Skip to main content

Externalizing behavior in early childhood and body mass index from age 2 to 12 years: longitudinal analyses of a prospective cohort study

Abstract

Background

Some evidence suggests that obesity and behavior problems are related in children, but studies have been conflicting and have rarely included children under age 4. An association between behavior problems in early childhood and risk for obesity could suggest that a common set of factors contribute to both. Our research objectives were to determine the extent to which externalizing behavior in early childhood is related to body mass index (BMI) in early childhood and through age 12, and to evaluate whether these associations differ by sex and race.

Methods

Data from the NICHD Study of Early Child Care and Youth Development were analyzed. Externalizing behaviors at 24 months were assessed by mothers using the Child Behavior Checklist. BMI was calculated from measured height and weight assessed 7 times between age 2 and 12 years. Linear mixed effects models were used to assess associations between 24 month externalizing behavior and BMI from 2 to 12 years, calculate predicted differences in BMI, and evaluate effect modification.

Results

Externalizing behavior at 24 months was associated with a higher BMI at 24 months and through age 12. Results from a linear mixed effects model, controlling for confounding variables and internalizing behavior, predicted a difference in BMI of approximately 3/4 of a unit at 24 months of age comparing children with high levels of externalizing behavior to children with low levels of externalizing behavior. There was some evidence of effect modification by race; among white children, the average BMI difference remained stable through age 12, but it doubled to 1.5 BMI units among children who were black or another race.

Conclusions

Our analyses suggest that externalizing behaviors in early childhood are associated with children's weight status early in childhood and throughout the elementary school years, though the magnitude of the effect is modest.

Peer Review reports

Background

The prevalence of obesity in very young children is high and has increased rapidly in the United States since the 1970 s [1, 2]. Some evidence suggests that obesity is associated with child externalizing behavior problems [3–7], but an association has not been observed in all studies or in children of both sexes [5, 8–11], and there is controversy regarding the magnitude [12] and directionality of any association [4, 5, 11], as well as the age when these associations might first be evident. Externalizing behavior problems are characterized by aggressive, oppositional, disruptive, or inattentive behaviors beyond those that would be expected given a child's age and development [13]. An association between behavior problems in early childhood and risk for obesity could suggest that a common set of factors contribute to both. Accumulating evidence indicates that the pathways in the brain governing appetite and emotion regulation are interrelated and may be impacted by stress [14].

Research has shown that children who experience maltreatment or neglect, bullying, social marginalization, or academic difficulties are more likely to experience externalizing behavior problems [15, 16], and these factors have also been linked to obesity [17–20]. We found, in longitudinal analyses of the Children in the Community cohort, that disruptive behavior disorders identified prior to adolescence were associated with higher levels of relative weight and that these higher levels persisted into adulthood [7]. We also noted that this association appeared to be stronger among African American females [7]. The Children in the Community cohort includes individuals from New York State who were between 9 and 18 years of age in 1983, and their heights and weights were reported rather than measured. The findings from our previous analyses suggested the need to study associations between externalizing behavior and weight status in a diverse cohort observed from an early age, in which height and weight were measured repeatedly throughout childhood. Data collected during the NICHD Study of Early Child Care and Youth Development (SECCYD) provided this opportunity.

Through analyses of longitudinal data collected during the SECCYD, our objectives were to (1) determine the extent to which externalizing behavior in early childhood was related to children's body mass index (BMI) in early childhood and to their BMI trajectory through 12 years of age, (2) evaluate whether these associations differ by child sex and race, and (3) describe the magnitude of expected differences in BMI from age 2 to 12 years relative to children's externalizing behavior in early childhood with and without controlling for concurrent internalizing behavior.

Methods

Study Population

Data were collected during the NICHD Study of Early Child Care and Youth Development http://secc.rti.org. Briefly, the NICHD SECCYD was begun in 1991 with enrollment at 10 sites across the United States of 1,364 families at the birth of their healthy full-term infant. Participants were selected to ensure socioeconomic and ethnic diversity, and based on the mother's work intentions; exclusion criteria included mothers < 18 years, inability of the mother to communicate in English, intention of the family to move outside of the study area within 3 years, or the newborn having obvious disability or requiring a hospital stay of more than 1 week. Children and their families enrolled in the SECCYD have been followed from birth into adolescence through regular assessments that include direct observations and measurements, and personal interviews with parents, children, caregivers, and teachers, using procedures standardized across sites.

