|Year : 2020 | Volume
| Issue : 1 | Page : 9-15
The effects of education through short message service for mothers on sleep duration among school-aged children: A randomized trial
, Leila Valizadeh1
, Mahasti Alizadeh2
, Parvaneh Aghajari3
, Mohammad Asghari Jafarabadi4
, Raheleh Janani1 1 Department of Pediatric Nursing, Faculty of Nursing and Midwifery, Tabriz University of Medical Sciences, Tabriz, Iran
2 Social Determinant of Health Research Center, Tabriz University of Medical Sciences, Tabriz, Iran
3 Department of Pediatric Nursing, School of Nursing and Midwifery, Maragheh University of Medical Sciences, Maragheh, Iran
4 Department of Statistics and Epidemiology, Faculty of Health, Tabriz University of Medical Sciences, Tabriz, Iran
|Date of Web Publication||15-Jan-2020|
Department of Pediatric Nursing, Faculty of Nursing and Midwifery, Tabriz University of Medical Sciences, Tabriz
Source of Support: None, Conflict of Interest: None
Background: Children's sleep problems can negatively affect their daily functioning at home and school, their behaviors, and their health status. Education through short message service (SMS) is among the techniques with potential positive effects. However, no study is available on the effects of SMS-based sleep education on sleep among children. Objectives: This study aimed to examine the effects of SMS-based education for mothers on sleep duration among their 7–12-year-old children who had sleep inadequacy. Methods: This randomized controlled trial was conducted on 206 elementary students and their mothers. Students with sleep inadequacy who were selected from thirteen elementary schools in Tabriz, Iran, were randomly allocated to a control (n = 103) and an intervention (n = 103) group. In the intervention group, students' mothers were provided with sleep education through thirty nightly messages sent at 20:00 for 1 month. Mothers in both groups completed the 2-week sleep record before, 1 week, and 3 months after the intervention. The data were analyzed using the independent samples t- and the Chi-square tests, the repeated-measures analysis of variance, and the analysis of covariance. Results: The mean of sleep duration in the intervention group significantly increased from 533.28 ± 29.35 min at baseline to 551.26 ± 37.93 at the first posttest and 568.25 ± 35.44 at the second posttest (P < 0.05). In the control group, the mean of sleep duration significantly increased from 523.13 ± 33.69 min at the pretest to 539.98 ± 49.03 at the first posttest (P < 0.05) and insignificantly decreased to 528.96 ± 52.20 at the second posttest (P > 0.05). Between-group difference respecting the mean of sleep duration was statistically significant only at the second posttest (P < 0.001). Conclusion: SMS-based sleep education for mothers is effective in significantly increasing sleep duration among school-aged children.
Keywords: Child, Education, Message, Mothers, Sleep
|How to cite this article:|
Mousarrezaei Z, Valizadeh L, Alizadeh M, Aghajari P, Jafarabadi MA, Janani R. The effects of education through short message service for mothers on sleep duration among school-aged children: A randomized trial. Nurs Midwifery Stud 2020;9:9-15
|How to cite this URL:|
Mousarrezaei Z, Valizadeh L, Alizadeh M, Aghajari P, Jafarabadi MA, Janani R. The effects of education through short message service for mothers on sleep duration among school-aged children: A randomized trial. Nurs Midwifery Stud [serial online] 2020 [cited 2021 Jan 22];9:9-15. Available from: https://www.nmsjournal.com/text.asp?2020/9/1/9/275999
| Introduction|| |
Sleep is among the most basic needs of human beings. It greatly affects physical and mental health, quality of life, emotional development, cognitive function, learning, and concentration. Children with inadequate sleep are more aggressive, have more absence from school, and are more prone to academic failure than their peers. Sleep inadequacy is associated with different health problems such as hyperlipidemia, obesity, and high blood pressure.
