A Systematic Review on Sleep Duration and Dyslipidemia in Adolescents: Understanding Inconsistencies

Abreu, Gabriela de Azevedo; Barufaldi, Laura Augusta; Bloch, Katia Vergetti; Szklo, Moyses

doi:10.5935/abc.20150121

Keywords
Sleep; Dyslipidemias; Adolescent; Review

Introduction

Although many questions about the role of sleep remain unanswered, it is known that sleep is not only a physiological function, but also performs an important role in promoting growth, maturation and general health of children and adolescents¹1. Kim J, Hakim F, Kheirandish-Gozal L, Gozal D. Inflammatory pathways in children with insufficient or disordered sleep. Respir Physiol Neurobiol. 2011;178(3):465-74., contributing significantly to cognitive, emotional functions and school performance²2. National Sleep Foundation. Adolescente sleep needs and patterns: research report. Washington, DC; 2000.. Currently, there is a tendency for the young population to have irregular sleeping hours, with differences in bed and wake-up times between weekdays and weekends, especially as they get older²2. National Sleep Foundation. Adolescente sleep needs and patterns: research report. Washington, DC; 2000.

3. Dahl R, Carskadon M. Sleep and its disorders in adolescence. In: Ferber R, Kryger MH (eds.). Principles and practices of sleep medicine in the child. Philadelphia: Saunders; 1995. p. 19-27.^-⁴4. Iglowstein I, Jenni OG, Molinari L, Largo RH. Sleep duration from infancy to adolescence: reference values and generational trends. Pediatrics. 2003;111(2):302-7..

There is a growing interest about the impact of sleep and its disorders on regulation of inflammatory processes and morbidities, particularly in the context of metabolic and cardiovascular diseases (CVD) and their complications¹1. Kim J, Hakim F, Kheirandish-Gozal L, Gozal D. Inflammatory pathways in children with insufficient or disordered sleep. Respir Physiol Neurobiol. 2011;178(3):465-74.. In children and adolescents, cross-sectional⁵5. Gupta NK, Mueller WH, Chan W, Meininger JC. Is obesity associated with poor sleep quality in adolescents? Am J Hum Biol. 2002;14(6):762-8.

6. Chaput JP, Brunet M, Tremblay A. Relationship between short sleeping hours and childhood overweight/obesity: results from the 'Quebec en Forme' Project. Int J Obes. 2006;30(7):1080-5.^-⁷7. Chen MY, Wang EK, Jeng YJ. Adequate sleep among adolescents is positively associated with health status and health-related behaviors. BMC Public Health. 2006;6:59-66. and prospective⁸8. Agras WS, Hammer LD, McNicholas F, Kraemer HC. Risk factors for childhood overweight: a prospective study from birth to 9.5 years. J Pediatr. 2004;145(1):20-5.^,⁹9. Reilly JJ, Armstrong J, Dorosty AR, Emmett PM, Ness A, Rogers I, et al. Early life risk factors for obesity in childhood: cohort study. BMJ. 2005;330(7504):1357. studies have shown an association between overweight or obesity and few hours of sleep. In adults, there is evidence supporting this association, as well as correlations with insulin resistance, diabetes and cardiovascular diseases¹⁰10. Van Cauter E, Holmback U, Knutson K, Leproult R, Miller A, Nedeltcheva A, et al. Impact of sleep and sleep loss on neuroendocrine and metabolic function. Horm Res. 2007;67 Suppl 1:2-9.

11. Taheri S. The link between short sleep duration and obesity: we should recommend more sleep to prevent obesity. Arch Child. 2006;91(11):881-4.

12. Bjorvatn B, Sagen IM, Oyane N, Waage S, Fetveit A, Pallesen S, et al. The association between sleep duration, body mass index and metabolic measures in the Hordaland Health Study. J Sleep Res. 2007;16(1):66-76.

13. Choi KM, Lee JS, Park HS, Baik SH, Choi DS, Kim SM. Relationship between sleep duration and the metabolic syndrome: Korean National Health and Nutrition Survey 2001. Int J Obes. 2008;32(7):1091-7.

14. Williams CJ, Hu FB, Patel SR, Mantzoros CS. Sleep duration and snoring in relation to biomarkers of cardiovascular disease risk among women with type 2 diabetes. Diabetes Care. 2007;30(5):1233-40.^-¹⁵15. Kaneita Y, Uchiyama M, Yoshiike N, Ohida T. Associations of usual sleep duration with serum lipid and lipoprotein levels. Sleep. 2008;31(5):645-52..

