Objective: Maternal physiologic responses to pregnancy promoting fetal oxygen and nutrient delivery are important determinants of reproductive success. Incomplete physiologic compensation for reduced oxygen availability at high altitude (≥2,500 m) compromises fetal growth. Populations of highland (e.g., Andeans, Tibetans) compared with lowland origin groups (e.g., Europeans, Han Chinese) are protected from this altitude-associated decrease in birth weight; here we sought to determine whether maternal development at high altitude-rather than highland ancestry-contributed to the protection of birth weight and uterine artery (UA) blood flow during pregnancy.

Methods: In women of lowland ancestry who were either raised at high altitude in La Paz, Bolivia (3,600-4,100 m) ("lifelong," n = 18) or who had migrated there as adults ("newcomers," n = 40) we compared maternal O(2) transport during pregnancy and their infant's birth weight.

Results: Pregnancy raised maternal ventilation and arterial O(2) saturation equally, with the result that arterial O(2) content was similarly maintained at nonpregnant levels despite a fall in hemoglobin. UA blood flow and uteroplacental O(2) delivery were lower in lifelong than newcomer residents (main effect). Birth weight was similar in lifelong residents versus newcomers (2,948 ± 93 vs. 3,090 ± 70 gm), with both having values below those of a subset of eight high-altitude residents who descended to deliver at low altitude (3,418 ± 133 gm, P < 0.05).

Conclusion: Lifelong compared with newcomer high-altitude residents have lower uteroplacental O(2) delivery and similar infant birth weights, suggesting that developmental factors are likely not responsible for the protective effect of highland ancestry.