Despite the importance of sleep to children's growth and development, studies show that many children suffer from sleep problems. For instance, a study in Tehran, Iran, found that students aged 6–9 years had unhealthy sleeping habits. Two other studies on the sleeping habits of 6–11-year-old Iranian children also reported the high prevalence of sleep inadequacy among them., Other studies also showed that sleep problems and unhealthy sleeping habits were prevalent among children., Yet, children's sleep problems are usually ignored. Such ignorance negatively affects their daily functioning at home and school, their behaviors, and their health status.
Children do not accurately understand their need for sleep. Therefore, their sleep patterns are largely determined by their parents and their family plans., Family lifestyle, activities, and preferences such as television watching, shopping, and entertainment can result in delayed sleeping and sleep problems. A study reported that children's sleep problems were related to their parents' sleep patterns. Accordingly, the success of any intervention for the management of children's sleep problems largely depends on parental involvement in the intervention.
Nurses have important roles in promoting public health and providing health-related public education. They have critical role in improving public knowledge about healthy sleeping habits and improving public health. They can use different methods for public and patient education about sleep. Short message service (SMS) is one of these methods. SMS is a simple, easy-to-use, and inexpensive technology with widespread use. Studies showed that SMS-based education was welcomed by learners.,
The results of studies into the effects of education on sleep are contradictory. For instance, a study on Italian teenagers aged 17–19-year-old found the effectiveness of school-based education in improving their knowledge about sleep. However, a study on 14–17-year-old teenagers reported that although education about sleep improved their sleep-related knowledge, it had no significant effects on their sleep behaviors. Another study found that a school-based educational program for teenagers increased their sleep duration on the weekends for a short period of time, but had no significant effects on their sleep-related knowledge. Studies also investigated the effects of parent-based sleep education and reported various results. A study showed that parent-based group versus individualized education did not affect the children's sleep outcome. However, another study reported that parent-based behavioral sleep workshops were effective in improving subjective and objective measures of sleep and sleep habits in children with autism spectrum disorders. These methods may be less applicable for parents who are at job during the day or their child are healthy. However, no study had yet evaluated the effects of SMS-based sleep education for parents on sleep duration among children. Hence, the question still remains whether SMS-based education for mothers is effective in improving sleep duration among their children.
This study aimed to examine the effects of SMS-based education for mothers on sleep duration among their 7–12-year-old children with sleep inadequacy.
| Methods|| |
Study design and participants
This randomized controlled trial was conducted in 2015–2016 on 7–12-year-old students with sleep inadequacy and their mothers. They were selected through random sampling from elementary schools in Tabriz, Iran. Inclusion criteria for students were education in elementary school, sleep inadequacy, and having no physical and mental health problems. Inclusion criteria for mothers were agreement for participation in the study, access to a mobile phone, no employment in health-care settings, basic literacy skills, and having no known physical and mental health problems.
Sleep inadequacy was determined based on age using the following method: 7-year-old, <585 min in 24 h; 8-year-old, <570 min; 9-year-old, <555 min; 10-year-old, <540 min; 11-year-old, <530 min; and 12-year-old, <510 min in 24 h. The only exclusion criterion was moving from the current living place or school.
Sample size was calculated based on the results of a pilot study on 30 participants. The baseline mean ± standard deviation (SD) of the sleep duration score of the children was 530.27 ± 29.35 and increased to 565.26 ± 35.44 at the week after the intervention. Then, with a Type I and II errors of 0.01 and 0.1, respectively, and considering S1 = 29.35 and S2 = 35.44 and μ1 = 530.27 and μ2 = 565.26, the needed sample for each group was estimated at 26. However, we recruited all the available samples to compensate the possible attrition.