Few hours of sleep can also play a role in the etiology of a key risk factor to CVD, dyslipidemia¹²12. Bjorvatn B, Sagen IM, Oyane N, Waage S, Fetveit A, Pallesen S, et al. The association between sleep duration, body mass index and metabolic measures in the Hordaland Health Study. J Sleep Res. 2007;16(1):66-76.^,¹⁴14. Williams CJ, Hu FB, Patel SR, Mantzoros CS. Sleep duration and snoring in relation to biomarkers of cardiovascular disease risk among women with type 2 diabetes. Diabetes Care. 2007;30(5):1233-40.^,¹⁵15. Kaneita Y, Uchiyama M, Yoshiike N, Ohida T. Associations of usual sleep duration with serum lipid and lipoprotein levels. Sleep. 2008;31(5):645-52.. Physiologically, sleep reduction is associated with hormonal alterations that may promote the development of an atherogenic lipid profile, including increase of cortisol and ghrelin and reduction of leptin levels, in addition to sympathovagal responses¹⁶16. Taheri S, Lin L, Austin D, Young T, Mignot E. Short sleep duration is associated with reduced leptin, elevated ghrelin, and increased body mass index. PLoS Med. 2004;1(3):e62.

17. Spiegel K, Leproult R, L'hermite-Balériaux M, Copinschi G, Penev PD, Van Cauter E. Leptin levels are dependent on sleep duration: relationships with sympathovagal balance, carbohydrate regulation, cortisol, and thyrotropin. J Clin Endocrinol Metab. 2004;89(11):5762-71.^-¹⁸18. Mullington JM, Chan JL, Van Dongen HP, Szuba MP, Samaras J, Price NJ, et al. Sleep loss reduces diurnal rhythm amplitude of leptin in healthy men. J Neuroendocrinol. 2003;15(9):851-4.. In order to obtain more information about the association between lipid metabolism alterations and sleep duration specifically in adolescents, we have performed a systematic review of the literature.

Methods

This systematic review was based on the guidelines of the Preferred Reporting Items for Systematic Reviews and Meta‑analyses (PRISMA) statement¹⁹19. Moher D, Liberati A, Tetzlaff J, Altman DG, Altman D, Antes G, et al; PRISMA Group. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. Ann Intern Med. 2015;151(4):264-9..

The search was performed in the electronic databases Medline via Pubmed²⁰20. U.S. National Library of Medicine. Home Pubmed. [Internet]. [Acessed in 2015 Jan 8]. Available from: http://www.ncbi.nlm.nih.gov/pubmed
http://www.ncbi.nlm.nih.gov/pubmed... Lilacs²¹21. BIREME. Biblioteca Virtual em Saúde (BVS). Lilacs. [Internet]. [Acesso em 2015 Maio 10]. Disponível em: http://www.lilacs.bvsalud.org.
http://www.lilacs.bvsalud.org... , Web of Science²²22. Thomson Reuters. Web of Science.[ Internet]. [Accessed in 2015 Jun 12]. Available from: http://www.apps.webofknowledge.ez67.periodicos.capes.gov.br/wos.
http://www.apps.webofknowledge.ez67.peri... , Scopus²³23. ELSEVIER. Scopus. [Internet]. [Accessed in 2015 Jun 10]. Available from: http://www.scopus.com.ez67.periodicos.capes.gov.br
http://www.scopus.com.ez67.periodicos.ca... and Adolec²⁴24. BIREME. Biblioteca Virtual em Saúde (BVS). Adolec. [Internet]. [Acesso em 2015 maio 10]. Disponível em http://www.adolec.org.br
http://www.adolec.org.br... .

Selection of the descriptors used in the review process was made through MeSH (Pubmed’s Medical Subject Headings). The search was performed in English, using three concept blocks: the first with terms related to sleep (sleep); the second with terms related to adolescence (adoles*, teen*, student*, youth, young); and the third with terms related to lipids (lipid*, lipemia*, cholesterol, HDL, LDL, triglyceride*, lipoprotein*, hypercholesterolemia*, hypercholesteremia*, dyslipidemia*, dyslipoproteinemia*, hyperlipidemia*, hyperlipemia*, “high density lipoprotein cholesterol”, “low density lipoprotein cholesterol”). The Boolean operator “OR” was used for the combination of the descriptors within each block and the Boolean operator “AND” was used to combine the blocks amongst themselves. The truncation of terms was applied when necessary. No search limits were used for date, language, study design or sample size. The search was carried out in August 2014, contemplating articles published up to that date. Table 1 shows the search strategy used in each database.

