Skip to main content
BMC Public Health logoLink to BMC Public Health
. 2019 Feb 14;19:191. doi: 10.1186/s12889-019-6521-y

Sibship, physical activity, and sedentary behavior: a longitudinal, observational study among Mexican-heritage sibling dyads

Kelly R Ylitalo 1,, Christina N Bridges 1, Mariela Gutierrez 1, Joseph R Sharkey 2, M Renée Umstattd Meyer 1
PMCID: PMC6376696  PMID: 30764791

Abstract

Background

Shared genetic and environmental factors suggest that family relationships are important predictors of obesity-related behaviors, yet little is known about how siblings influence physical activity and sedentary behaviors. This study examined physical activity and sedentary behavior between sibling dyads across summer and fall time points and determined if birth order and gender modify the relationship between sibling behaviors.

Methods

Mexican-heritage families residing in colonias along the United States-Mexico border were recruited using promotoras de salud to participate in summer and school year surveys. Eighty-seven sibling dyads had complete data for the physical activity sub-study: 21 older brother-younger brother, 21 older brother-younger sister, 23 older sister-younger brother, and 22 older sister-younger sister dyads. Physical activity and sedentary behavior were measured using a validated 7-day recall instrument to create summary measures of weekly active, moderate-to-vigorous physical activity (MVPA) metabolic equivalents (MET), sitting, and screen time minutes. We used linear regression analyses to examine changes over time and the association between older and younger sibling behavior.

Results

During summer, older siblings (mean age = 11.2 years) reported 1069 active minutes and 1244 sitting minutes per week; younger siblings (mean age = 8.3 years) reported 1201 active minutes and 1368 sitting minutes per week. Younger brothers reported fewer active minutes (mean = − 459.6; p = 0.01) and fewer MVPA MET-minutes (mean = − 2261.7; p = 0.02) of physical activity during the fall. Within all 87 dyads, older sibling physical activity was significantly associated with younger sibling active minutes (B = 0.45;p = 0.004) and MET-minutes (B = 0.45;p = 0.003) during summer but not fall; older sibling sedentary behavior was significantly associated with younger sibling sitting (B = 0.23;p = 0.01) and screen time minutes (B = 0.23;p = 0.004) during fall but not summer. After stratifying by gender dyad groups, younger brother behavior was strongly associated with older brother behavior at both time points.

Conclusion

Younger siblings appear to emulate the physical activity behaviors of their older siblings during non-school summer months and sedentary behaviors of older siblings during school-time fall months, especially older brother-younger brother dyads. Family-based interventions to increase physical activity and decrease sedentary behavior are growing in popularity, but more work is needed to understand the role of sibling influences.

Keywords: Physical activity, Sedentary behavior, Sibling dyads, Mexican-heritage siblings

Background

Siblings are our first friends in life. Almost 80% of adults in the United States have some kind of sibling [1], and these peer relationships often represent some of the longest-lasting and most influential relationships throughout the life course. Shared genetic, environmental, social, and behavioral factors within families, and sibships in particular, suggest that these relationships are important considerations for health and obesity-related research. For example, children with one overweight parent are more likely to be overweight compared to children of normal-weight parents [2], only children are more likely to be obese than those with siblings [3], and younger siblings of obese older siblings are five times more likely to be obese even after accounting for parental obesity [4].

A growing body of physical activity literature has focused on family-based measurement and intervention. For example, within parent-child dyads, reciprocal encouragement is positively correlated with co-participation in physical activity [5] and parenting strategies such as reinforcement and limit setting can promote physical activity and reduce sedentary time among adolescents [6]. However, little is known about physical activity and sedentary behaviors within sibships, who arguably share more social similarities than parent-child dyads.

Two competing theories may explain the relationship between sibling physical activity and sedentary behaviors. The social cognitive theory posits that younger siblings emulate the behaviors of the older siblings [7], which suggests a positive relationship between physical activity and sedentary behavior would be observed in comparisons of younger and older siblings. Conversely, the de-identification theory posits that younger siblings attempt to differentiate themselves from their older siblings [8], which suggests an inverse relationship between younger and older sibling behavior comparisons. Results on physical activity within adolescent sibships are mixed and limited [9, 10], and it is unclear how the size, gender, and age composition of the sibship may influence the strength and direction of physical activity and sedentary behavior concordance.

Mexican-heritage families represent an important opportunity to evaluate physical activity among sibships because they tend to report high levels of familism and siblings are encouraged to support and value one another [11]. However, Mexican-heritage families living along the Texas-Mexico border also have high rates of obesity [12] and engage in less physical activity and more sedentary behavior than their non-Hispanic white counterparts [13], which means they are a priority population for health promotion efforts. The primary purpose of this study was to compare physical activity and sedentary behavior between older and younger siblings within Mexican-heritage sibling dyads, across school year and non-school year time points, and determine if the gender composition of sibling dyads modified the relationship between older and younger sibling behaviors.

