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ENVIRONMENTAL, EXERCISE AND RESPIRATORY PHYSIOLOGY
1Departments of Health and Behavioral Sciences, Pediatrics/Neonatology, Surgery/Emergency Medicine, and the Altitude Research Center, University of Colorado at Denver and Health Sciences Center, Denver, Colorado; 2Clínica del Sur, La Paz, Bolivia; 3Instituto Boliviano de Biología de Altura, Universidad Mayor de San Andrés, La Paz, Bolivia; and 4Department of Anthropology, Genetics Laboratory, Pennsylvania State University, State College, Pennsylvania
Submitted 16 November 2006 ; accepted in final form 6 June 2007
Multigenerational (Andean) compared with shorter-term (European) high-altitude residents exhibit less hypoxia-associated reductions in birth weight. Because differences in arterial O2 content are not responsible, we asked whether greater pregnancy-associated increases in uterine artery (UA) blood flow and O2 delivery were involved. Serial studies were conducted in 42 Andean and 26 European residents of La Paz, Bolivia (3600 m) at weeks 20, 30, 36 of pregnancy and 4 mo postpartum using Doppler ultrasound. There were no differences postpartum but Andean vs. European women had greater UA diameter (0.65 ± 0.01 vs. 0.56 ± 0.01 cm), cross-sectional area (33.1 ± 0.97 vs. 24.7 ± 1.18 mm2), and blood flow at week 36 (743 ± 87 vs. 474 ± 36 ml/min) (all P < 0.05) and thus 1.6-fold greater uteroplacental O2 delivery near term (126.82 ± 18.47 vs. 80.33 ± 8.69 ml O2·ml blood–1·min–1, P < 0.05). Andeans had greater common iliac (CI) flow and lower external iliac relative to CI flow (0.52 ± 0.11 vs. 0.95 ± 0.14, P < 0.05) than Europeans at week 36. After adjusting for gestational age, maternal height, and parity, Andean babies weighed 209 g more than the Europeans. Greater UA cross-sectional area at week 30 related positively to birth weight in Andeans (r = +0.39) but negatively in Europeans (r = –0.37) (both P < 0.01). We concluded that a greater pregnancy-associated increase in UA diameter raised UA blood flow and uteroplacental O2 delivery in the Andeans and contributed to their ability to maintain normal fetal growth under conditions of high-altitude hypoxia. These data implicate the involvement of genetic factors in protecting multigenerational populations from hypoxia-associated reductions in fetal growth, but future studies are required for confirmation and identification of the specific genes involved.
birth weight; genetic adaptation; hypoxia; small-for-gestational age; uteroplacental vascular resistance
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