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Healthy individuals at sea level usually exhibit oxygen saturation values between 96% and 99%, and should be above 94%. At 1,600 meters' altitude (about one mile high) oxygen saturation should be above 92%. [11] An SaO 2 (arterial oxygen saturation) value below 90% causes hypoxia (which can also be caused by anemia).
Dissolved oxygen levels required by various species in the Chesapeake Bay (US). In aquatic environments, oxygen saturation is a ratio of the concentration of "dissolved oxygen" (DO, O 2), to the maximum amount of oxygen that will dissolve in that water body, at the temperature and pressure which constitute stable equilibrium conditions.
Arterial oxygen saturation is generally still over 90% in healthy people, but arterial P O 2 is reduced. [ 2 ] At very high altitude , from 3,500 to 5,500 metres (11,500 to 18,000 ft) arterial oxygen saturation falls below 90% and arterial P O 2 is reduced to the extent that extreme hypoxemia may occur during exercise and sleep, and if high ...
While arterial oxygen transport may be only slightly impaired the arterial oxygen saturation (SaO 2) generally stays above 90%. Altitude sickness is common between 2,400 and 4,000 metres (7,900 and 13,100 ft) because of the large number of people who ascend rapidly to these altitudes.
A pulse oximeter probe applied to a person's finger. A pulse oximeter is a medical device that indirectly monitors the oxygen saturation of a patient's blood (as opposed to measuring oxygen saturation directly through a blood sample) and changes in blood volume in the skin, producing a photoplethysmogram that may be further processed into other measurements. [4]
Blood oxygen saturation may be used for hypoxic hypoxia, but is generally meaningless in other forms of hypoxia. In hypoxic hypoxia 95–100% saturation is considered normal; 91–94% is considered mild and 86–90% moderate. Anything below 86% is considered severe. [8] Cerebral hypoxia refers to oxygen levels in brain tissue, not blood.
Oxygen therapy can also dry out the nasal mucosa without humidification. [1] In most conditions, an oxygen saturation of 94–96% is adequate, while in those at risk of carbon dioxide retention, saturations of 88–92% are preferred. [1] [8] In cases of carbon monoxide toxicity or cardiac arrest, saturations should be as high as possible.
In a healthy adult at rest, oxygen consumption is approximately 200–250 ml/min, [25] and deoxygenated blood returning to the lungs is still roughly 75% [26] [27] (70 to 78%) [25] saturated. Increased oxygen consumption during sustained exercise reduces the oxygen saturation of venous blood, which can reach less than 15% in a trained athlete ...