Methods

Design

Mexican-heritage families residing in colonias (unregulated settlements with informal housing) [14] in Hidalgo County, Texas along the United States-Mexico border were recruited by promotoras de salud. Promotora-researchers are trained and/or certified community health workers employed in Hispanic and Latina/o communities who received additional training in research methodologies [15]. For this study, eligible households had two sibling children between 5 and 14 years of age, one of which was between 7 and 11 years of age, both residing in the household; the mother of the siblings resided in the home; and both children and mothers spoke Spanish. Youth participants and their mothers were asked to enroll in a longitudinal, observational study and complete at-home surveys delivered once during the summer (June–July; non-school year) and once during the fall (August–December; during the school year) of a traditional school year. Surveys were interviewer-administered to mothers and children independently by promotora-researchers. All surveys were translated using a translation-back-translation method and administered in Spanish as was the preferred language within each home.

Measures

Youth physical activity and sedentary behaviors were assessed using a validated 7-day recall instrument with pictures of physical and sedentary activities [16]. Youth were asked whether they had participated in each of the behaviors and for how many days and minutes they performed each activity. Original scale development indicates child and parent-proxy report were similar and demonstrated a significant correlation between the child and parent report (rho = 0.44, p < 0.05) [16]. The Compendium of Metabolic Equivalents for children [17] was used to categorize physical activity as light (1.6–2.9 metabolic equivalent units [METs]), moderate (3–6 METs), and vigorous activities (> 6.0 METs) [18]. Created summary measures for physical activity behaviors included weekly minutes of activity and weekly moderate-to-vigorous physical activity (MVPA) MET-minutes. Created summary measures for sedentary behaviors included weekly minutes of sitting time and weekly minutes of screen time, defined as sitting time spent using an electronic device such as television viewing, videogames, or texting.

Other sociodemographic measures included youth age, gender, and nativity (United States or Mexico). Mothers were asked questions about age, nativity, educational attainment (in total years), and marital status (not married, married, or living with a partner but not married).

Statistical analysis

Descriptive statistics including frequencies, proportions, and means were calculated for all sociodemographic variables for both mothers and children. Winsorizing was utilized to correct outliers common with self-reported physical activity data by top-coding the top 10% with the 90th percentile, consistent with other investigations [19]. For example, before winsorizing, older children reported 1350 mean active minutes per week during summer; after winsorizing, active minutes per week were reduced to a mean of 1069 min, but median active minutes per week were not affected by winsorizing. We report the winsorized data in all results and tables. Physical activity, measured with active minutes per week and MET-minutes per week, and sedentary behavior, measured with sitting minutes per week and minutes of screen time per week, was reported for both summer and fall time points. We tested within-child changes over time between summer and fall time periods using Student’s t tests. We compared older sibling behavior and younger sibling behavior within all 87 dyads using linear regression, and then stratified the within-dyad comparisons by birth order-gender groups (older brother-younger brother, older brother-younger sister, older sister-younger brother, or older sister-younger sister). We report the adjusted R2 from regression models to describe the proportion of variance in younger sibling behavior that is explained by older sibling behavior. Data management and analyses were conducted with SAS v9.4 (SAS Institute Inc., Cary, NC) and statistical significance was two-sided at the α = 0.05 level.

Results

In total, 174 children (87 sibling pairs or dyads) contributed complete data: 21 older brother-younger brother (24.1%), 21 older brother-younger sister (24.1%), 23 older sister-younger brother (26.4%), and 22 older sister-younger sister dyads (25.3%). Many older siblings (80.7%) and younger siblings (93.1%) were born in the United States (Table 1), while only 10.3% of mothers were born in the United States (Table 2). Over two-thirds of mothers completed 9 or fewer years of education, and approximately half were married.

Table 1.

Demographic characteristics of children by sibling birth order (n = 174)

Older Sibling (n = 87) Younger Sibling (n = 87)
n (%) years (std) n (%) years (std)
Age 11.2 (1.6) 8.3 (1.6)
Gender
 Male 42 (48.3) 44 (50.6)
 Female 45 (51.7) 43 (49.4)
Nativity
 United States 70 (80.5) 81 (93.1)
 Mexico 17 (19.5) 6 (6.9)

Table 2.

