be explained by the sedentarism and use of electronic devices that characterize learning through online courses. Therefore, students under quarantine should be encouraged to actively engage in physical exercise during the quarantine period. Moreover, schools and society should provide psychological guidance such as counseling, as well as conducting publicity campaigns and holding lectures on physical activity, sedentary behavior, and other related topics. These steps would help to reduce the pressure and difficulties of learning for junior high school students during the epidemic. In the home, parents should supervise how much time their children spend playing video games and pay attention to any changes in their children's psychological state. It is important that parents establish their own role models and drive students to engage more in physical exercise (Paolucci et al., 2018).
5. Limitations and future prospects
In recent years, depression has become considerably more common in student populations. With modern developments and lifestyle changes, traditional ways of treating depression have gradually lost their effectiveness, and exercise therapy has begun to be accepted by young patients. This study focused on junior high school students under quarantine status during the COVID-19 epidemic, resulting in several limitations. First, the online design of the experimental research made it difficult to control for various environmental factors likely to influence the measured variables. Moreover, we did not control for family structure and parenting behavior, which likely had a greater impact on students during the quarantine period compared with normal times. Second, the ratio of experimental staff to study participants was relatively large; in particular, the one-to-many approach of the psychological nursing intervention may have affected the experimental results, which consequently could not be well-promoted and applied. Third, longer term research is needed to investigate the volatility of anxiety in the target population. In addition, the causal associations between factors such as family support, diet, and anxiety levels require further study. Our findings suggest that exercise and psychological nursing interventions could be combined as a low-cost approach for reducing anxiety in junior high school students: future studies should test the effectiveness of this combination. Researchers should also test other innovative interventions for students and social families during the normalization of the epidemic.
Data availability statement
The raw data supporting the conclusions of this article will be made available by the authors, without undue reservation.
Ethics statement
The studies involving human participants were reviewed and approved by Ethics Committee of Nursing School of Yangzhou University (Batch number: YXYLL-2020-106). Written informed consent to participate in this study was provided by the participants' legal guardian/next of kin.
Author contributions
PC and YC contributed to study conception and design, and to manuscript polishing, and revision. SJ and PL organized the database, performed statistical analysis, and wrote the first draft of the manuscript. All authors contributed to the article and approved the submitted version.
Funding
This study was supported by the Yancheng Sports Science Fund Project in 2022 (22YTYB021) and Key Projects supported by Hubei Provincial Education Science Planning in 2019 (2019ZA07).
Acknowledgments
We sincerely thank the study participants and those who assisted in data collection for their generous contributions; all individuals included in this section have consented to their acknowledgment.
Conflict of interest
The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
Publisher's note
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References
Auerbach, R. P., Mortier, P., Bruffaerts, R., Alonso, J., Benjet, C., Cuijpers, P., et al. (2018). WHO world mental health surveys international college student project: prevalence and distribution of mental disorders. J. Abnorm. Psychol. 127, 623–638. doi: 10.1037/abn0000362
Bateman, R. M., Sharpe, M. D., Jagger, J. E., Sharpe, M. D., Jagger, J. E., Ellis, C. G., et al. (2016). 36th international symposium on intensive care and emergency medicine: Brussels, Belgium. 15–18 March 2016. Crit. Care 20, 94. doi: 10.1186/s13054-016-1208-6
Biddle, S. J., and Asare, M. (2011). Physical activity and mental health in children and adolescents: a review of reviews. Br. J. Sports Med. 45, 886–895. doi: 10.1136/bjsports-2011-090185
Chen, J. H., and Qu, M. (2021). The influence of COVID-19 potential inflection risk on depression and anxiety of junior high school students and the mediating effect of psychological resilience. Chin. J. Intergrat. Med. Cardio Cerebrovasc. Dis. 19, 5.
Chen, J. Y., Zhao, Y., Li, K. H., Tang, C. M., Yan, M. X., Zhang, Q., et al. (2022). Status quo of cyber-bullying among children and adolescents and its correlation with anxiety and depressive symptoms. Modern Prevent. Med. 49, 6.
