You’re wrong on one point: respiratory Alkalosis from hyperventilation shifts the curve to the left. It’s the Bohr effect. When blood pH is high, Hb has a greater affinity for O2.
You are right, but he wasn't wrong in the video either. What he said was hyperventilation results as a RESPONSE to a shift of the curve to the right (to make it shift back to normal, to the left).
Amazing explanation 👏. Did you happen to think of a similar video but for the extreme breath holding performance? For example - 8-10 minutes breath hold. I wonder how damaging the extreme acidosis could be in that case as well as how Bohr effect is going to affect the oxygen assimilation upon the exhale/inhale after reaching the minimal SpO2 level.
Hello can you please answer this question ?Why is the risk of Rh D alloimmunization after first birth higher if the fetus is ABO compatible with the mother?
Love it man am learning stuff but what's more important than knowing this shit is understand it. Amazing by listening to you the impossible is happening . Am getting it. Brill
Most importantly, you neglected to explain why I am farting all day and night like a fart machine drip fed on baked beans and brussel sprouts up here in Quito.
I have been seeing many different resources saying that atmospheric O2 levels decrease as you go higher up which made me pretty mad. Thanks for actually saying that atmospheric pressure decreases and not the O2 levels.
Would platelets increase too on a blood test? I had a TIA in Peru and my platelets were elevated that day - would it be related to an excess of RBC’s? Great video!
aint no way💀let me explain muscle mass when get into work, produces CO2 more than resting muscle , and besides that CO2 is acidic so H+also increases (as H2Co3 increase) and then glyscolysis occurs more leading to more occurance of rapaport leubering cycle producing more 2, 3 BPG all factors lead to shift of O2 dissociation curve to right 👍