Demographic characteristics of mothers (n = 87)

n (%) years (std)
Age 35.5 (7.0)
Nativity
 United States 9 (10.3)
 Mexico 78 (89.7)
Education
  < 7 years 28 (32.2)
 7 to 9 years 32 (36.8)
 10 to 11 years 13 (14.9)
 12 or more years 14 (16.1)
Marital Status
 Not married 15 (17.2)
 Married 48 (55.2)
 Partner, not married 24 (27.6)

During summer, older siblings (mean age = 11.2 years) reported, on average, 1069 active minutes and 1244 sitting minutes per week; younger siblings (mean age = 8.3 years) reported, on average, 1201 active minutes and 1368 sitting minutes per week. During fall, older siblings reported 927 mean active minutes and 1171 mean sitting minutes per week; younger siblings reported 909 mean active minutes and 1171 mean sitting minutes per week. Active minutes and MET-minutes did not differ between summer and fall time periods for older brothers, older sisters, or younger sisters, but younger brothers reported significantly fewer active minutes (mean = − 459.6; p = 0.01) and significantly fewer MVPA MET-minutes (mean = − 2261.7; p = 0.02) of physical activity per week during the fall than during summer (Table 3).

Table 3.

Self-reported weekly physical activity and sedentary behavior by time period, sibling order, and gender

Older sibling Younger sibling
Brother (n = 42) Sister (n = 45) Brother (n = 44) Sister (n = 43)
Active minutes, mean (std)
 Summer 1256.1 (724.0) 895.0 (506.7) 1546.4 (1055.6) 848.0 (697.8)
 Fall 1086.6 (527.9) 777.4 (568.9) 1086.9 (749.7) 726.9 (541.5)
 Δ −169.5 (847.6) −117.6 (835.5) −459.6 (1075.2) − 121.1 (827.9)
P for change 0.20 0.35 0.01 0.34
MVPA MET-minutes, mean (std)
 Summer 6570.1 (3914.0) 4405.1 (3213.3) 8092.5 (5847.2) 4402.8 (4018.3)
 Fall 6217.7 (3073.2) 3864.1 (3114.8) 5830.8 (3897.3) 3795.1 (2956.4)
 Δ − 352.4 (4727.5) −541.0 (4558.9) −2261.7 (5981.0) − 607.8 (4628.1)
P for change 0.63 0.43 0.02 0.39
Sitting minutes, mean (std)
 Summer 1325.0 (1043.1) 1168.8 (701.9) 1450.0 (1535.8) 1285.2 (1577.7)
 Fall 1368.6 (1043.3) 987.9 (585.7) 1138.9 (682.6) 1203.5 (732.3)
 Δ 43.6 (1090.2) − 180.9 (938.8) −311.1 (1756.0) −81.7 (1682.4)
P for change 0.80 0.20 0.25 0.75
Screen time minutes, mean (std)
 Summer 1040.0 (859.6) 893.2 (652.0) 1048.0 (779.7) 828.4 (676.1)
 Fall 959.3 (871.0) 543.9 (337.3) 641.0 (419.1) 759.0 (598.2)
 Δ −80.7 (919.2) − 358.3 (752.6) − 407.0 (891.8) −69.4 (791.3)
P for change 0.57 < 0.001 0.004 0.57

Notes: Active minutes were defined as a 7-day total of moderate and vigorous physical activities (MVPA). The Compendium of Metabolic Equivalents (MET) for children was used to calculate MVPA MET-minutes, with moderate physical activity defined as 3–6 metabolic equivalents and vigorous physical activity defined as > 6.0 metabolic equivalents. Sitting minutes were defined as a 7-day total of sedentary activities such as homework or television viewing, and screen time minutes were a subset of sitting minutes that involved the use of media like television viewing or texting

Within all 87 dyads, older sibling active minutes and MET-minutes were significant predictors of younger sibling active minutes (β = 0.44; p = 0.004) and MET-minutes (β = 0.45; p = 0.003), respectively, during summer but not fall; older sibling sitting and screen time minutes were significantly associated with younger sibling sitting (β = 0.23; p = 0.01) and screen time minutes (β = 0.23; p = 0.004), respectively, during fall but not summer (Table 4). After stratifying by gender dyad groups, younger brother behavior was strongly associated with older brother behavior at both time points. During fall, older brother active minutes and MET-minutes were significantly associated with younger brother active minutes (β = 0.68; p = 0.02; Adjusted R2 = 0.22) and MET-minutes (β = 0.69; p = 0.02; Adjusted R2 = 0.22), respectively; during summer, older brother sedentary time spent sitting and screen time minutes were significantly associated with younger brother sitting minutes per week (β = 0.31; p = 0.004; Adjusted R2 = 0.32) and screen time minutes per week (β = 0.31; p = 0.02; Adjusted R2 = 0.21), respectively. As shown in Figs. 1 and 2, there were no statistically significant relationships at the α = 0.05 level between older and younger behaviors for older brother-younger sister, older sister-younger brother, or older sister-younger sister groups.

