It means that you blood is not carrying enough oxygen for your whole body and brain to work well. A level of above 95 is satisfactory. Brain uses most oxygen in the whole body
A high partial pressure of oxygen (pO2) level in the blood typically indicates an increased concentration of oxygen in the bloodstream, often due to hyperoxia, which can occur from supplemental oxygen therapy or certain lung conditions. Elevated pO2 levels can enhance oxygen delivery to tissues but may also lead to oxygen toxicity if excessively high. Monitoring pO2 is crucial in clinical settings to ensure adequate oxygenation while avoiding potential complications.
PO2(OH)2 is the same as H2PO4^- (note the negative charge). It would be dihydrogen phosphate.
PO2 IS THE OYGEN BLOOD LEVEL IN YOUR BODY (More specifically, pO2 is the partial pressure of oxygen in different parts of your body. For example, the partial pressure of oxygen (pO2) is higher in your lungs than it is in various tissues like muscles. Therefore, oxygen is absorbed in the lungs and dispersed through your muscles.)
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
PO2 in blood is the amount of gases in your blood. In medical terms, this is commonly called the Alveolar-arterial.
In pulmonary arteries, PO2 is around 40 mmHg and PCO2 is around 46 mmHg. In pulmonary veins, PO2 is around 100 mmHg and PCO2 is around 40 mmHg. In systemic arteries, PO2 is around 100 mmHg and PCO2 is around 40 mmHg. In systemic veins, PO2 is around 40 mmHg and PCO2 is around 46 mmHg.
Yes, hemoglobin is affected by the partial pressure of oxygen (pO2). As pO2 increases, hemoglobin's affinity for oxygen also increases, facilitating oxygen binding in the lungs. Conversely, in tissues where pO2 is lower, hemoglobin releases oxygen more readily. This relationship is described by the oxygen-hemoglobin dissociation curve, which illustrates how hemoglobin's saturation with oxygen changes with varying pO2 levels.
PO2 refers to the partial pressure of oxygen in the blood, typically measured via arterial blood gas analysis. SpO2, on the other hand, represents the oxygen saturation level in the blood, measured non-invasively through pulse oximetry. In simpler terms, PO2 shows how much oxygen is dissolved in the blood, while SpO2 indicates the percentage of hemoglobin carrying oxygen.
In healthy subjects the mean PCO2 fall 18 mm Hg from the baseline and mean PO2 rise 7 mmHg
Assuming the Ka= [H+][PO2-]/[PO3-] and that PO3=PO2- then we can safely assume Ka= [H+][PO2-]/[PO2-] and so Ka= [H+][PO2-]/[PO2-] Ka=[H+] since the Ka of Phosphoric acid is equal to 7.5x10-3 then we can take -log(7.5x10-3) to find the pH=2.12
(H2PO2)- is the chemical formula of the hypophosphite anion.
80-100