AndersonPJ, WisteHJ, OstbySA, MillerAD, CeridonML, JohnsonBD. (2015). Sleep disordered breathing and acute mountain sickness in workers rapidly transported to the South Pole (2835m). Respir Physiol Neurobiol, 210:38–43.
5.
AsadiAK, SaRC, KimNH, TheilmannRJ, HopkinsSR, BuxtonRB, PriskGK. (2015). Inhaled nitric oxide alters the distribution of blood flow in the healthy human lung, suggesting active hypoxic pulmonary vasoconstriction in normoxia. J Appl Physiol, 118:331–343.
6.
BrennerR, PrataliL, RimoldiSF, Muillo JaureguiX, SoriaR, RexhajE, Salinas SalmonC, VillenaM, RomeroC, SartoriC, AllemannY, and ScherrerU. (2015). Exaggerated pulmonary hypertension and right ventricular dysfunction in high altitude dwellers with patent formane ovale. Chest, 147:1072–1079.
7.
Canoui-PoitrineF, VeerabudunK, LarmignatP, LetournelM, Bastuji-GarinS, and RichaletJP. (2014). Risk prediction score for severe high altitude illness: A cohort study. PLoS One, 9, e100642.
8.
CoustetB, LhuissierFJ, VincentR, RichaletJP. (2015). Electrocardiographic changes during exercise in acute hypoxia and susceptibility to severe high altitude illnesses. Circulation, 131:786–794.
9.
FrancisBN, HaleA, ChannonKM, WilkinsMR, ZhaoL. (2014). Effects of tetrahydrobiopterin oral treatment in hypoxia-induced pulmonary hypertension in the rat. Pulm Circ, 4:462–470.
10.
GlennyRW, RobertsonHT, HlastalaMP. (2000). Vasomotor tone does not affect perfusion heterogeneity and gas exchange in normal primate lungs during normoxia. J Appl Physiol, 89:2263–2267.
11.
HoilandRl, FosterGE, DonnellyJ, StembridgeM, WillieCK, SmithKJ, LewisNC, LucasSJ, CotterJD, YeomanDJ, ThomasKN, DayTZ, TymkoMM, BurgessKR, and AinsliePN. (2014). Chemoreceptor responsiveness at sea level does not predict the pulmonary pressure response to high altitude. Chest Dec, 11. doi: 10.1378/chest.14-1992. [Epub ahead of print].
12.
HsiaCC, CarbayoJJ, YanX, BellottoDJ. (2005). Enhanced alveolar growth and remodeling in Guinea pigs raised at high altitude. Respir Physiol Neurobiol., 147:105–115.
13.
KimJ, ChoiN, LeeYJ, AnH, KimN, YoonHK, LeeHJ. (2014a). High altitude remains associated with elevated suicide rates after adjucting for socioenconomic status: A study form South Korea. Pyschiatry Investig, 11:492–494.
14.
KimTS, KondoDG, KimN, RenshawPF. (2014b). Altitude may contribute to regional variation in methamphetamine use in the United States: A population database study. Pyschiatry Investig, 11:430–436.
15.
KiyamuM, Rivera-ChiraM, BrutsaertTD. (2015). Aerobic capacity of Peruvian Quechua: A test of the developmental adaptation hypothesis. Am J Phys Anthropol, 156:363–373.
16.
LoveringAT, SticklandMK, AmannM, O'BrienMJ, HokansonJS, EldridgeMW. (2011). Effect of a patent foramen ovale on pulmonary gas exchange efficiency at rest and during exercise. J Appl Physiol, 110:1354–1361.
17.
MarshallBE, MarshallC, MagnoM, LilaganP, PietraGG. (1991). Influence of bronchial arterial PO2 on pulmonary vascular resistance. J Appl Physiol, 70:405–415.
18.
RavikumarP, BellottoDJ, HsiaCC. (2014). Persistent structural adaptation in the lungs of guinea pigs raised at high altitude. Respir Physiol Neurobiol, 208:37–44.
19.
SaugyJJ, SchmittL, CejuelaR, FaissR, HauserA, WehrlinJP, RudazB, DelessertA, RobinsonN, and MilletGP. (2014). Comparison of “Live High–Train Low” in normobaric versus hypobaric hypoxia. PLoS One, 9, e114418.
20.
SharmaRK, ChoudhuryRC, ReddyMK, RayA, RaviK. (2015). Role of the posterior hypothalamus in hypobaric induced pulmonary edema. Respir Physiol Neurobiol, 205:66–76.