Table 4.

Within-dyad relationships between older sibling and younger sibling physical activity and sedentary behaviors by time period

Younger sibling
Model: Active minutes Model: MET-minutes Model: Sitting minutes Model: Screen time
B (SE) p B (SE) p B (SE) p B (SE) p
Summer Intercept 735.0 (183.5) < 0.001 3801.6 (973.4) < 0.001 913.0 (283.9) 0.002 754.1 (126.0) < 0.001
Older sibling
 Active minutes 0.44 (0.14) 0.004
 MET-minutes 0.45 (0.15) 0.003
 Sitting minutes 0.37 (0.19) 0.05
 Screen time minutes 0.19 (0.10) 0.07
Adjusted R 2 0.09 0.09 0.03 0.03
Fall Intercept 779.1 (139.1) < 0.001 4192.3 (702.1) < 0.001 896.6 (124.0) < 0.001 529.3 (78.4) < 0.001
Older sibling
 Active minutes 0.14 (0.13) 0.28
 MET-minutes 0.13 (0.12) 0.28
 Sitting minutes 0.23 (0.09) 0.01
 Screen time minutes 0.23 (0.08) 0.004
Adjusted R 2 0.002 0.002 0.07 0.08

Notes: Active minutes were defined as a 7-day total of moderate and vigorous physical activities (MVPA). The Compendium of Metabolic Equivalents (MET) for children was used to calculate MVPA MET-minutes, with moderate physical activity defined as 3–6 metabolic equivalents and vigorous physical activity defined as > 6.0 metabolic equivalents. Sitting minutes were defined as a 7-day total of sedentary activities such as homework or television viewing, and screen time minutes were a subset of sitting minutes that involved the use of media like television viewing or texting

Fig. 1.

Fig. 1

Comparison of older and younger sibling sedentary behaviors during summer (non-school) and fall (school). a. Sitting minutes per week during summer. b. Sitting minutes per week during fall. c. Screen time minutes per week during summer. d. Screen time minutes per week during fall

Fig. 2.

Fig. 2

Comparison of older and younger sibling physical activity behaviors during summer (non-school) and fall (school). a. Active minutes per week during summer. b. Active minutes per week during fall. c. Moderate-to-vigorous physical activity (MVPA) metabolic equivalent (MET) minutes per week during summer. d. MVPA MET-minutes per week during fall

Discussion

The purpose of this study was to compare physical activity and sedentary behavior between older and younger siblings within Mexican-heritage sibling dyads across school year and non-school year time points and determine if the gender composition of sibling dyads modified the relationship between older and younger sibling behaviors. During the summer, older siblings reported 1069 mean minutes per week (or approximately 2.5 h per day) of physical activity and 1244 mean minutes per week (or approximately 3.0 h per day) of sitting, while younger siblings reported both more physical activity (1201 mean minutes per week or approximately 2.9 h per day) and more sitting time (1368 mean minutes per week or approximately 3.3 h per day). During fall, slightly fewer minutes of physical activity and sedentary behavior were reported for both older and younger siblings.

The Physical Activity Guidelines for Americans recommend children ages 6 to 17 participate in 60 or more minutes per day in aerobic activity, defined as either moderate- or vigorous-intensity activities such as unstructured active play and school recess activities like running and jumping [20]. Our findings with self-reported data on physical activity minutes per week indicate 82 and 79% (results not shown) of study participants in summer and fall, respectively, were active for at least 420 min per week, which is consistent with national guidelines for 60 min of activity per day. In contrast, national surveillance data indicate approximately 40% of youth and adolescents in the United States meet physical activity guidelines [21].

Older brothers, older sisters, and younger sisters reported more sitting time than physical activity time, and two-thirds of sitting time for all age-gender groups was spent using an electronic device such as television viewing, videogames, or texting. Results from our study appeared to indicate that youth participants reported more sitting time during the summer compared to the fall, although results for summer-to-fall change over time did not reach statistical significance at the α = 0.05 level. These findings are consistent with other work that has reported screen time is one of the largest groupings of sedentary behavior [22]. National survey data from 2015 indicate 8 to 12 year old children, on average, report 4 h of screen time per day [23]. Although the United States does not currently have national recommendations regarding sedentary behavior, other countries do have guidelines. The American Academy of Pediatrics recently established a policy statement on media use in children and adolescents that recommends limit setting and acknowledges the delicate daily balance between media use, physical activity, and sleep time [24]. Canada’s 24-h movement guidelines for optimal health benefits for children and youth (5–17 years of age) state that a “healthy 24 hours includes…no more than 2 hours per day of recreational screen time and limited sitting for extended periods” ([25] pg.S319). Although children from lower-income homes have less access to devices like smartphones or tablets, national data indicate children from lower-income homes spend more time using media than children from higher-income homes [23], necessitating targeted sedentary reduction interventions for low-income families.