Data collection instruments
Instruments were a personal characteristic questionnaire, the child symptom inventory-4 (CSI-4) and 2-week sleep record (2-WSR). The items of the personal characteristic questionnaire were on child's and mother's age, child's gender and birth rank, child's or other family members' affliction by physical or mental health problems, as well as mother's education level, occupation, and mobile phone number. CSI-4 parent version is a parent-specific form developed based on the Diagnostic and Statistical Manual of Mental Disorders, 4th Edition for the diagnosis of mental health problems among students. This scale contains 110 multiple-choice or dichotomous items. The multiple-choice items are responded as “Never,” “Sometimes,” “Often,” or “Always” and dichotomous questions responded “Yes” or “No.” In the present study, responses “Never.” “Sometimes,” and “No” were scored zero and responses “Often,” “Always,” and “Yes” were scored 1. The results of this inventory were interpreted by a psychologist. A former study reported that the test–retest correlation coefficient of this inventory was 0.46–0.87 and its Cronbach's alpha was 0.74–0.94.
The other study instrument was 2-WSR -a table with 14 rows and 24 columns to measure sleep duration in 24 hours. Each mother was trained to fill the boxes of this record with black when her child was asleep and to leave the boxes blank when the child was awake. Moreover, she had to use downward arrow whenever her child went to sleep and use upward arrow whenever her child woke up. Finally, the mean of sleep duration was calculated for each child.
Both CSI-4 and 2-WSR were translated from English into Persian and their content validity was confirmed by twelve nursing and pediatric faculty members of Tabriz University of Medical Sciences, Tabriz, Iran. For reliability assessment, CSI-4 was twice completed by the same thirty mothers in the pilot study. The test–retest intraclass correlation coefficient and the Cronbach's alpha of the inventory were 0.87 and 0.79, respectively.
Participants were selected through cluster sampling. Initially, thirteen public schools (including six boys' and seven girls' schools) in Tabriz, Iran, were selected and then all 7–12-year-old students in these schools were approached. They were provided with the personal characteristics questionnaire to be completed by their mothers at home. One week later, they were asked to bring the completed questionnaire to the school. All eligible mothers were invited to attend a session at school, where they were provided with information about the study and were asked to complete CSI-4 under the supervision of a psychologist. At the end of the session, 2-WSR was given to all mothers and they were asked to complete it for 2 weeks (as the pretest). One week after the session, a short message was sent to all mothers through SMS to remind them of completing 2-WSR. Another short message was sent to them 2 weeks after the session in order to remind them of returning the 2-WSR to school. Based on the collected data, children with sleep inadequacy and without physical and mental health problems were identified (n = 206). As the study course was lengthy and the study intervention was not in-person, there was a high potential of participant withdrawal from the study. Thus, all 206 eligible students were recruited to the study and were equally allocated to a control (n = 103) and an intervention (n = 103) group. Randomization was done using an on-line Random Allocation Software (https://www.sealedenvelope.com/simple-randomiser/v1/lists) and with a block size of 2 and an allocation ratio of 1:1. Students and mothers were blind to the study groups.
The study intervention was SMS-based education about sleep. Educational materials were prepared through reviewing the existing literature and were approved by twelve nursing and pediatric faculty members of Tabriz University of Medical Sciences, Tabriz, Iran. Each night during the 1-month course of the intervention, a short educational message about sleep was sent to mothers in the intervention group at 20:00 via SMS. Examples of short messages were “Prevent child-stimulating activities after dinner (e.g., computer games, video and TV watching and video games),” “Set the bedtime at a specific time and make sure the child is tired enough while sleeping. Children will not sleep at night and wake up frequently if they sleep long during the day or wake up too late in the morning.” The mothers were asked to avoid sharing messages with others. Moreover, to ensure that they received each message, they were asked to make a missed call to the first author immediately after receiving the message. A reminder message was sent to mothers who did not make the missed call for half of the messages to ensure that they had received the messages. Mothers who did not answer this reminder message were excluded from the study. One week and 3 months after the intervention, the 2-WSR was completed for 2 weeks by the mothers as the first and the second posttests. Mothers in the control group did not receive any short message and completed the 2-WSR 1 week and 3 months after the intervention.