Chen, P., Wang, D., Shen, H., Yu, L., Gao, Q., Mao, L., et al. (2020). Physical activity and health in Chinese children and adolescents: expert consensus statement (2020). Br. J. Sports Med. 54, 1321–1331. doi: 10.1136/bjsports-2020-102261
Chen, Y. J., Dong, Y. H., Wang, Z. H., Yang, Z. P., Zhao, H. P., and Ma, J. (2018). Analysis of nutritional status among Chinese students of five ethnic minorities aged 7-18 years in 2014. Zhonghua Yu Fang Yi Xue Za Zhi 52, 303–307. doi: 10.3760/cma.j.issn.0253-9624.2018.03.016
Houghton, S., Kyron, M., Hunter, S. C., Hunter, S. C., Lawrence, D., Hattie, J., et al. (2022). Adolescents' longitudinal trajectories of mental health and loneliness: the impact of COVID-19 school closures. J. Adolesc. 94, 191–205. doi: 10.1002/jad.12017
Önder, A., Sürer Adanir, A., Işleyen, Z., Işleyen, Z., Gizli Çoban, Ö., Ayranci, Y. M., et al. (2022). Evaluation of long-term psychopathology and sleep quality in children and adolescents who presented to a university pandemic clinic with possible COVID-19 symptoms. Psychol. Trauma. doi: 10.1037/tra0001387. [Epub ahead of print].
Paolucci, E. M., Loukov, D., Bowdish, D. M. E., and Heisz, J. J. (2018). Exercise reduces depression and inflammation but intensity matters. Biol. Psychol. 133, 79–84. doi: 10.1016/j.biopsycho.2018.01.015
Samushiya, M. A., Kryzhanovsky, S. M., Ragimova, A. A., Berishvili, T. Z., Chorbinskaya, S. A., and Ivannikova, E. I. (2021). Psikhoemotsional'nye rasstroistva i narusheniya sna u patsientov s COVID-19 [COVID-19 effect on mental health and sleep disorders]. Zh. Nevrol. Psikhiatr. Im. S Korsakova 121, 49–54. doi: 10.17116/jnevro202112104249
Schuch, F. B., and Stubbs, B. (2019). The role of exercise in preventing and treating depression. Curr. Sports Med. Rep. 18, 299–304. doi: 10.1249/JSR.0000000000000620
Singh, S., Roy, D., Sinha, K., Parveen, S., Sharma, G., and Joshi, G. (2020). Impact of COVID-19 and lockdown on mental health of children and adolescents: a narrative review with recommendations. Psychiatry Res. 293, 113429. doi: 10.1016/j.psychres.2020.113429
Tao, Y., Niu, H., Hou, W., Zhang, L., and Ying, R. (2023). Hopelessness during and after the COVID-19 pandemic lockdown among Chinese college students: a longitudinal network analysis. J. Clin. Psychol. 79, 748–761. doi: 10.1002/jclp.23439
Woods, H. C., and Scott, H. (2016). #Sleepyteens: social media use in adolescence is associated with poor sleep quality, anxiety, depression and low self-esteem. J. Adolesc. 51, 41–49. doi: 10.1016/j.adolescence.2016.05.008
Xu, J., Wang, Y., Zhao, J., Tang, W., and Lu, Y. (2019). Influence of earthquake exposure and left-behind status on severity of post-traumatic stress disorder and depression in Chinese adolescents. Psychiatry Res. 275, 253–260. doi: 10.1016/j.psychres.2019.01.109
Yao, Y., and Cao, W. Y. (2021). Anxiety and depression status and influencing factors among junior high school students in Nanqiao, Fengxian District, Shanghai. Shanghai J. Prevent. Med. 33, 7.
Zeng, M., Chen, S., Zhou, X., Zhang, J., Chen, X., and Sun, J. (2022). The relationship between physical exercise and mobile phone addiction among Chinese college students: testing mediation and moderation effects. Front. Psychol. 13, 1000109. doi: 10.3389/fpsyg.2022.1000109
Zou, L., Wang, T., Herold, F., Ludyga, S., Liu, W., Zhang, Y., et al. (2023). Associations between sedentary behavior and negative emotions in adolescents during home confinement: mediating role of social support and sleep quality. Int. J. Clin. Health Psychol. 23, 100337. doi: 10.1016/j.ijchp.2022.100337
Keywords: psychological nursing, physical activity, sleep quality, anxiety, junior high school student, cross-sectional-longitudinal study
Citation: Chen P, Chen Y, Jin S and Lu P (2023) A cross-sectional and longitudinal study of how two intervention methods affect the anxiety, sleep quality, and physical activity of junior high school students under quarantine. Front. Psychol. 14:1099732. doi: 10.3389/fpsyg.2023.1099732
Received: 16 November 2022; Accepted: 19 May 2023;
Published: 23 June 2023.
Edited by:
Neriman Aral, Ankara University, TürkiyeReviewed by:
Nasr Chalghaf, University of Gafsa, TunisiaCristian Ramos-Vera, Cesar Vallejo University, Peru
Gül Kadan, Cankiri Karatekin University, Türkiye
Antonio Serpa Barrientos, National University of San Marcos, Peru
Copyright © 2023 Chen, Chen, Jin and Lu. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
*Correspondence: Peng Chen, ycchenpeng123@163.com