Prenatal development and obesity: Two distinct pathways to diabetes in adulthood

Citation

Boone-Heinonen, Janne; Sacks, Rebecca M.; Hooker, Elizabeth; Dieckmann, Nathan F.; Harrod, Curtis S.; & Thornburg, Kent L. (2017). Prenatal development and obesity: Two distinct pathways to diabetes in adulthood. American Heart Association's Epidemiology and Prevention/Lifestyle and Cardiometabolic Health 2017 Scientific Sessions. Portland, OR: Circulation.

Abstract

Background Adverse prenatal development, often indicated by low birthweight, is associated with elevated risk of cardiometabolic disease, but the mediating role of obesity is not well understood. Methods We used data from the National Longitudinal Study of Adolescent to Adult Health, a nationally representative sample of adolescents followed 14 years over 4 waves into adulthood (1994-95, 1995-96, 2001-02, 2008-09; n=14,180). In gender-stratified path analysis, we examined pathways from birth weight [BW (kg); linear (BW) and quadratic (BW2)], to latent trajectories in body mass index (BMI) from adolescence to adulthood, to prevalent diabetes or prediabetes (DM; HbA1c, diagnosis, medication) in adulthood (Figure), adjusting for sociodemographic characteristics. Results Direct associations between BW and DM (not through BMI) indicated that increasing BW was associated with non-significantly lower likelihood of DM in women [coeff (95% CI): BW: -0.30 (-1.23, 0.63); BW2: 0.01 (-0.14, 0.16)] and unrelated to DM in men. We identified distinct, gender-specific indirect pathways from greater BW to higher BMI and DM. In girls, the association between BW and BMI in adolescence was J-shaped, by which girls born lower and higher BW exhibited elevated BMI in adolescence [coeff (95% CI): BW: -2.10 (-3.96, -0.24); BW2: 0.44 (0.13, 0.75)]; higher BW predicted marginally faster BMI gain from adolescence to adulthood. Higher adolescent BMI and faster BMI gain was associated with diabetes in women [coeff (95% CI): BMI intercept: 0.09 (0.06, 0.12); BMI slope: 0.12 (0.08, 0.17)]. In boys, BW was not associated with BMI at adolescence or BMI gain thereafter; in turn, adolescent BMI was unrelated to diabetes, while faster BMI gain was associated with higher likelihood of adult DM [coeff (95% CI): 0.29 (0.20, 0.37)]. Conclusions Findings suggest that in girls, slowing BMI gain prior to adolescence and from adolescence to adulthood is critical for diabetes prevention, yet may not address distinct pathology stemming from early life.

URL

http://circ.ahajournals.org/content/135/Suppl_1/AP229.abstract

Reference Type

Conference proceeding

Book Title

American Heart Association's Epidemiology and Prevention/Lifestyle and Cardiometabolic Health 2017 Scientific Sessions

Author(s)

Boone-Heinonen, Janne
Sacks, Rebecca M.
Hooker, Elizabeth
Dieckmann, Nathan F.
Harrod, Curtis S.
Thornburg, Kent L.

Year Published

2017

Volume Number

135

Pages

AP229

Publisher

Circulation

City of Publication

Portland, OR

Reference ID

8110