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Table 1
Search strategy used for each database

Criteria for article inclusion in the systematic review were as follows: (a) studies on adolescents older than 10 years old; (b) studies that evaluated the association between sleep duration in hours and any lipid marker; (c) original research article. Articles evaluating any kind of sleep-related disorder, review studies, and experimental studies with animals were excluded. It was decided not to include theses, dissertations, and monographs. We reviewed the bibliographic references of reviews, systematic reviews, and meta-analyses that were found in the databases.

The articles were selected by two epidemiologists (GAA and LAB), initially based on title reading and then on abstract reading. Of the selected abstracts, the full articles were reviewed. In case of disagreement between the two reviewers with regard to the inclusion criteria, the title, and the abstract or the full article was maintained to be further evaluated. In case of disagreement with regard to the inclusion criteria, a third person was consulted.

Data from included articles were extracted independently, in duplicate (GAA and LAB), using a standard form. After extraction, data were compared and discussed. We extracted information about authorship, publication date, study place, population study, type of study, methods of sleep duration measurement and lipid profile assessment, sleep duration in hours, lipid markers, measure of association used to evaluate the correlation between hours of sleep and lipid profile, and variables used for adjustment of regression models.

We used an adaptation of the Newcastle-Ottawa (NOS) Quality Assessment Scale for Case-Control and Cohort Studies²⁵25. Wells G, Shea B, O'Connell D, Peterson J, Welch V, Losos M, et al. The Newcastle-Ottawa Scale (NOS) for assessing the quality of nonrandomized studies in meta-analyses: Ottawa Hospital Research Institute. [Accessed in 2010 Jun 20]. Available from: http://www.ohri.ca/programs/clinical_epidemiology/oxford.asp.
http://www.ohri.ca/programs/clinical_epi... , from the Ottawa Hospital Research Institute, to assess the quality of the longitudinal study included in this review. We also used the same scale adapted by Flynn et al²⁶26. Flynn D, Knoedler MA, Hess EP, Murad MH, Erwin PJ, Montori VM, et al. Engaging patients in health care decisions in the emergency department through shared decision-making: a systematic review. Acad Emerg Med. 2015;19(8):959-67. to assess the quality of cross-sectional studies.

Due to the great amount of methodological heterogeneity observed between the assessed studies, a narrative approach to synthesize the results of studies included in the present systematic review was considered a better strategy.

Results

The flowchart showing the selection process is shown in Figure 1. By the end of the evaluation process, of the 859 articles chosen after the removal of duplicates, 25 were submitted to full evaluation. Seven articles met the inclusion criteria at the end of the process.

Figure 1
Flowchart of article selection.

Table 2 shows the relevant characteristics of the selected studies. Of the seven studies included, only one²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61. is longitudinal. The other six studies are cross-sectional. Five of the 7 studies²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61.

28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.

29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20.

30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.^-³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41. included students. Sample sizes varied considerably, from 699 in the study by Rey-López et al³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10. to 14,267 adolescents in the study by Gangwisch et al²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61..

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Table 2
Main characteristics of the selected studies

All studies used questionnaires to obtain hours of sleep. The variable “sleep duration” was used as continuous in three studies²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61.^,²⁹29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20.^,³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.; whereas the other studies used different categories to classify sleep duration.

To obtain the lipid profiles, five studies collected venous blood²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.^,³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.

31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41.

32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12.^-³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71., one collected capillary blood²⁹29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20., and another used self-reported information²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61.. Five studies measured total cholesterol²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.

29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20.

30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.

31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41.^-³²32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12. and HDL-cholesterol²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.

29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20.^-³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.^,³²32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12.^,³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71., four measured triglycerides²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.^,³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.^,³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41.^,³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71., and two evaluated LDL-cholesterol²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.^,³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41.. Almost all studies controlled for gender²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61.^,²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.^,³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.^,³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71. and age²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61.^,²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.^,³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.

31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41.

32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12.^-³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71.; waist perimeter was adjusted for in two²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.^,²⁹29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20., physical activity in four²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61.^,³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.^,³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41.^,³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71., Tanner stage in two²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.^,³²32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12., maternal level of education in two³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41.^,³²32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12., socioeconomic status in two³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.^,³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41., body mass index (BMI) in one²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65., and caloric intake in one³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71..

The methodological quality assessment of the seven included studies is shown in Table 3. Only two cross-sectional studies²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.^,³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41. obtained four points out of six in the bias risk evaluation. The longitudinal study showed a moderate risk of bias²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61..

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Table 3
Evaluation of the risk of bias of the studies included

Table 4 shows the main results of the associations found and the control variables each study used. Considering the seven studies included, only in three an association was found between hours of sleep and lipid profile²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61.^,²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.^,³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71.. Two studies found that shorter sleep duration was associated with a worse lipid profile (total cholesterol and LDL-cholesterol)²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61.^,²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65., and the results of the third one³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71. showed that long sleep duration was associated with high triglyceride levels. The other four studies²⁹29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20.