Primary hypotheses of the study concerned the influence of non-maternal care on children's developmental outcomes [21]. The study design and details of recruitment have been described in detail elsewhere [21]. Protocols were approved and reviewed annually by the institutional review boards of the participating universities. Data from the SECCYD are available to researchers by application. The Ohio State University has a data-use agreement for analysis of data from the SECCYD.

Body mass index

Children's heights and weights were measured during laboratory visits at 24, 36, and 54 months, and when children were in the 1st, 3rd, 5th, & 6th grades. A standardized protocol was used at all time periods and all sites. From height and weight, body mass index (BMI) was calculated (BMI = weight (kg)/height (m)2). Obesity was defined as a BMI-for-age above the 95th percentile of the Centers for Disease Control and Prevention sex-specific BMI-for-age growth charts [22].

Child externalizing and internalizing behavior

The Child Behavior Checklist (CBCL-2/3) was completed by mothers at their child's 24-month and 36-month laboratory study visit. The CBCL contains 100 items that assess whether the child, currently or in the past 2 months, has exhibited behaviors consistent with emotional or behavioral difficulties [23, 24]. Mothers rated the extent to which each behavior described their child using the following three-level scale: "not true" (coded as 0), "somewhat true" (coded as 1), or "very true" (coded as 2). From these ratings six scales were derived: aggressive behavior (15 items), destructive behavior (11 items), anxious/depressed (11 items), withdrawn (14 items), sleep problems (7 items), and somatic problems (14 items). Age-normed scores (T scores) for externalizing behaviors and internalizing behaviors were calculated from the aggressive and destructive behavior scales (externalizing) and the anxious/depressed and withdrawn scales (internalizing). The CBCL has been used extensively and the reliability and validity of the instrument are well-established [13, 24, 25]. Our focus is on the association between externalizing behavior at 24 months and BMI trajectory from age 2 to age 12 years, but we also conducted sensitivity analyses using externalizing behavior assessed at 36 months. Our main analyses use the CBCL externalizing behavior T score as a continuous measure, but to determine whether covariates were associated with high levels of externalizing problems and assess confounding we categorized children as having high levels of externalizing behavior if their CBCL T score was ≥65 (this is the 95th percentile of externalizing behavior at 24 months within the cohort, and is a cut point above which children's symptoms would be considered in the clinical range [23]).

Covariates

Child age at each assessment was calculated based on date of birth and date of assessment. Birth weight (in grams) was recorded when children were enrolled in the study. The child's race was reported by mothers and we categorized children into two groups: white, and black or another race. Although Hispanic ethnicity was reported, too few children were Hispanic to allow for meaningful analysis. Mothers reported their educational attainment at the time of their child's birth. As a measure of financial resources at the 24 month assessment, we used an indicator for whether or not household income-to-needs ratio was less than the federal poverty threshold. Maternal depressive symptoms at 24 months were assessed using the Center for Epidemiological Studies Depression Scale (CES-D) and, as is customary, we considered a CES-D score > 16 to indicate probable depression [26].

Analytic Approach

We included in analyses children who were not missing information on externalizing behavior at 24 months and whose BMI was assessed at least once at 24 months, 36 months, 54 months, 1st grade, 3rd grade, 5th grade, or 6th grade. All analyses were conducted using SAS v9.1 (SAS Institute, Cary, NC). Frequency distributions were compared using Chi-square tests or Fisher's exact test. We used logistic regression to estimate odds ratios and 95% confidence intervals for the cross-sectional association between obesity and high levels of externalizing behavior at 24 months overall and within strata defined by covariate levels. We used an alpha level of 0.05 to determine statistical significance in all analyses.