The study obtained ethical approval from the Ethics Committee of Tabriz University of Medical Sciences, Tabriz, Iran (code: TBZMED.REC.1394.18) and was registered in the Iranian Registry of Clinical Trials (code: IRCT201404088315N10). All participants were informed about the study aims and advantages and were ensured of confidential data management and voluntary participation in the study. Written informed consent was obtained from all participants. All steps of the study were taken in accordance with the principles of the latest update of the Helsinki declaration. Some gifts were also given to the participating students. At the end of the study, the educational materials were provided to participants in the control group.
The data were analyzed using the SPSS software v. 13.0 (SPSS Inc, Chicago, IL, USA). The Kolmogorov–Smirnov test showed that all quantitative variables had normal distribution. The data were summarized using the measures of descriptive statistics, including absolute frequency, relative frequency, mean, and SD. The independent samples t- and the Chi-square tests were used for between-group comparisons respecting baseline sleep duration and personal characteristics. Moreover, the repeated-measures analysis of variance was conducted to compare the within-group variations of sleep duration across the three measurement time-points. The analysis of covariance was also performed to compare the groups respecting sleep duration at the first and the second posttests. Significance level was set at <0.05.
| Results|| |
At the first posttest, 58 participants in the control group and 68 participants in the intervention group completed 2-WSR. These numbers at the second posttest were 45 and 47, respectively [Figure 1]. There were no statistically significant difference between the intervention and the control groups respecting the demographic characteristics of the participants who were excluded. The same findings were observed for the participants who completed the study [P < 0.05; [Table 1].
The results of the repeated-measures analysis of variance illustrated significant increase in sleep duration in the intervention group across the three measurement time-points. The Sidak post hoc test for pairwise comparisons revealed significant differences between the first and the second (P = 0.002), the first and the third (P < 0.001), and the second and the third (P < 0.001) time-points. The repeated-measures analysis of variance also showed at least one significant change in the mean of sleep duration in the control group. Post hoc analysis revealed that only the difference between the first and the second time-points was statistically significant [P = 0.016; [Table 2].
|Table 2: Within- and between-group comparisons of the mean ± standard deviation of the two groups respecting children's sleep duration (min)|
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At the first posttest, the between-group mean difference of sleep duration was 1.13 min and the between-group difference was not statistically significant (P = 0.879). At the second posttest, this value was 29.14 min and the between-group difference was statistically significant (P < 0.001). Based on covariance analysis the between-group pretest- first posttest difference was not statistically significant (P = 0.726), and the between-group pretest-second posttest difference was statistically significant [P = 0.001; [Table 2].
| Discussion|| |
The study results illustrated that SMS-based education for mothers was effective in significantly improving sleep duration among their school-aged children. Studies are conflicting about the effect of SMS-based education on people's behavior. In line with our findings, a former study found that a school-based intervention significantly broadened sleep-related knowledge and reduced sleep problems among teenagers. Another study reported that on-campus education significantly improved teenagers' sleep-related knowledge and sleep duration and concluded that improving sleep-related knowledge positively affects sleep behaviors and sleep duration. SMS-based education for parents was also reported in another study to be effective in improving sleep-related knowledge.
Contrary to our findings, a study on teenagers aged 12–18-year-old showed that although school-based education was effective in improving their sleep-related knowledge and behavioral and mental health, it had no significant effects on sleep duration. Another study on 58 teenagers with an age mean of 15.98 found that school-based education reduced problems such as sleep irregularity and sleep latency, while it did not significantly affect sleep duration and sleep quality. The contradiction between the results of our study and the results of these two studies can be attributed to the fact that our intervention was family based, while their interventions were school based. Sleep problems among children are greatly affected by family plans and parental awareness. Therefore, sleep-related interventions for children need to involve families, particularly parents.