30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.

31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41.^-³²32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12. did not find any association.

Thumbnail

Table 4
Main results of the studies included in the review

In four studies²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61.^,²⁹29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20.^,³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41.^,³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71. the odds ratio was reported, whereas the other studies reported²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.^,³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.^,³²32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12. β coefficients from regression analysis.

Discussion

The present systematic review showed lack of consistent evidence regarding the association between sleep duration and lipid profile in adolescents. Few studies were found and some had methodological limitations. There was great heterogeneity regarding the classification and type of analysis of sleep duration and lipid metabolism markers, which probably contributed to the inconsistency of the observed results.

Concerning heterogeneity between studies, this systematic review included studies that evaluated the outcome using different methods (self-reported²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61., capillary blood sample²⁹29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20., venous blood sample²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.^,³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.

31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41.

32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12.^-³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71.) or with different interval duration between the measure of exposition and the outcome³²32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12..

Gangwisch et al²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61. did not exclude adolescents with dyslipidemia at baseline, thus, the incidence of dyslipidemia in adolescents could not be ascertained. Moreover, as the outcome established was self-reported, and the diagnosis of dyslipidemia depends on access to medical care, a bias may have occurred if adolescents from different socioeconomic status have different sleep habits.

All studies included in this systematic review obtained information about sleep duration based on questionnaires, a method frequently used in sleep research because of its easy application and low cost. However, the validity of the information obtained through questionnaires is of concern, particularly when the tools have not been submitted to a validation process. Adolescents may report only socially desirable sleeping and waking up hours³⁴34. Wolfson AR, Carskadon MA, Acebo C, Seifer R, Fallone G, Labyak SE, et al. Evidence for the validity of a sleep habits survey for adolescents. Sleep. 2003;26(2):213-6.. Although all studies used questionnaires, sleep duration evaluation was also heterogeneous: one study asked the parents about the adolescent´s sleep duration³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41., one used pre-defined categories of bedtime and waking-up time³²32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12., while the others asked about sleep duration in an open question²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61.

28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.

29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20.^-³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10.^,³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71..

Actigraphy – based on monitoring of activities – has been established as a valid and reliable method to evaluate sleep-wake patterns in children, adolescents and adults³⁵35. Sadeh A, Sharkey KM, Carskadon MA. Activity-based sleep-wake identification: an empirical test of methodological issues. Sleep. 1994;17(3):201-7.^,³⁶36. Acebo C, Sadeh A, Seifer R, Tzischinsky O, Wolfson AR, Hafer A, et al. Estimating sleep patterns with activity monitoring in children and adolescents: how many nights are necessary for reliable measures? Sleep. 1999;22(1):95-103.. Objective methods for hours of sleep quantification in a population-based study are difficult to use, particularly in studies with relatively large samples. Kong et al²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65. used actigraphy in only about 7% of their study sample (138 out of 2,053) and demonstrated a reasonable agreement between actigraphy and adolescents’ self-reports (intra-class correlation coefficient = 0.72, CI 95%: 0.61-0.80).

In the studies included in this review, duration of sleep was measured in two different ways, as a continuous²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61.^,²⁹29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20.^,³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10. or categorical variable²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65.^,³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41.

32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12.^-³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71.. The lack of consensus about the best cut-off point to define short sleep duration makes it difficult to compare different studies, which would become easier if sleep duration were used as a continuous variable.

The present systematic review included a longitudinal study with important limitations and the cross-sectional studies showed associations in different directions. It was not possible to evaluate publication bias, due to the small number of studies identified. In summary, it is still uncertain whether there is an association between hours of sleep and lipid profile in adolescents. Heterogeneity regarding the way sleep hours were classified and analyzed, as well as the use of different lipids analytes may have contributed for the inconsistency of findings. More studies should be conducted on this issue to clarify the nature of this association and the involved biological mechanisms. These future studies must be longitudinal, use sleep duration as a continuous variable and consider the role of potential confounders or effect modifiers. Care must be taken to avoid over-adjustment, including variables that can be intermediary in the association between sleep duration and dyslipidemia such as BMI and food consumption.

Because of its strong association with cardiovascular disease in adults, it is important to identify and modify factors that are associated with lipid profile¹⁵15. Kaneita Y, Uchiyama M, Yoshiike N, Ohida T. Associations of usual sleep duration with serum lipid and lipoprotein levels. Sleep. 2008;31(5):645-52. in adolescents. If short sleep duration is responsible for an unfavorable lipid profile, interventions that improve the quality and duration of sleep may contribute to decrease long-term cardiovascular risk.