Linear mixed effects models [27] were used to estimate the average BMI trajectory and to test the extent to which externalizing behaviors at 24 months were related to differences in children's BMI. To determine the best shape for BMI trajectory relative to age we fit models with age as a linear, quadratic, and cubic term. We used a sequential process to build models predicting BMI relative to age centered at the cohort mean of 6.7 years. We tested whether externalizing behaviors at 24 months were related to average BMI and to linear change in BMI with age; we operationalized this by including externalizing behaviors at 24 months and the interaction of externalizing behaviors at 24 months and age in the linear mixed effects model. Evidence for an interaction between externalizing behaviors at 24 months and age would suggest that children's level of externalizing behavior at 24 months was related to BMI in a manner that depended upon age (for example, if there were no association between externalizing behavior and BMI at 24 months, but externalizing behavior at 24 months was associated with BMI at age 12 years).

We determined whether the association between BMI and externalizing behavior differed by sex and race by including cross-product terms in the model. Our final step in model building was to include covariates for possible confounding variables. Potential confounding variables we assessed were: sex, birth weight, maternal education, household poverty, and maternal depression. Potential confounding variables were retained in the model if their inclusion changed the coefficient for externalizing behaviors by more than 10% [28]. Internalizing behavior in early childhood could potentially confound any observed association between externalizing behavior and BMI and we assessed the effect on the association between externalizing behavior and BMI with and without inclusion of internalizing behavior at 24 months. We also conducted sensitivity analyses using externalizing behavior at 36 months, as well as the average of children's externalizing behaviors at 24 and 36 months.

To facilitate interpretation of model results we plot predicted BMI trajectories relative to high, medium, and low levels of externalizing behavior at 24 months. To further facilitate interpretation, we used contrast statements to estimate the predicted difference in BMI for two hypothetical children: one with high levels of externalizing behavior at 24 months (CBCL T score = 65) and the other with low levels of externalizing behavior at 24 months (CBCL T score = 35). We selected three illustrative time points (2 years, 7.5 years, and 11 years) to estimate predicted differences in BMI; these ages were selected to cover the age-range studied and at ages in which a majority of children were assessed.

Results

Of 1,237 children with a measure of BMI at 1 or more assessments between 24 months and 6th grade, 1,189 (> 95%) were not missing information on externalizing behaviors at 24 months and thus were included in our analyses. Table 1 presents characteristics of these children at each wave of assessment in which they were not missing BMI. The mean number of BMI measurements per child was 5.7 (SD = 1.8); 10% of the children had 3 or fewer, 50% had 6 or 7 out of a possible 7. Consistent with the United States population during this time period [29, 30], the prevalence of obesity in the cohort rose from under 6% at 3 years of age to over 15% by age 9.

Table 1 Characteristics of participants included in analytic sample

At 24 months, children's externalizing behavior T-scores ranged from a minimum of 30 to a maximum of 79; 6.2% of children had externalizing behavior scores at or above 65. Boys were slightly more likely than girls to have high levels of externalizing behavior; however the difference (7.0% vs 5.4%) was not statistically significant (p > 0.05). Race, maternal education, household poverty status, and maternal depression were all associated with differences in prevalence of high externalizing behavior at 24 months (Table 2). Cross-sectionally at 24 months, children with high levels of externalizing behavior had odds of obesity that were 2.9 (95% CI, 1.3, 6.5) times as high as children with lower levels of externalizing behavior (Table 2). Odds ratios for the association between high externalizing behavior and obesity at 24 months within strata of the covariates are also presented in Table 2.

Table 2 Prevalence and association of high externalizing behavior and obesity at 24 months relative to covariates

Children's BMI trajectory from age 2 to 12 years was modeled as a cubic function of age. We tested whether the association between externalizing behaviors at 24 months and BMI trajectory differed for boys and girls; we saw no evidence for an interaction between sex and average BMI or change in BMI (p > 0.05) (results not shown). Externalizing behavior at 24 months was associated with average BMI trajectory (β = 0.21, p = 0.02), but there was little evidence overall that this association differed by age (β = 0.002, p = 0.38)(Table 3). We also tested whether associations differed by race (coded as a dichotomous variable: 0=white, 1=black or other); the interaction between race and externalizing behavior on change in BMI was statistically significant (p = 0.0002) (Table 3). We saw no evidence that child sex, birth weight, or maternal education confounded the association between externalizing behavior and BMI (results not shown). Maternal depression and household poverty at 24 months did result in changes of > 10% to the estimate for externalizing behavior and as a result were maintained in the final model. Adjustment for internalizing behavior at 24 months strengthened the association between externalizing behavior and BMI (Table 3). Models were repeated using externalizing and internalizing behavior problems assessed at 36 months, and the average of these behaviors at 24 and 36 months, and results were not substantively different (not shown). We also repeated analyses using sex-specific BMI z-scores based on the CDC BMI-for-age growth reference and observed consistent results (not shown).

