Topic 13: Respiratory System - CO2 Transport Flashcards
Which 3 ways is CO2 carried?
1) dissolved in plasma (8%)
2) Bound to hemoglobin = carbamino Hb (CO2 on globin) = 20%
3) As bicarbonate ions (HCO3-) = 72%
What 2 ways is CO2 dissolved in plasma?
1) At the lungs (external resp)
2) At the tissues (internal resp)
What are the pressures in the lungs when CO2 is carried? (3)
Alveolar PCO2 = 40 mHg
Resting arterial PCO2 = 45 mmHg
Venous PCO2 = 40 mmHg
which direction does CO2 diffuse in the lungs in plasma?
capillary to alveolus
What are the pressures at the tissue when CO2 is carried? (4)
Arterial PCO2 = 40 mmHg
ICF PCO2 => 45 mmHg
ISF PCO2 = 45 mmHg
Resting Venous PCO2 = 45 mmHg
Which direction does CO2 diffuse at the tissues in plasma? (3)
cell to ISF to capillary
How is CO2 carried when bound to Hb? (2)
- CO2 binds to deoxyHb better than to oxyHb
- therefore Hb binds CO2 readily at the tissues
Which 2 ways is CO2 carried a bicarbonate ions? (2)
1) Inside RBC at tissues (increase CO2)
2) Inside RBC at lungs
How is CO2 transported inside RBC at tissues? (3)
- HCO3- transported out of RBC in exchange for Cl- = chloride shift
- this allows more HCO3- to be made
- therefore venous blood RBC have more CL-
bicarbonate ions inside RBC at tissue reactions
What is the first reaction occuring inside RBC at the lungs? (3)
1) O2 + deoxyHb -> HbO2
- note that deoxyHb = HbH and/or HbCO2
- HbO2 binds CO2 + H+ poorly, so CO2 is released (Haldane effect) and H+ released
What is the second reaction occurring inside RBC at lungs? (4)
H+ + HCO3- -> H2CO3 -> CO2 + H2O
- therefore decreases HCO3- IN RBC, then HCO3- moves into RBC (down gradient)
- exchanges for Cl- (reverse chloride effect)
- note that CO@ moves from rbc -> plasma -> alveolar air -> out