Younger siblings may emulate the behaviors of their older siblings. Specifically, our findings suggest that younger siblings appear to emulate the physical activity behaviors of their older siblings during non-school summer months and the sedentary behaviors of older siblings during school-time fall months. Few studies have evaluated sibling dyads and physical activity behaviors, and there is disagreement in the current literature about how sibling relationships effect physical activity levels between the siblings. One study found that older siblings participate in more physical activity than younger siblings [9], while another stated that older siblings are less physically active than their younger counterparts [10]. However, there does appear to be some consensus about the effect of gender. Sibling dyads that include a male sibling are more physically active, especially among brother-brother pairs [10] or among pairs with an older brother [26]. In our study, after stratifying the dyad comparisons by gender composition, the relationship between older and younger sibling behavior was particularly robust for older brother-younger brother dyads. Over 20% of the variance in younger brother activity during the fall and in younger brother sedentary behavior during the summer was explained by the respective behavior of the older brother. Our variance estimates are consistent with other work on the influence of male siblings [27]. These findings also support the social cognitive theory, suggesting that younger brothers may emulate the behaviors of their older brothers.

Family roles and cultural values may influence physical activity among sibships [9, 10, 26]. Mexican-heritage families report high levels of familism, or normative beliefs that the family is an important source of authority, support, guidance, and obligation [11]. Gender-typed traits like machismo (toughness, honor, responsibility) for boys and marianismo (collectivism, nurturance, passiveness) for girls is common in traditional Mexican culture [28, 29] and inversely related to other high-risk behavior like truancy [30]. Traditional gender-typed values for boys may provide more freedom outside the home and thus more opportunities for physically active outdoor play. In our study, at both time points, female children reported fewer active minutes and more sitting minutes than male children, which is consistent with gender-typed traits from Mexican-heritage family values. Our findings that female children are less physically active and more sedentary are also consistent with national surveillance on physical activity [21], suggesting culturally-appropriate physical activity interventions to increase physical activity and decrease sedentary time could be particularly useful for female children.

Other work has also highlighted larger social peer networks, such as friendships and peer groups. One study on adolescents’ sex-typed friendship experiences suggests older female siblings and her friends model interpersonal skills and emotional intimacy for younger siblings, while older male siblings and his friends model masculine leisure interests for younger siblings [31]. This work by Updegraff et al. [31] is notable because sibling dyads and a close friend of each sibling were evaluated with respect to intimacy, control, and personal qualities like interest in traditionally masculine and feminine leisure activities. Girls tended to rate relationships higher in intimacy, while boys reported more controlling behavior [31]. Findings suggested sex-typed friendship experiences were dependent upon the sex constellation of the sibling dyad. Younger sisters with older brothers appeared to value intimacy and younger brothers with older sisters appeared to value masculine interests [31] – both results supporting the de-identification theory. However, having a brother was also linked to a sister’s use of control strategies [31], supporting the social cognitive theory. Within the context of the present study, our findings indicate younger brothers emulate the physical activity patterns of their older brothers during summer months and the sedentary behaviors of their older brothers during the school year, supporting a social cognitive theory of sibling interaction. We did not observe a relationship between older sister-younger brother dyads or older brother-younger sister dyads, which is in keeping with previous work supporting the de-identification theory of interaction between gender discordant sibling pairs. Notably, we also did not observe a relationship – either positive or negative – between older sister and younger sister behaviors. These findings were surprising considering our findings for brothers, which seemed to support the social cognitive theory for gender concordant pairings. More work is needed to understand the role of sisters in Mexican-heritage families.

This study has several limitations. The gender composition of the dyads – older brother-younger brother, older brother-younger sister, older sister-younger brother, and older sister-younger sister – was evenly distributed and allowed us to examine birth order and gender while controlling age differences between older and younger siblings (due to eligibility criteria); however, a relatively small sample size of 174 children, or 87 sibling dyads, limited our ability to control for potential confounding variables in our regression models, which may have influenced our findings. For example, we did not examine the home environment, positions of the sibling dyads within a potentially larger sibship, or sibling intimacy. Although eligible families were similar in terms of geographic residence and ethnicity, the presence or absence of other family members, including additional older or younger siblings, may differ within our study population. Furthermore, other work has shown the older brother-younger sister dyad is the least intimate of sibling gender groups [32]. Future work may wish to consider sibling intimacy, conflict, or quality, in addition to the home environment and values such as familism, as factors that can influence the effect of older sibling behavior on younger sibling behavior [26]. We used a validated 7-day recall instrument with pictures to measure physical activity among child participants [16], but self-reported data is subject to recall bias and may be over-reported. Although we used winsorizing to correct for potential outliers and over-reporting, this method may mask the distribution of true behavior, which is not known without device-based (e.g., accelerometer) physical activity assessments.