Table 3 Association of externalizing behavior at 24 months with BMI from 24 months to 12 yearsa

Figure 1 depicts predicted BMI trajectories by race from the final model in Table 3 at low, medium, and high levels of externalizing problems. The difference in BMI that would be predicted at 24 months for two white children who differed only in that one had a high level of externalizing behavior (CBCL T-score = 65) at 24 months and the other had a low level of externalizing behavior (CBCL T-score = 35) at 24 months is 0.78 BMI units (95% CI: 0.4, 1.2); at age 7.5 years the predicted difference in BMI between these 2 white children remains 0.78 BMI units (95% CI: 0.1, 1.5), and at age 11 years the predicted difference would still be 0.78 BMI units but the confidence interval is no longer statistically significant (95% CI: -0.3, 1.8). For a boy or girl of average height, an increase in BMI of 0.78 units corresponds to an increase of 1.3 pounds at age 24 months, 2.7 pounds at age 7.5 years and 3.6 pounds at age 11 years. For children who were black or of another race the predicted difference in BMI between a child with a high level of externalizing behavior at 24 months and a child with a low level of externalizing behavior at 24 months would be 0.77 BMI units (95% CI: 0.1, 1.5); at age 7.5 years the predicted difference in BMI between these 2 nonwhite children would be 1.23 BMI units (95% CI: 0.3, 2.1), and at age 11 years it would be 1.51 BMI units (95% CI: 0.3, 2.7). The corresponding difference in pounds for a child of average height would be 1.3 pounds at 24 months, 4.2 pounds at 7.5 years, and 6.9 pounds at 11 years.

Figure 1
figure 1

Predicted BMI trajectories for low, medium, and high levels of externalizing behavior at 24 months. Predicted BMI trajectories, by race, from final model in table 3 at three levels of externalizing behavior at 24 months: High (CBCL externalizing behavior T-score = 65, solid line), medium (CBCL externalizing behavior T-score = 50, heavy dashed line), and low (CBCL externalizing behavior T-score = 35, dotted line).

Discussion

Our results suggest that externalizing behavior problems are associated with higher BMI and obesity in children as young as 24 months old. Among two-year-old children, irrespective of race, based on our analyses we would predict an average difference of three-quarters of a BMI unit between children with high levels of externalizing behavior and children with low levels of externalizing behavior. This average difference in BMI was stable through age 12 among white children, and gradually doubled with age to about 1.5 BMI units among children who were black or of another race. These predicted average differences in BMI for a child with high levels of externalizing behavior compared to a child with low levels of externalizing behavior correspond to differences in weight of less than 2 pounds at 24 months of age, increasing to between 3 and 15 pounds at age 11 depending upon race and height.

It is well-established that weight status tends to track [31, 32]; children who have a high BMI-for-age early in childhood are more likely than children with a low BMI-for-age to later be obese. Our analyses suggest that externalizing behaviors in early childhood are associated with children's weight status early in childhood and throughout the elementary school years, though the magnitude of the effect is modest. We are unaware of previously published analyses of externalizing behavior and weight status in children younger than age four.

