Rather than a blood vessel with a value of 104mm Hg for Po2, it is alveolar gas thatt has a Po2 of 104 mm Hg
PvO2 = 40mm Hg, PvCO2 = 46mmHg
When the aterial PO2 drops and becomes around 60 to 70 mm Hg, an increase in ventilation occurs. This is caused by a low PO2 in the blood and is detected by the carotid bodies (chemoreceptor), because the aortic and central chemoreceptors do not detect a change in arterial PO2
s
In healthy subjects the mean PCO2 fall 18 mm Hg from the baseline and mean PO2 rise 7 mmHg
pO2 is 40 mmHg
No. All veins are carry de-oxygenated blood. Veins carry de-oxygenated blood to the heart so that the heart in turn can pump that de-oxygenated blood to the lungs where they will become oxygenated.
Molecules of O2 bind to haemoglobin (Hg) in red blood cells- each Hg can carry four O2 molecules, and each red blood cell contains a lot of Hg.
Normal atmospheric pressure of air is 150 mm Hg for oxygen (around 610 mm Hg for nitrogen). This equals 760 mm Hg in the atmosphere. In the alveoli, however, pressure is lower because 30% is being used by tissues, leaving 70% of 150 mm Hg oxygen in the alveoli. That means around 100-105 mm Hg is the partial pressure of oxygen in alveoli.
60mmhg
False, normal blood pressure is a value of 120/80 mm Hg or lower.
hg = haemoglobin , which is the oxygen carrying pigment , present in our blood Perhaps this question refers to the chemical symbol: Hg [Mercury the metal that is liquid at room temperature] Hg comes from the Latin for Mercury: Hydrargyrum.
The normal blood pressure is usually between 120-140 mm Hg (systolic) and 80 - 90 mm Hg (diastolic). Anything higher will be considered as high blood pressure