Add to ORKGAn understanding of human responses to hypoxia is important for the health of millions of people worldwide who visit, live, or work in the hypoxic environment encountered at high altitudes. In spite of dozens of studies over the last 100 years, the basic mechanisms controlling acclimatization to hypoxia remain largely unknown. The AltitudeOmics project aimed t
High-altitude (HA) environments have adverse effects on the normal functioning body of people accust...
Red blood cells (RBCs) are key players in systemic oxygen transport. RBCs respond to in vitro hypoxi...
Both the high altitude physiologist and the intensivist are challenged by the human organism in a hy...
An understanding of human responses to hypoxia is important for the health of millions of people wor...
<div><p>An understanding of human responses to hypoxia is important for the health of millions of pe...
An understanding of human responses to hypoxia is important for the health of millions of people wor...
Red blood cells (RBCs) are key players in systemic oxygen transport. RBCs respond to <i>in vitro</i>...
High-altitude (and simulated high-altitude) environments can be extraordinarily stressful for low-al...
25 p. : il. -- Bibliogr.: p. 24-25High altitude is characterised by hypoxia; low levels of oxygen in...
BackgroundThe physiological responses to hypoxaemia and cellular hypoxia are poorly understood, and ...
Background: The physiological responses to hypoxaemia and cellular hypoxia are poorly understood, an...
World-wide, increasing numbers of individuals repeatedly alternate between low and high altitude for...
Staying at high altitude – above 2500 meters above the sea level during dozens of hours causes phys...
As humans ascend to high altitude, the resulting hypobaric hypoxia necessitates adaptation in order ...
Cerebral hypoxaemia associated with rapid ascent to high altitude can be life threatening; yet, with...
High-altitude (HA) environments have adverse effects on the normal functioning body of people accust...
Red blood cells (RBCs) are key players in systemic oxygen transport. RBCs respond to in vitro hypoxi...
Both the high altitude physiologist and the intensivist are challenged by the human organism in a hy...
An understanding of human responses to hypoxia is important for the health of millions of people wor...
<div><p>An understanding of human responses to hypoxia is important for the health of millions of pe...
An understanding of human responses to hypoxia is important for the health of millions of people wor...
Red blood cells (RBCs) are key players in systemic oxygen transport. RBCs respond to <i>in vitro</i>...
High-altitude (and simulated high-altitude) environments can be extraordinarily stressful for low-al...
25 p. : il. -- Bibliogr.: p. 24-25High altitude is characterised by hypoxia; low levels of oxygen in...
BackgroundThe physiological responses to hypoxaemia and cellular hypoxia are poorly understood, and ...
Background: The physiological responses to hypoxaemia and cellular hypoxia are poorly understood, an...
World-wide, increasing numbers of individuals repeatedly alternate between low and high altitude for...
Staying at high altitude – above 2500 meters above the sea level during dozens of hours causes phys...
As humans ascend to high altitude, the resulting hypobaric hypoxia necessitates adaptation in order ...
Cerebral hypoxaemia associated with rapid ascent to high altitude can be life threatening; yet, with...
High-altitude (HA) environments have adverse effects on the normal functioning body of people accust...
Red blood cells (RBCs) are key players in systemic oxygen transport. RBCs respond to in vitro hypoxi...
Both the high altitude physiologist and the intensivist are challenged by the human organism in a hy...