The results of the present study also showed that the between-group difference regarding sleep duration was not statistically significant at the first posttest (mean difference was 1.13 min), but was statistically significant at the second posttest (mean difference was 29.14 min). This study was conducted from Autumn 2015 to Spring 2016. The pretest was conducted at the end of the autumn and the first and the second posttests were conducted in winter and spring, respectively. Short day length and snowfall-related school closures in the winter might have caused increase in sleep duration in the control group at the first posttest.
This study was conducted only in public elementary schools, and hence, its findings may have limited generalizability. Moreover, some participants left the study during the intervention because they considered short messages as intrusion on their privacy. Attrition rate in the study was also high (9%) due to the 3-month follow-up (second posttest) and that some mothers were reluctant to continue their participation, though we attempted to eliminate this limitation by increasing the sample size. Future studies are recommended to compare the effects of internet-based and SMS-based interventions on sleep duration and quality. Furthermore, children's daily sleep episodes at school, family sleep pattern, illiterate mother, or mother without mobile phone were not considered in the current study. However, considering the possible effects of these variables, further studies with considering these variables are suggested.
| Conclusion|| |
This study concludes that SMS-based sleep education for mothers can be effective in significantly increasing sleep duration among school-aged children. Nurses and school health instructors can use SMS to increase parents' awareness of the importance of healthy sleeping and thereby prevent sleep inadequacy and its complications among children.
We are truly grateful to the authorities of the elementary schools who cooperated with us, as well as all participants who closely collaborated with us throughout the study.
Financial support and sponsorship
This study was financially supported by the Research and Technology Administration of Tabriz University of Medical Sciences, Tabriz, Iran.
Conflicts of interest
There are no conflicts of interest.
| References|| |
Yilmaz M, Sayin Y, Gurler H. Sleep quality of hospitalized patients in surgical units. Nurs Forum 2012;47:183-92.
Liu X, Liu L, Owens JA, Kaplan DL. Sleep patterns and sleep problems among schoolchildren in the United States and China. Pediatrics 2005;115:241-9.
Coulombe JA, Reid GJ, Boyle MH, Racine Y. Sleep problems, tiredness, and psychological symptoms among healthy adolescents. J Pediatr Psychol 2011;36:25-35.
Meng L, Zheng Y, Hui R. The relationship of sleep duration and insomnia to risk of hypertension incidence: A meta-analysis of prospective cohort studies. Hypertens Res 2013;36:985-95.
Gharamaleki AS, Hoseini SM, Zamani A, Vaezzadeh F, Djafarian K. Sleep pattern in 6-9 years old students living in Tehran city. J Isfahan Med Sch 2011;29:1-9.
Khazaie T, Portaghali P, Jamali O, Khazaei S, Miri N, Sarhadi S, et al
. Sleep pattern and common sleep problems of school children in Birjand J Isfahan Med Sch 2012;9:257-63.
Javadi M, Kalantari N, Jalilolghadr SH, OmidvarN, Rashidkhani B, Amiri P. Sleep habits and dietary intake among preschool children in Qazvin. J Compr Ped 2014;5:e5134.
Gomrokchi Y, Shafi Poor Z, Paryad E, Roshan AZ. A study of sleep habits of the students of primary schools of Rasht city from parents, point of view. J Holist Nurs Midwifery 2009;20:40-5.
Hockenberry M., Wilson D. Nursing Care of Infants and Children. 10th
ed. Philadelphia, London: Mosby Company; 2015.
Rönnlund H, Elovainio M, Virtanen I, Matomäki J, Lapinleimu H. Poor parental sleep and the reported sleep quality of their children. Pediatrics 2016;137:e20153425.
Farzianpour F, Mohamadi A, Hosseini SS. Evaluation of the relationship between social capital and manpower's burnout in teaching hospitals of Iran. Afr J Bus Manage 2013;7:2872.
Dollard MF, Arnold AB. Psychosocial safety climate as a precursor to conducive work environments psychological health problems and employee engagement. J Occup Org Psychol 2010;83:579-99.