Acknowledgments

We would like to thank Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro (FAPERJ) for providing a doctoral fellowship to GAA (process nº E26/100.332/2013). KVB (process nº 303594/2009-8) and MS process nº 302877/2009-6) were partially supported by CNPq.

Sources of Funding

There were no external funding sources for this study.
Study Association

This article is part of the thesis of Doctoral submitted by Gabriela de Azevedo Abreu, from Universidade Federal do Rio de Janeiro.

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³¹
Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41.
³²
Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12.
³³
Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71.
³⁴
Wolfson AR, Carskadon MA, Acebo C, Seifer R, Fallone G, Labyak SE, et al. Evidence for the validity of a sleep habits survey for adolescents. Sleep. 2003;26(2):213-6.
³⁵
Sadeh A, Sharkey KM, Carskadon MA. Activity-based sleep-wake identification: an empirical test of methodological issues. Sleep. 1994;17(3):201-7.
³⁶
Acebo C, Sadeh A, Seifer R, Tzischinsky O, Wolfson AR, Hafer A, et al. Estimating sleep patterns with activity monitoring in children and adolescents: how many nights are necessary for reliable measures? Sleep. 1999;22(1):95-103.
³⁷
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³⁸
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Publication Dates

Publication in this collection
25 Sept 2015
Date of issue
Oct 2015

History

Received
18 Jan 2015
Reviewed
29 June 2015
Accepted
01 July 2015

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Sources of Funding

There were no external funding sources for this study.

[2] Study Association

This article is part of the thesis of Doctoral submitted by Gabriela de Azevedo Abreu, from Universidade Federal do Rio de Janeiro.

Reference/ Country	Study design/ Collection date	Study population	Age	Method for obtaining hours of sleep	Exposure classification (hours of sleep)	Method for lipid profile evaluation	Outcome (alterations of lipids)
Gangwisch et al.²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61., 2010/ United States	Longitudinal	Students, with national representativeness n = 14,257	11-21 years boys ≅ 15.8 years old	Questionnaire	Continuous	Questionnaire/ "Has any doctor ever (between the 1st and the 3rd wave) said you have high cholesterol?"	Dichotomous variable
	Wave I: 1994-95
	Wave II: 1996
	Wave III 2001-02	48.7% male	girls ≅ 15.9 years old				Yes/No
Kong et al²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65., 2011/ Hong Kong	Cross-sectional/ February 2007 -April 2008	Students^* * number of adolescents evaluated; total number of individuals evaluated in the study is 2,053, including children and adolescents; n = 1,274	12-20 years old^† † does not provide average age data or distribution by gender only for the adolescents’ group;	Questionnaire⁷7. Chen MY, Wang EK, Jeng YJ. Adequate sleep among adolescents is positively associated with health status and health-related behaviors. BMC Public Health. 2006;6:59-66.	<6.5h: 20%	Blood collection (TC, TG, HDL, LDL cholesterol)	Hypercholesterolemia
							TC ≥ 5.2 mmol/L
							LDL ≥ 2.6 mmol/L
				Actigraphy in sub-sample (n = 138)	6.5-8h: 40%		HDL <1.0 mmol/L
				Actigraphy in sub-sample (n = 138)	>8h: 20%	Comparison of extreme quintiles	TG ≥ 1.7 mmol/L
Narang et al²⁹29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20., 2012/ Canada	Cross-sectional/ 2009-2010	Student n = 3,372 48.9% male	≅ 14.6 years old^‡ ‡ does not provide age group;	Questionnaire³⁷37. Buysse DJ, Reynolds CF, Monk TH, Berman SR, Kupfer DJ. The Pittsburgh Sleep Quality Index: a new instrument for psychiatric practice and research. Psychiatry Res. 1989;28(2):193-213.^,³⁸38. Perry CL, Sellers DE, Johnson C, Pedersen S, Bachman KJ, Parcel GS, et al. The Child and Adolescent Trial for Cardiovascular Health (CATCH): intervention, implementation, and feasibility for elementary schools in the United States. Health Educ Behav. 1997;24(6):716-35.	Continuous	Capillary blood collection without fasting (TC and HDL cholesterol)	TC
							Borderline: 4.4-5.1 mmol/L:
							High: ≥ 5.2 mmol/L
					Quartiles		Non-HDL-cholesterol^§ § non-HDL cholesterol corresponds to total cholesterol minus HDL cholesterol;
							Borderline: > 3.10 to 3.75 mmol/L
							High: > 3.75 mmol/L
Azadbakht et al³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41., 2013/ Iran	Cross-sectional Data from CASPIAN III^// // CASPIAN III – Childhood and Adolescence Surveillance and Prevention of Adult Non-communicable disease.	Students n = 5,528	≅ 14.69 (2.45) years old boys	Questionnaire	< 5h	Blood collection (TC, TG and LDL)	Abnormal serum lipids were defined as TC, LDL-C and or TG higher than the level corresponding to the age and gender-specific 95th percentile³⁹39. Lipid Research Clinics. Population studies data book. Volume 1. NIH Publication No.80-1527. Washington, DC; US Department of Health and Human Services; 1980.
			≅ 14.7 (2.38) years old girls		5 to 8h
			≅ 14.7 (2.38) years old girls		> 8h
Berentzen et al³²32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12., 2014/ Netherlands	Cross-sectional	General population n = 1,481	Mean age at completion of the questionnaire 11.4 (± 0.3) years	Questionnaire	7.5-9.5 h	Blood collection (TC and HDL cholesterol)	Continuous variable (mM)
		49% male	Mean age at the moment of medical examination 12.7 (± 0.4) years		10-10.5 h (ref. cat.)
		49% male			11-12.5 h
Rey-Lopez et al³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10., 2014/ Greece, Germany, Belgium, France, Hungary, Italy, Sweden, Austria, Spain	Cross-sectional/ 2006-2007	Students n = 699	≅ 14.8 years old	Questionnaire	Continuous variable	Blood collection (TG, TC and HDL cholesterol)	Continuous variable (mg/dL)
	Cross-sectional/ 2006-2007	52% male	≅ 14.8 years old	Questionnaire	Continuous variable	Blood collection (TG, TC and HDL cholesterol)	Continuous variable (mg/dL)
Lee et al, 2014/ Republic of Korea³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71.	Cross-sectional/ 2007-2008	General population n = 1,187	≅ 15 years old	Questionnaire	≤ 5h	Blood collection (TG and HDL cholesterol)	Continuous variable (mg/dL)
		53% male			6-7h
					8-9h (ref. cat.)
					≥ 10h

