Aymara children are protected from high-altitude-induced pulmonary hypertension
Fecha
2005-02-22Autor
Stuber, Thomas
Sartori, Claudio
Hutter, Damian
Salinas Salmón, Carlos E
Thalmann, Sebastien
Turini, Pierre
Jayet, Pierre-Yves
Villena, Mercedes
Scherrer, Urs
Allemann, Yves
Metadatos
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Pulmonary hypertension is a hallmark of the adaptation to ambient lack of oxygen. This assumption is also
thought to hold true for high-altitude native children,
since invasive studies showed elevated pulmonary-artery
pressure in a few children studied at high altitude. However, the data to support this assumption is extremely
sparse. We, therefore measured systolic pulmonaryartery pressure (Doppler-echocardiography) and arterial
oxygen saturation in 36 Bolivian high-altitude native children of Aymara ethnicity (age 6 months to 13 years,
mean SD 7.3 3.0 years) in La Paz (3600 m). We also
studied 18 age- and sex-matched Caucasian children who
were born or long-term residents of La Paz, and a group
of healthy Caucasian children born and living in Berne,
Switzerland (450 m). The major new finding was that systolic pulmonary-artery pressure in healthy Bolivian children of Aymara ethnicity was markedly lower than in
children of Caucasian descent (25.1 4.1 vs 34.2 9.0
mmHg, P 0.001), and, indeed, was similar to the one
measured in children at low altitude (450 m). At high altitude, the lower pulmonary-artery pressure in the Aymara children was not related to better arterial oxygenation, because arterial oxygen saturation was lower than
the one measured in the Caucasian children (88.2 4.1
vs. 92.9 2.4%, P 0.0001). These data represent the first
measurements of pulmonary-artery pressure in a large
group of healthy children living at high-altitude. We
found that at high altitude, despite lower arterial oxygen
saturation, Aymara children had roughly 30% lower pulmonary artery pressure than well adapted Caucasian children, a value that was comparable to the normal values
measured at low altitude. The data challenge the long
held concept that high-altitude exposure in children invariably leads to pulmonary hypertension. Protection
from hypoxia-induced pulmonary hypertension may represent a specific high-altitude adaptation of the Aymaran
ethnicity.