A few studies of non-clinical populations have examined the relationship between obesity and externalizing behavior in preadolescent children and findings from these studies have not been consistent [3, 5, 6, 8, 11, 12]. Some of the heterogeneity in results, summarized below, may be due to differences in assessment of externalizing behavior, analytic approach, and the population studied. In the Longitudinal Study of Australian Children, overweight 4- and 5-year-old children (born 1999-2000), had higher teacher-reported conduct problems than did non-overweight children, but differences were small [12]. In an earlier Australian cohort of children born 1981-1984, no association between behavior problems and obesity was observed for boys or girls cross-sectionally at age 5, however at age 14, compared to girls of normal weight status, girls who were overweight had over two times the odds of concurrent high levels of total behavior problems (externalizing behaviors were not examined separately); no association was seen for boys cross-sectionally at age 14 [11]. In a separate analysis of this same cohort, behavior problems at age 5 and age 14 years in both boys and girls were associated with higher BMI and obesity at age 21 years [4]. In the Netherlands, conduct problems were not related to overweight among 5- to 6-year-old children studied during 2004-2005 [8]. In the United States, evidence linking externalizing behavior problems in children to obesity is somewhat more consistent, with associations observed among 8- to 11-year-old children in the 1998 National Longitudinal Survey of Youth [3], and 5-year-old girls (but not boys) in the Early Childhood Longitudinal Study - Kindergarten class 1998-1999 [5]. In addition, oppositional defiant disorder was reported to be more prevalent among boys and girls in the Great Smoky Mountain Study (1993-2000) who were chronically obese between 9 and 16 years of age [6].

Using a different analytic approach than we have employed, Bradley et al. have also studied relationships between children's externalizing behavior, internalizing behavior, and BMI in the SECCYD [9]. They used cross-lagged structural equation models to address the directionality of associations between BMI and children's behavior. Our analyses of the same data were designed to address different research questions. We sought to understand the extent to which externalizing behavior early in childhood was associated with BMI early in childhood and change in BMI through age 12, to quantify the magnitude of any association, and to determine the extent to which associations were different in nonwhite children. The structural equation models used by Bradley et al. assume an association between BMI at 24 months, and behavior (externalizing and internalizing) at 24 months, and then controlling for that association and the tracking of BMI and behavior with age, ask whether BMI is associated with subsequent internalizing or externalizing behavior, and whether internalizing behavior or externalizing behavior are associated with subsequent BMI [9]. Although the results of the structural equation models they present do not allow for quantification of the magnitude of any associations, our findings and those of Bradley et al. are consistent. We found that externalizing behavior in early childhood was associated with higher weight status cross-sectionally, and that, among whites, the association between externalizing behavior at 24 months and BMI was maintained through childhood. This is consistent with Bradley et al.'s statement: "controlling for stability, ... externalizing behavior was not related to subsequent BMI" [9].

Our analyses provide evidence of a modest association between externalizing behavior early in childhood and BMI. We have quantified the magnitude of this association using linear mixed effects models, and also present odds ratios for the cross-sectional association at 24 months. We found that externalizing behavior and BMI were associated in two-year-old children. Our analysis does not allow us to identify whether the higher BMI came before, after, or developed concurrently with the higher levels of externalizing behavior. However that they are associated so early in children's lives suggests the need for further research. One might speculate that higher BMI could result from child behavior management techniques employed by parents and caregivers, such as use of food as a reward, to deal with challenges presented by toddlers with higher levels of externalizing behaviors. In an attempt to avoid a child's difficult or disruptive behavior, adults may acquiesce to demands for foods or activities (such as television viewing) associated with energy imbalance. We think the other direction of association - that externalizing behavior results from a child's high BMI - is less plausible. Perhaps more likely than either BMI or externalizing behavior being the cause or consequence of the other, is that a third factor or factors contributes to both a child's weight status/risk for obesity, and the degree to which they display externalizing behaviors. It is biologically plausible that such a factor or set of factors could impact both weight and behavior by influencing young children's brain development [14]. Identification of such modifiable risk or protective factors has potential to simultaneously help children achieve a healthy weight and decrease problematic behavior.

We provide evidence that the association between early childhood externalizing behaviors and BMI was not confounded by the sociodemographic covariates of sex, maternal education, or household poverty status, the association was as strong or stronger in children who were not white, and was not attenuated by adjustment for child internalizing behavior or maternal depression. We were not able to adjust for parental obesity, however, which is strongly related to child obesity and may be related to child behavior problems or maternal reports of child behavior problems. Our data suggest that the association between externalizing behavior and obesity at 24 months may differ by level of maternal education and household poverty status, in addition to race, but the pattern to these findings is not consistent, and further investigation is needed.