Study	Kong et al²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65., 2011/ Hong Kong	Narang et al²⁹29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20., 2012/ Canada	Azadbakht et al³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41., 2013/ Iran	Berentzen et al³²32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12., 2014/ Netherlands	Rey-López et al³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10., 2014/ Greece, Germany, Belgium, France, Hungary, Italy, Sweden, Austria, Spain	Lee et al³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71., 2014/ Republic of Korea	Gangwisch et al²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61., 2010/ United States
Sample representativeness	0	0	1	0	0	1	0
Definition of presenting condition	1	1	1	1	1	1	0
Evaluation of exposure	1	0	0	0	0	0	0
Evaluation of outcome	2	1	2	2	2	2	0
Nonresponse rate	0	0	0	0	0	0	0
Representativeness of the exposed cohort	0	0	0	0	0	0	1
Demonstration that outcome of interest was not present at start of study	0	0	0	0	0	0	0
Comparability of cohorts	0	0	0	0	0	0	1
Assessment of outcome	0	0	0	0	0	0	0
Was follow-up long enough for outcomes to occur	0	0	0	0	0	0	1
Adequacy of follow up of cohorts	0	0	0	0	0	0	1
Total	4/6	2/6	4/6	3/6	3/6	3/6	4/9

		Total	Male		Female
Total cholesterol
Gangwisch et al²⁷27. Gangwisch JE, Malaspina D, Babiss LA, Opler MG, Posner K, Shen S, et al. Short sleep duration as a risk factor for hypercholesterolemia: analyses of the National Longitudinal Study of Adolescent Health. Sleep. 2010;33(7):956-61., 2010	OR (CI 95%)		OR (CI 95%)		OR (CI 95%)	Age/ gender/ race/ ethnic group/ alcohol/ smoke/ physical activity/ inactivity/ stress/ body weight
	OR (CI 95%)		Each hour: 0.91		Each hour: 0.85
	Each hour: 0.87 (0.79-0.96)		(0.79-1.05)		(0.75-0.96)
Kong et al²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65., 2011	β^* * β regression coefficient of the multiple regression model to compare groups with the largest and smallest (reference) quintile of the lipid variables in relation to hours of sleep (group with 20% of individual with 20% of individual with longer sleep duration.); = -0.160		---		---	Age/ sex/ BMI/ waist perimeter/ Tanner stages (2-3 and 4-5)
	(p-value = 0.023)		---		---	Age/ sex/ BMI/ waist perimeter/ Tanner stages (2-3 and 4-5)
Azadbakht et al³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41., 2013	---		OR (CI 95%)		OR (CI 95%)	Age/ socioeconomic status/ parents' level of education/ family history of chronic disease/ sedentary lifestyle/ BMI
			<5h = 1		< 5h = 1
			5–8h = 4.00 (0.54–29.94)		5–8h = 1.07 (0.31–3.73)
			> 8h = 5.63 (0.76–41.56)		>8h = 1.14 (0.33–3.85)
Berentzen et al³²32. Berentzen NE, Smit HA, Bekkers MB, Brunekreef B, Koppelman GH, De Jongste JC, et al. Time in bed, sleep quality and associations with cardiometabolic markers in children: the Prevention and Incidence of Asthma and Mite Allergy birth cohort study. J Sleep Res. 2014;23(1):3-12., 2014	---		β (CI 95%)		β (CI 95%)	Age at completion of the questionnaire/ age at medical examination/ height/ maternal level of education/ puberty and screen time
			7.5–9.5 h = -0.15		7.5–9.5 h = -0.01
			(-0.35; 0.04)		(-0.22; 0.21)
			10–10.5 h =1		10–10.5 h = 1
			11–12.5 h = -0.06		11–12.5 h = -0.06
			(-0.17; 0.05)		(-0.16; 0.05)
LDL cholesterol
Kong et al²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65., 2011		β^* * β regression coefficient of the multiple regression model to compare groups with the largest and smallest (reference) quintile of the lipid variables in relation to hours of sleep (group with 20% of individual with 20% of individual with longer sleep duration.); = -0.122	---	---
		(p-value = 0.042)	---	---