Nevertheless, our study has notable strengths, including a within-family design and surveys during both an in-school and out-of-school time point. Siblings are the most frequent out-of-school companions for children and adolescents [33], suggesting the timing of school year may affect the strength of sibling influence on behaviors. In our study, as previously noted, younger siblings appear to emulate the physical activity behaviors of their older siblings during non-school summer months and the sedentary behaviors of older siblings during school-time fall months. More work is needed to replicate these findings longitudinally with a larger sample size. In addition, our ethnically-homogenous sample allowed us to identify unique patterns in behavior that can be used for culturally-appropriate intervention development among Mexican-heritage families. Hispanic populations, the majority of whom are Mexican, are the largest and fastest growing race/ethnic minority group in the United States [34], so understanding the health behavior patterns among families of this underserved population is an important direction for obesity- and chronic disease-related epidemiology and intervention research. These results may have broader applications for other low-income families as well, because differential access to health-promoting resources may be mitigated by strong family and sibling bonds [35].

Conclusions

Our findings about sibling physical activity and sedentary behavior contribute to a surprisingly small body of literature on sibling health behaviors. Older brother-younger brother sibling dyad behaviors observed in our study support the importance of modeling, as posited in the social cognitive theory, and also confirm that like other U.S. children, these boys are more active than girls. However, more work is needed to better understand the complex relationships among sibships, gender, birth order, and social influences relating to health behaviors like physical activity and sedentary behavior among Mexican-heritage children. Interventions promoting Mexican-heritage youth physical activity should consider incorporating intervention components that build on cultural strengths like familism, particularly for male youth; provide opportunities for family and sibling engagement; and work to increase opportunities, skill building, meaningful modeling, and self-efficacy for girls.

Acknowledgements

We gratefully acknowledge the participants of this study and the promotora-researchers and other research team members, whose time, effort, and willingness made this project possible. Specifically, we want to acknowledge the time and leadership of promotora-researchers Elva Beltrán and Maria T. Garza, data management by Susannah Barr, Jasmin Sumrall, and Shana Walsh; and translation of materials under the leadership of Luis Gómez.

Funding

This study was supported through the Young Investigator Development Program, Baylor University, Waco, TX (Umstattd Meyer, 2013–2014) and USDA NIFA (#2015–68001-23234).

Availability of data and materials

The dataset analyzed for the current study is not publicly available due to ethical restrictions related to privacy and the consent/assent given by participants at the time of study commencement. An ethically compliant dataset may be made available by the investigators (Sharkey and Umstattd Meyer) on reasonable request and upon approval by the Texas A&M University Institutional Review Board and the Baylor University Institutional Review Board.

Abbreviations

MET

Metabolic equivalent

MVPA

Moderate-to-vigorous physical activity

Authors’ contributions

KRY analyzed and interpreted the data and wrote the manuscript. CB was involved in drafting the manuscript and revised it critically for intellectual content. MG made substantial contributions to the data visualization and revised the manuscript critically for intellectual content. JS was involved in the conception and design of the study, acquisition of the data, and revised the manuscript critically for intellectual content. MRUM made substantial contributions to the conception and design of the study, data acquisition, interpretation of the data, and revised the manuscript critically for intellectual content. All authors read and approved the final manuscript.

Ethics approval and consent to participate

Parental consent and youth assent was received by all youth study participants. The Texas A&M University Institutional Review Board and the Baylor University Institutional Review Board approved the study.

Consent for publication

Not applicable.

Competing interests

The authors declare that they have no competing interests.

Publisher’s Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Contributor Information

Kelly R. Ylitalo, Phone: 254-710-4271, Email: kelly_ylitalo@baylor.edu

Christina N. Bridges, Email: christina_bridges@baylor.edu

Mariela Gutierrez, Email: mariela_gutierrez@baylor.edu.