An additional limitation of our analyses is that we relied upon mother's reports of their child's behavior. The CBCL is not a diagnostic instrument and our analyses do not take into account the extent to which externalizing behaviors were problematic for the mother or the child. It is possible that ratings of children's behavior are influenced by the child's weight status. Considerable evidence indicates that obese children may be stigmatized and viewed negatively by peers and teachers [33], however the extent to which mother's reports of their toddler's externalizing behavior is influenced by weight status is not known.

Conclusions

Although the degree to which BMI is elevated among children with high levels of externalizing behavior in early childhood is modest, in the context of the current prevalence of childhood obesity [1], understanding the factors that give rise to this association is important. Clinicians working in pediatric settings recognize that weight status and behavioral issues are topics frequently raised by parents of young children. Underlying family factors are likely related to both obesity and problematic child behavior, and the sensitivity of these topics for parents themselves compounds the hesitancy clinicians may have in addressing weight and behavior issues in children [34]. Continued research to elucidate these interrelationships in young children and families is needed and may lead to development of anticipatory guidance that is relevant and useful to parents.

Abbreviations

BMI:

Body mass index

CBCL:

Child Behavior Checklist

CES-D:

Center for Epidemiological Studies Depression Scale

CI:

Confidence interval

NICHD:

National Institute of Child Health and Human Development

OR:

Odds ratio

SECCYD:

Study of Early Childcare and Youth Development.

References

  1. Ogden CL, Carroll MD, Curtin LR, Lamb MM, Flegal KM: Prevalence of High Body Mass Index in US Children and Adolescents, 2007-2008. JAMA. 2010, 303 (3): 242-249. 10.1001/jama.2009.2012.

    Article  CAS  PubMed  Google Scholar 

  2. Ogden CL, Troiano RP, Briefel RR, Kuczmarski RJ, Flegal KM, Johnson CL: Prevalence of overweight among preschool children in the United States, 1971 through 1994. Pediatrics. 1997, 99: e1-10.1542/peds.99.4.e1.

    Article  CAS  PubMed  Google Scholar 

  3. Lumeng JC, Gannon K, Cabral HJ, Frank DA, Zuckerman B: Association between clinically meaningful behavior problems and overweight in children. Pediatrics. 2003, 112 (5): 1138-1145. 10.1542/peds.112.5.1138.

    Article  PubMed  Google Scholar 

  4. Mamun AA, O'Callaghan MJ, Cramb SM, Najman JM, Williams GM, Bor W: Childhood behavioral problems predict young adults' BMI and obesity: evidence from a birth cohort study. Obesity. 2009, 17 (4): 761-766. 10.1038/oby.2008.594.

    Article  PubMed  Google Scholar 

  5. Datar A, Sturm R: Childhood overweight and parent- and teacher- reported behavior problems: evidence from a prospective study of kindergarteners. Archives of Pediatrics & Adolescent Medicine. 2004, 158: 804-810.

    Article  Google Scholar 

  6. Mustillo S, Worthman C, Erkanli A, Keeler G, Angold A, Costello EJ: Obesity and psychiatric disorder: developmental trajectories. Pediatrics. 2003, 111: 851-859. 10.1542/peds.111.4.851.

    Article  PubMed  Google Scholar 

  7. Anderson SE, Cohen P, Naumova EN, Must A: Relationship of childhood behavior disorders to weight gain from childhood into adulthood. Ambulatory Pediatrics. 2006, 6 (5): 297-301. 10.1016/j.ambp.2006.06.002.

    Article  PubMed  Google Scholar 

  8. Drukker M, Wojciechowski F, Feron FJM, Mengelers R, van Os J: A community study of psychosocial functioning and weight in young children and adolescents. International Journal of Pediatric Obesity. 2008, 1-7.

    Google Scholar 

  9. Bradley RH, Houts R, Nader PR, O'Brien M, Belsky J, Crosnoe R: The relationship between body mass index and behavior in children. Journal of Pediatrics. 2008, 153: 629-634. 10.1016/j.jpeds.2008.05.026.