Azadbakht et al³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41., 2013		---	OR (95%CI)	OR (95%CI)
			< 5 h = 1	< 5 h = 1
			5–8 h = 1.04 (0.30-3.61)	5–8 h = 1.36 (0.26–5.05)
			>8 h = 0.97 (0.28–3.30)	>8 h = 0.76 (0.20–2.89)
HDL cholesterol
Kong et al²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65., 201		β^* * β regression coefficient of the multiple regression model to compare groups with the largest and smallest (reference) quintile of the lipid variables in relation to hours of sleep (group with 20% of individual with 20% of individual with longer sleep duration.); = -0.056	---	---
		(p-value = 0.061)	---	---
Berentzen et al³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41., 2014		---	β (95% CI)	β(95% CI)
			7.5–9.5 h = 0.03	7.5–9.5 h = 0.07
			(-0.07; 0.12) 1	(-0.03; 0.17)
			10–10.5 h = 1	10–10.5 h = 1
			11–12.5 h = 0.02	11–12.5 h = <0.01
			(-0.04; 0.07)	(-0.05; 0.05)
Lee et al³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71., 2014		OR (95%CI)		---
		≤ 5 h = 0.79 (0.40 - 1.53)
		6-7 h = 0.86 (0.50 - 1.49)	---
		8-9 h = 1
		≥ 10 h = 1.03 (0.44 - 2.40)
TG
Kong et al²⁸28. Kong AP, Wing YK, Choi KC, Li AM, Ko GT, Ma RC, et al. Associations of sleep duration with obesity and serum lipid profile in children and adolescents. Sleep Med. 2011;12(7):659-65., 2011		β^* * β regression coefficient of the multiple regression model to compare groups with the largest and smallest (reference) quintile of the lipid variables in relation to hours of sleep (group with 20% of individual with 20% of individual with longer sleep duration.); = 0.060	---	---
		(p = 0.115)	---	---
Azadbakht et al³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41., 2013		---	OR (95%CI)	OR (95%CI)
			< 5 h = 1	< 5 h = 1
			5–8 h = 1.09 (0.41–2.92)	5–8 h = 0.53 (0.22–1.30)
			> 8 h = 1.16 (0.44–3.09)	> 8 h = 0.53 (0.22–1.30)
Rey-López et al³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10., 2014	β (95%CI)		---		---	Age/ gender/ socioeconomic status/ physical activity
	School days: 0.26
	(-2.57; 3.09)
	Weekends: 0.69
	(-1.50; 2.88)
Lee et al³³33. Lee JA, Park HS. Relation between sleep duration, overweight, and metabolic syndrome in Korean adolescents. Nutr Metab Cardiovasc Dis. 2014;24(1):65-71., 2014	OR (95%CI)		---		---	Age/ gender/ household income/ caloric intake/ physical activity
	≤ 5 h= 1.05 (0.55 - 2.00)
	6-7 h= 1.20 (0.79 - 1.83)
	8-9 h= 1
	≥ 10 h = 2.17 (1.14 - 4.13)
Non-HDL^† † non-HDL cholesterol corresponds to total cholesterol minus HDL cholesterol.
Narang et al²⁹29. Narang I, Manlhiot C, Davies-Shaw J, Gibson D, Chahal N, Stearne K, et al. Sleep disturbance and cardiovascular risk in adolescents. CMAJ. 2012;184(17):E913-20., 2012	OR (95%CI)		---		---	Waist perimeter/nutrition/physical activity/sex/ family history of premature cardiovascular disease in first degree relatives/sleep disturbance score
	Each hour
	1.03 (0.93-1.13)
	First quartile (reference) x last quartile
	0.92 (0.70-1.22)
TC/HDL-c
Rey-López et al³⁰30. Rey-Lopez JP, de Carvalho HB, de Moraes AC, Ruiz JR, Sjostrom M, Marcos A, et al. Sleep time and cardiovascular risk factors in adolescents: The HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) study. Sleep Med. 2014;15(1):104-10., 2014		β (95%CI)	---	---
		School days: -0.001 (-0.05; 0.05)
		Weekends: 0.009 (-0.03; 0.05)
Berentzen et al³¹31. Azadbakht L, Kelishadi R, Khodarahmi M, Qorbani M, Heshmat R, Motlagh ME, et al. The association of sleep duration and cardiometabolic risk factors in a national sample of children and adolescents: The CASPIAN III Study. Nutrition. 2013;29(9):1133-41., 2014		---	β(95% CI)	β(95% CI)
			7.5–9.5 h = -0.22 (-0.51; 0.08)	7.5–9.5 h = -0.18 (-0.44; 0.08)
			10–10.5 h = 1	10–10.5 h = 1
			11–12.5 h = -0.14 (-0.31; 0.02)	11–12.5 h = -0.04 (-0.17; 0.09)