Joseph R. Sharkey, Email: jrsharkey@sph.tamhsc.edu

M. Renée Umstattd Meyer, Email: renee_umstattd@baylor.edu.

References

  • 1.Leder JM. Brothers and sisters: how they shape our lives. 1. New York: St. Martin’s Press; 1991. [Google Scholar]
  • 2.Dowda M, Ainsworth BE, Addy CL, Saunders R. Environmental influences, physical activity, and weight status in 8-to 16-year-olds. Arch Pediatr Adolesc Med. 2001;155(6):711–717. doi: 10.1001/archpedi.155.6.711. [DOI] [PubMed] [Google Scholar]
  • 3.Hunsberger M, Formisano A, Reisch LA, Bammann K, Moreno L, Henauw SD, Molnar D, Tornaritis M, Veidebaum T, Siani A, Lissner L. Overweight in singletons compared to children with siblings: the IDEFICS study. Nutr Diabetes. 2012;2(12):e56. doi: 10.1038/nutd.2012.28. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 4.Pachucki MC, Lovenheim MF, Harding M. Within-family obesity associations: evaluation of parent, child, and sibling relationships. Am J Prev Med. 2014;47(4):382–391. doi: 10.1016/j.amepre.2014.05.018. [DOI] [PubMed] [Google Scholar]
  • 5.de la Haye K, de Heer HD, Wilkinson AV, Koehly LM. Predictors of parent-child relationships that support physical activity in Mexican-American families. J Behav Med. 2014;37(2):243–244. doi: 10.1007/s10865-012-9471-8. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 6.McClendon ME, Umstattd Meyer MR, Ylitalo KR, Sharkey JR. Physical activity of Mexican-heritage youth during the summer and school-year: the role of parenting strategies. J Community Health. 2017;42(6):1102–1110. doi: 10.1007/s10900-017-0358-z. [DOI] [PubMed] [Google Scholar]
  • 7.Bandura A. Social foundations of thought and action: a social cognitive theory. Englewood cliffs: Prentice-Hall; 1986. [Google Scholar]
  • 8.Schachter FF, Shore E, Feldman-Rotman S, Marquis RE, Campbell S. Sibling deidentification. Dev Psychol. 1976;12(5):418–427. doi: 10.1037/0012-1649.12.5.418. [DOI] [Google Scholar]
  • 9.Duncan SC, Duncan TE, Strycker LA, Chaumeton NR. A multilevel analysis of sibling physical activity. J Sport Exerc Psychol. 2004;26(1):57–68. doi: 10.1123/jsep.26.1.57. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 10.Pereira S, Katzmarzyk PT, Gomes TN, Souza M, Chaves RN, Santos FK, Santos D, Bustamante A, Barreira TV, Hedeker D, Maia JA. Resemblance in physical activity levels: the Portuguese sibling study on growth, fitness, lifestyle, and health. Am J Hum Biol. 2018;30(1):e23061. doi: 10.1002/ajhb.23061. [DOI] [PubMed] [Google Scholar]
  • 11.Marin G, Marin BV. Research with Hispanic populations. Thousand Oaks: Sage Publications; 1991. [Google Scholar]
  • 12.Singh GK, Kogan MD, Van Dyck PC, Siahpush M. Racial/ethnic, socioeconomic, and behavioral determinants of childhood and adolescent obesity in the United States: analyzing independent and joint associations. Ann Epidemiol. 2008;18(9):682–695. doi: 10.1016/j.annepidem.2008.05.001. [DOI] [PubMed] [Google Scholar]
  • 13.Singh GK, Stella MY, Siahpush M, Kogan MD. High levels of physical inactivity and sedentary behaviors among US immigrant children and adolescents. Arch Pediatr Adolesc Med. 2008;162(8):756–763. doi: 10.1001/archpedi.162.8.756. [DOI] [PubMed] [Google Scholar]
  • 14.Ward PM. Colonias and public policy in Texas and Mexico: urbanization by stealth. 1. Austin: University of Texas Press; 1999. [Google Scholar]
  • 15.Kash BA, May ML, Tai-Seale M. Community health worker training and certification programs in the United States: findings from a national survey. Health Policy. 2007;80(1):32–42. doi: 10.1016/j.healthpol.2006.02.010. [DOI] [PubMed] [Google Scholar]
  • 16.Leary JM, Ice C, Cottrell L. Adaptation and cognitive testing of physical activity measures for use with young, school-aged children and their parents. Qual Life Res. 2012;21(10):1815–1828. doi: 10.1007/s11136-011-0095-1. [DOI] [PubMed] [Google Scholar]
  • 17.Ridley K, Ainsworth BE, Olds TS. Development of a compendium of energy expenditures for youth. Int J Behav Nutr Phys Act. 2008;5(1):45. doi: 10.1186/1479-5868-5-45. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 18.Norton K, Norton L, Sadgrove D. Position statement on physical activity and exercise intensity terminology. J Sci Med Sport. 2010;13(5):496–502. doi: 10.1016/j.jsams.2009.09.008. [DOI] [PubMed] [Google Scholar]
