Filling in the Gaps: State-specific childhood obesity prevalence corrected for self-report bias

Background: Accurate state-specific obesity prevalence data are critical to public health efforts to address the childhood obesity epidemic.  However, few states administer statewide objectively-measured childhood BMI surveillance programs.  For the first time, this study aims to estimate state-specific childhood obesity prevalence correcting for reporting bias and validate these estimates against published state BMI surveillance data.

Methods: We developed a non-parametric statistical matching approach to combine data from the 2010 U.S. Census, 2010 American Community Survey (ACS) (5-year), 2003-2004 and 2007-2008 National Survey of Children’s Health (NSCH) (n=133,214), and 2005-2010 National Health and Nutrition Examination Surveys (NHANES) (n=9,422 ages 2-17).  Measured height and weight data from statistically matched NHANES individuals were assigned to a random sample of the Census population by state, age, sex, race/ethnicity and household income, accounting for state-level variation in parent-reported height and weight from NSCH.   The resulting obesity prevalence estimates were validated against surveillance data from five states (AR, FL, MA, PA, TN) conducting a census of all children across a range of grades.

Results: Estimated state-specific childhood obesity prevalence ranged from 11.7% to 21.5%. For the five validation states, our model-derived obesity prevalence estimates aligned closely with measured data, with a mean difference of 0.68 percentage points (range: 0.31-1.38) and a high correlation coefficient (r=0.90, p=0.037).

Conclusion: Non-parametric statistical matching provides a novel method for estimating state-specific childhood obesity prevalence corrected for reporting bias.  In the absence of statewide surveillance systems, this approach provides data needed to target limited obesity prevention resources.