Brasil

Brasil

A Systematic Review on Sleep Duration and Dyslipidemia in Adolescents: Understanding Inconsistencies

Introduction

Methods

Results

Discussion

Acknowledgments

References

Publication Dates

History

Pubmed	(sleep[Title/Abstract] AND (adoles OR teen* OR student* OR youth OR young[Title/Abstract]) AND (lipid* OR lipemia* OR cholesterol OR HDL OR LDL OR VLDL OR triglyceride* OR lipoprotein* OR hypercholesterolemia* OR hypercholesteremia* OR dyslipidemia* OR dyslipoproteinemia* OR hyperlipidemia* OR hyperlipemia* OR "high density lipoprotein cholesterol" OR "low density lipoprotein cholesterol"[Title/Abstract]))
Lilacs	sleep$ and (adoles$ OR teen$ OR student$ OR youth OR young) and (lipid$ OR lipemia$ OR cholesterol OR HDL OR LDL OR VLDL OR triglyceride$ OR lipoprotein$ OR hypercholesterolemia$ OR hypercholesteremia$ OR dyslipidemia$ OR dyslipoproteinemia$ OR hyperlipidemia$ OR hyperlipemia$ OR "high density lipoprotein cholesterol" OR "low density lipoprotein cholesterol")
Adolec	sleep$ [Words] and adoles$ OR teen$ OR student$ OR youth OR young [Words] and lipid$ OR lipemia$ OR cholesterol OR HDL OR LDL OR VLDL OR triglyceride$ OR lipoprotein$ OR hypercholesterolemia$ OR hypercholesteremia$ OR dyslipidemia$ OR dyslipoproteinemia$ OR hyperlipidemia$ OR hyperlipemia$ OR "high density lipoprotein cholesterol" OR "low density lipoprotein cholesterol" [Words]
Web of Science	(Topic(sleep) AND Topic(adoles OR teen* OR student* OR youth OR young) AND Topic(lipid* OR lipemia* OR cholesterol OR hdl OR ldl OR vldl OR triglyceride* OR lipoprotein* OR hypercholesterolemia* OR hypercholesteremia* OR dyslipidemia* OR dyslipoproteinemia* OR hyperlipidemia* OR hyperlipemia* OR "high density lipoprotein cholesterol" OR "low density lipoprotein cholesterol"))
Scopus	(TITLE-ABS-KEY(sleep) AND TITLE-ABS-KEY(adoles OR teen* OR student* OR youth OR young) AND TITLE-ABS-KEY(lipid* OR lipemia* OR cholesterol OR HDL OR LDL OR VLDL OR triglyceride* OR lipoprotein* OR hypercholesterolemia* OR hypercholesteremia* OR dyslipidemia* OR dyslipoproteinemia* OR hyperlipidemia* OR hyperlipemia* OR "high density lipoprotein cholesterol" OR "low density lipoprotein cholesterol"))