  • 19.Bui TV, Blizzard CL, Luong KN, Truong NLV, Tran BQ, Otahal P, Srikanth V, Nelson MR, Au TB, Ha ST, Phung HN, Tran MH, Callisaya M, Gall S. Physical activity in Vietnam: estimates and measurement issues. PLoS One. 2015;10(10):e0140941. doi: 10.1371/journal.pone.0140941. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 20.Physical Activity Guidelines Advisory Committee . Physical activity guidelines advisory committee report. Washington, DC: US Department of Health and Human Services; 2008. pp. A1–H14. [DOI] [PubMed] [Google Scholar]
  • 21.Belcher BR, Berrigan D, Dodd KW, Emken BA, Chou CP, Spruijt-Metz D. Physical activity in US youth: effect of race/ethnicity, age, gender, and weight status. Med Sci Sports Exerc. 2010;42(12):2211–2221. doi: 10.1249/MSS.0b013e3181e1fba9. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 22.Pate RR, Mitchell JA, Byun W, Dowda M. Sedentary behaviour in youth. Br J Sports Med. 2011;45(11):906–913. doi: 10.1136/bjsports-2011-090192. [DOI] [PubMed] [Google Scholar]
  • 23.Rideout VJ. Common sense census: media use by tweens and teens. In: Common sense research. 2015. https://www.commonsensemedia.org/research/the-common-sense-census-media-use-by-tweens-and-teens. Accessed 04 Oct 2018.
  • 24.Hill D, Ameenuddin N, Chassiakos YR, Cross C, Radesky J, Hutchinson J, Boyd R, Mendelson R, Moreno M, Smith J, Swanson WS. Media use in school-aged children and adolescents. Pediatrics. 2016;138(5):e20162592. doi: 10.1542/peds.2016-2592. [DOI] [PubMed] [Google Scholar]
  • 25.Tremblay MS, LeBlanc AG, Janssen I, Kho ME, Hicks A, Murumets K, Colley RC, Duggan M. Canadian sedentary behaviour guidelines for children and youth. Appl Physiol Nutr Metab. 2011;36(1):59–64. doi: 10.1139/H11-012. [DOI] [PubMed] [Google Scholar]
  • 26.Senguttuvan U, Whiteman SD, Jensen AC. Family relationships and adolescents' health attitudes and weight: the understudied role of sibling relationships. Fam Relat. 2014;63(3):384–396. doi: 10.1111/fare.12073. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 27.Raudsepp L, Viira R. Influence of Parents’ and Siblings’ physical activity on activity levels of adolescents. Eur J Phys Educ. 2000;5(2):169–178. doi: 10.1080/1740898000050205. [DOI] [Google Scholar]
  • 28.Mirande A. Hombres y machos: masculinity and Latino culture. Boulder: Westview Press; 1997. [Google Scholar]
  • 29.Gil RM, Vazquez CI. The Maria paradox. New York: Perigree Books; 1996. [Google Scholar]
  • 30.Wheeler LA, Zeiders KH, Updegraff KA, Umana-Taylor AJ, Rodriguez de Jesus SA, Perez-Brena NJ. Mexican-origin youth’s risk behavior from adolescence to young adulthood: the role of familism values. Dev Psychol. 2017;53(1):126–137. doi: 10.1037/dev0000251. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 31.Updegraff KA, McHale SM, Crouter AC. Adolescents’ sex-typed friendship experiences: does having a sister versus a brother matter? Child Dev. 2000;71(6):1597–1610. doi: 10.1111/1467-8624.00251. [DOI] [PubMed] [Google Scholar]
  • 32.Dunn J, Slomkowski C, Beardsall L. Sibling relationships from the preschool period through middle childhood and adolescence. Dev Psychol. 1994;30(3):315–324. doi: 10.1037/0012-1649.30.3.315. [DOI] [PubMed] [Google Scholar]
  • 33.McHale SM, Crouter AC. The family contexts of children’s sibling relationships. In: Bourdy GH, editor. Sibling relationships: their causes and consequences. Norwood: Ablex; 1996. pp. 173–195. [Google Scholar]
  • 34.Flores A. Facts on U.S. Latinos, 2015. In: Hispanic trends. Pew research center. 2017. http://www.pewhispanic.org/2017/09/18/facts-on-u-s-latinos/. Accessed 04 Oct 2018.
  • 35.Milevsky A, Levitt MJ. Sibling support in early adolescence: buffering and compensation across relationships. Eur J Dev Psychol. 2005;2(3):299–320. doi: 10.1080/17405620544000048. [DOI] [Google Scholar]

Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Data Availability Statement

The dataset analyzed for the current study is not publicly available due to ethical restrictions related to privacy and the consent/assent given by participants at the time of study commencement. An ethically compliant dataset may be made available by the investigators (Sharkey and Umstattd Meyer) on reasonable request and upon approval by the Texas A&M University Institutional Review Board and the Baylor University Institutional Review Board.


Articles from BMC Public Health are provided here courtesy of BMC

RESOURCES