    Article  PubMed  PubMed Central  Google Scholar 

  10. Datar A, Sturm R: Childhood overweight and elementary school outcomes. International Journal of Obesity. 2006, 30: 1449-1460. 10.1038/sj.ijo.0803311.

    Article  CAS  PubMed  Google Scholar 

  11. Lawlor DA, Mamun AA, O'Callaghan MJ, Bor W, Williams GM, Najman JM: Is being overweight associated with behavioural problems in childhood and adolescence? Findings from the Mater-University study of pregnancy and its outcomes. Archives of Disease in Childhood. 2005, 90: 692-697. 10.1136/adc.2004.062919.

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  12. Sawyer MG, Miller-Lewis L, Guy S, Wake M, Canterford L, Carlin JB: Is there a relationship between overweight and obesity and mental health problems in 4-to 5-year-old Australian children. Ambulatory Pediatrics. 2006, 6: 306-311. 10.1016/j.ambp.2006.08.005.

    Article  PubMed  Google Scholar 

  13. Achenbach TM: Assessment of Psychopathology. Handbook of Developmental Psychopathology. Edited by: Sameroff AJ, Lewis M, Miller SM. 2000, New York: Kluwer Academic/Plenum Publishers, 41-56. Second

    Chapter  Google Scholar 

  14. McEwen BS: Understanding the potency of stressful early life experiences on brain and body function. Metabolism-Clinical and Experimental. 2008, 57 (10): S11-S15.

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  15. Deater-Deckard K, Dodge KA, Bates JE, Pettit GS: Multiple risk factors in the development of externalizing behavior problems: group and individual differences. Development and Psychopathology. 1998, 10 (3): 469-493. 10.1017/S0954579498001709.

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  16. Kupersmidt JB, Coie JD: Preadolescent peer status, aggression, and school adjustment as predictors of externalizing problems in adolescence. Child Development. 1990, 61 (5): 1350-1362. 10.2307/1130747.

    Article  CAS  PubMed  Google Scholar 

  17. Lissau I, Sorensen TI: School difficulties in childhood and risk of overweight and obesity in young adulthood: a ten year prospective population study. International Journal of Obesity. 1993, 17 (3): 169-175.

    CAS  PubMed  Google Scholar 

  18. Lissau I, Sorensen TI: Parental neglect during childhood and increased risk of obesity in young adulthood. Lancet. 1994, 343 (8893): 324-327. 10.1016/S0140-6736(94)91163-0.

    Article  CAS  PubMed  Google Scholar 

  19. Janssen I, Craig W, Boyce WF, Pickett W: Associations between overweight and obesity with bullying behaviors in school-aged children. Pediatrics. 2004, 113 (5): 1187-1194. 10.1542/peds.113.5.1187.

    Article  PubMed  Google Scholar 

  20. Strauss RS, Pollack HA: Social marginalization of overweight adolescents. Archives of Pediatrics & Adolescent Medicine. 2003, 157: 746-752.

    Article  Google Scholar 

  21. NICHD Early Child Care Research Network: Nonmaternal care and family factors in early development: an overview of the NICHD study of early child care. Appl Dev Psychol. 2001, 22: 457-492. 10.1016/S0193-3973(01)00092-2.

    Article  Google Scholar 

  22. Kuczmarski RJ, Ogden CL, Guo SS, Grummer-Strawn LM, Flegal KM, Mei Z, Wei R, Curtin LR, Roche AF, Johnson CL: 2000 CDC Growth Charts for the United States: Methods and Development. Vital Health Stat 11. 2002, 11 (246): 1-190.

    Google Scholar 

  23. Achenbach TM: Manual for the Child Behavior Checklist/2-3 and 1992 Profile. 1992, Burlington: University of Vermont, Department of Psychiatry

    Google Scholar 

  24. Achenbach TM, Edelbrock C: Manual for the Child Behavior Checklist and Revised Child Behavior Profile. 1983, Burlington: University of Vermont, Department of Psychiatry

    Google Scholar 

  25. Bérubé RL, Achenbach TM: Bibliography of published studies using Achenbach System of Empirically Based Assessment: 2005 edition. 2005, Burlington VT: University of Vermont, Research Center for Children, Youth, & Families

    Google Scholar 

  26. Radloff LS: The CES-D Scale: a self-report depression scale for research in the general population. Applied Psychological Measurement. 1977, 1 (3): 385-401. 10.1177/014662167700100306.

