Collette N Ncube1, Amelia R Gavin2, Michelle A Williams3, Chunfang Qiu4, Tanya K Sorensen4, Daniel A Enquobahrie5. 1. Department of Epidemiology, School of Public Health, University of Washington, Seattle. Electronic address: ncubec@u.washington.edu. 2. School of Social Work, University of Washington, Seattle. 3. Center for Perinatal Studies, Swedish Medical Center, Seattle, WA; Department of Epidemiology, Harvard T.H. Chan School of Public Health, Boston, MA. 4. Center for Perinatal Studies, Swedish Medical Center, Seattle, WA. 5. Department of Epidemiology, School of Public Health, University of Washington, Seattle; Center for Perinatal Studies, Swedish Medical Center, Seattle, WA.
Abstract
PURPOSE: We investigated nonlinear and offspring sex-specific associations of maternal birthweight (BW) with offspring BW among participants of the Omega study, a pregnancy cohort. METHODS: Maternal BW was modeled as a continuous variable, linear spline and binary variable indicating low birthweight (LBW; <2500 vs. ≥2500 grams). Offspring BW was modeled as a continuous and binary variable in regression models. Nonlinearity was assessed using likelihood ratio tests (LRTs) in marginal linear spline models. RESULTS: For every 100-gram increase of maternal BW, offspring BW increased by 22.29 (95% CI: 17.57, 27.02) or 23.41 (95% CI: 6.87, 39.96) grams among mothers with normal BW or born macrosomic, respectively, but not among LBW mothers (β = -8.61 grams; 95% CI: -22.88, 5.65; LRT P-value = .0005). For every 100-gram increase in maternal BW, BW of male offspring increased 23.47 (95% CI: 16.75, 30.19) or 25.21 (95% CI: 4.35, 46.07) grams among mothers with normal BW or born macrosomic, respectively, whereas it decreased 31.39 grams (95% CI: -51.63, -11.15) among LBW mothers (LRT P-value < .0001). Corresponding increases in BW of female offspring (16-22 grams) did not differ among mothers with LBW, normal BW or macrosomia (LRT P-value = .9163). CONCLUSIONS: Maternal and offspring BW associations are evident among normal BW and macrosomic mothers. These associations differ by offspring sex.
PURPOSE: We investigated nonlinear and offspring sex-specific associations of maternal birthweight (BW) with offspring BW among participants of the Omega study, a pregnancy cohort. METHODS: Maternal BW was modeled as a continuous variable, linear spline and binary variable indicating low birthweight (LBW; <2500 vs. ≥2500 grams). Offspring BW was modeled as a continuous and binary variable in regression models. Nonlinearity was assessed using likelihood ratio tests (LRTs) in marginal linear spline models. RESULTS: For every 100-gram increase of maternal BW, offspring BW increased by 22.29 (95% CI: 17.57, 27.02) or 23.41 (95% CI: 6.87, 39.96) grams among mothers with normal BW or born macrosomic, respectively, but not among LBW mothers (β = -8.61 grams; 95% CI: -22.88, 5.65; LRT P-value = .0005). For every 100-gram increase in maternal BW, BW of male offspring increased 23.47 (95% CI: 16.75, 30.19) or 25.21 (95% CI: 4.35, 46.07) grams among mothers with normal BW or born macrosomic, respectively, whereas it decreased 31.39 grams (95% CI: -51.63, -11.15) among LBW mothers (LRT P-value < .0001). Corresponding increases in BW of female offspring (16-22 grams) did not differ among mothers with LBW, normal BW or macrosomia (LRT P-value = .9163). CONCLUSIONS: Maternal and offspring BW associations are evident among normal BW and macrosomic mothers. These associations differ by offspring sex.
Authors: Daniel A Enquobahrie; Margaret Meller; Kenneth Rice; Bruce M Psaty; David S Siscovick; Michelle A Williams Journal: Am J Obstet Gynecol Date: 2008-06-04 Impact factor: 8.661
Authors: Elmar W Tobi; L H Lumey; Rudolf P Talens; Dennis Kremer; Hein Putter; Aryeh D Stein; P Eline Slagboom; Bastiaan T Heijmans Journal: Hum Mol Genet Date: 2009-08-04 Impact factor: 6.150