Reuben DB, Tinetti ME. Goal-oriented patient care--an alternative health outcomes paradigm. N Engl J Med 2012;366:777-9.
Redeker N, McEnany GP. Sleep Disorders and Sleep Promotion in Nursing Practice. New York: Springer Publishing Company; 2011.
Daniel F, Younas M. Mobile Web and Service Applications: Guest Editors' Introduction. SOCA 2012;6:337-9.
Hayati A, Jalilifar A, Mashhadi A. Using short message service (SMS) to teach English idioms to EFL students. Br J Educ Technol 2013;44:66-81.
Khonsari S, Subramanian P, Chinna K, Latif LA, Ling LW, Gholami O. Effect of a reminder system using an automated short message service on medication adherence following acute coronary syndrome. Eur J Cardiovasc Nurs 2015;14:170-9.
Cain N, Gradisar M, Moseley L. A motivational school-based intervention for adolescent sleep problems. Sleep Med 2011;12:246-51.
Cassoff J, Knäuper B, Michaelsen S, Gruber R. School-based sleep promotion programs: Effectiveness, feasibility and insights for future research. Sleep Med Rev 2013;17:207-14.
Kira G, Maddison R, Hull M, Blunden S, Olds T. Sleep education improves the sleep duration of adolescents: A randomized controlled pilot study. J Clin Sleep Med 2014;10:787-92.
Malow BA, Adkins KW, Reynolds A, Weiss SK, Loh A, Fawkes D, et al
. Parent-based sleep education for children with autism spectrum disorders. J Autism Dev Disord 2014;44:216-28.
Reed HE, McGrew SG, Artibee K, Surdkya K, Goldman SE, Frank K, et al
. Parent-based sleep education workshops in autism. J Child Neurol 2009;24:936-45.
Iglowstein I, Jenni OG, Molinari L, Largo RH. Sleep duration from infancy to adolescence: Reference values and generational trends. Pediatrics 2003;111:302-7.
Sprafkin J, Volpe RJ, Gadow KD, Nolan EE, Kelly K. A DSM-IV-referenced screening instrument for preschool children: The Early Childhood Inventory-4. J Am Acad Child Adolesc Psychiatry 2002;41:604-12.
Rahmani P, Moheb N. The effectiveness of clay therapy and narrative therapy on anxiety of pre-school children: A comparative study. Procedia Soc Behav Sci 2010;5:23-7.
Wong DL, Kasprisin CA. Clinical Manual of Pediatric Nursing. USA: Mosby Company; 2012.
Saberi F, Adib-Hajbaghery M, Zohrehie J. The effects of public education through Short Message Service on the time from symptom onset to hospital arrival in patients with myocardial infarction: A field trial. ARYA Atheroscler 2017;13:97-102.
Moseley L, Gradisar M. Evaluation of a school-based intervention for adolescent sleep problems. Sleep 2009;32:334-41.
Blunden S, Kira G, Hull M, Maddison R. Does sleep education change sleep parameters? Comparing sleep education trials for middle school students in Australia and New Zealand. Open Sleep J 2012;5:12-8.
Valizadeh L, Alizadeh M, Asghari Jafarabadi M, Aghajari P, Mousarrezaei Z. The effect of SMS-based education on sleep knowledge of mothers of primary school students: A single-blind randomized controlled trial. Iran Red Crescent Med J 2017;19:e41293.
Wing YK, Chan NY, Man Yu MW, Lam SP, Zhang J, Li SX, et al
. A school-based sleep education program for adolescents: A cluster randomized trial. Pediatrics 2015;135:e635-43.
Sousa D, Cortez I, Araújo JF, Azevedo D, Macêdo CV. The effect of a sleep hygiene education program on the sleep-wake cycle of Brazilian adolescent students. Sleep Biol Rhythms 2007;5:251-8.
[Table 1], [Table 2]