    Article  Google Scholar 

  27. Fitzmaurice GM, Laird NM, Ware JH: Applied Longitudinal Analysis. 2004, Hoboken, NJ: John Wiley & Sons

    Google Scholar 

  28. Maldonado G, Greenland S: Simulation study of confounder-selection strategies. American Journal of Epidemiology. 1993, 138 (11): 923-936.

    CAS  PubMed  Google Scholar 

  29. Flegal KM, Troiano RP: Changes in the distribution of body mass index of adults and children in the US population. International Journal of Obesity. 2000, 24: 807-818. 10.1038/sj.ijo.0801232.

    Article  CAS  PubMed  Google Scholar 

  30. Hedley AA, Odgen CL, Johnson CL, Carroll MD, Curtin LR, Flegal KM: Prevalence of overweight and obesity among US children, adolescents, and adults, 1999-2002. Journal of the American Medical Association. 2004, 291 (23): 2847-2850. 10.1001/jama.291.23.2847.

    Article  CAS  PubMed  Google Scholar 

  31. Guo SS, Chumlea WC: Tracking of body mass index in children in relation to overweight in adulthood. American Journal of Clinical Nutrition. 1999, 70: 145S-148S.

    CAS  Google Scholar 

  32. Nader PR, O'Brien M, Houts R, Bradley RH, Belsky J, Crosnoe R, Friedman S, Mei Z, Susman EJ: Identifying risk for obesity in early childhood. Pediatrics. 2006, 118 (5): e594-601. 10.1542/peds.2005-2801.

    Article  PubMed  Google Scholar 

  33. Puhl R, Brownell KD: Bias, discrimination, and obesity. Obesity Research. 2001, 9: 788-805. 10.1038/oby.2001.108.

    Article  CAS  PubMed  Google Scholar 

  34. Whitaker RC: Mental health and obesity in pediatric primary care: a gap between importance and action. Archives of Pediatrics and Adolescent Medicine. 2004, 158: 826-828. 10.1001/archpedi.158.8.826.

    Article  PubMed  Google Scholar 

Pre-publication history

Download references

Acknowledgements

The SECCYD study was conducted by the NICHD Early Child Care Research Network supported by NICHD through a cooperative agreement that calls for scientific collaboration between the grantees and the NICHD staff. These analyses were supported by a grant from the Great Rivers Affiliate of the American Heart Association (0865376D) to SEA. The funding body had no role in the design of the study, interpretation of data, writing of the manuscript, or decision to submit the manuscript for publication. Robert C. Whitaker, MD, MPH provided helpful comments on a draft of this manuscript.

Author information

Authors and Affiliations

Authors

Corresponding author

Correspondence to Sarah E Anderson.

Additional information

Competing interests

The authors declare that they have no competing interests.

Authors' contributions

SEA conceived and designed the study, conducted the analyses, and drafted the manuscript. XH participated in the design of the statistical analyses and interpretation of the models. SSS participated in the design of the study and interpretation of results. AM helped to conceive and design the study, participated in interpretation of results and helped to draft the manuscript. All authors read and approved the final manuscript.

Authors’ original submitted files for images

Below are the links to the authors’ original submitted files for images.

Authors’ original file for figure 1

Rights and permissions

This article is published under license to BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Reprints and permissions

About this article

Cite this article

Anderson, S.E., He, X., Schoppe-Sullivan, S. et al. Externalizing behavior in early childhood and body mass index from age 2 to 12 years: longitudinal analyses of a prospective cohort study. BMC Pediatr 10, 49 (2010). https://doi.org/10.1186/1471-2431-10-49

Download citation

  • Received:

  • Accepted:

  • Published:

  • DOI: https://doi.org/10.1186/1471-2431-10-49

Keywords