ISSN:
1432-2013
Schlagwort(e):
O2-Hb affinity
;
Bohr effect interaction
;
CO2 Bohr effect
;
Fixed acid Bohr effect
;
Rabbit
;
Cat
Quelle:
Springer Online Journal Archives 1860-2000
Thema:
Medizin
Notizen:
Abstract The action of respiratory and metabolic acid-base disturbances on the O2-Hb affinity was studied in rabbits and cats. Blood samples of both species were exposed to in vitro pH-changes, which were either achieved by variation ofPCO2 (2.8–8.3 kPa) at constant lactic acid concentration, or by addition of lactic acid (5–14 mmol·l−1) at constantPCO2. ThePO2 at halfsaturation (P50) and the Hill'sn were determined from O2-Hb dissociation curves (ODC) in a range between 20 and 80% SO2. Under standard conditions (T=331 K,PCO2=5.33 kPa, pH=7.4), the average P50 value was 4.66±0.05 kPa in rabbits, that is slightly higher than reported by others, and 5.17±0.03 kPa in cats. The average values of Hill'sn were 2.91±0.02 and 2.95±0.03 for rabbits and cats, respectively. When plasma pH was varied by CO2, the resulting classical CO2 Bohr factor φCO2=ΔlgP50/ΔpH50 was distinctly higher in cats (−0.560±0.006,n=25) than in rabbits (−0.504±0.014,n=22), although in the latter species being even higher than reported elsewhere. Concomitant metabolic acidosis did not significantly affect φCO2, but shifted the P50 at a given plasma pH to lower values. Substitution of lactic acid with equimolar amounts of sodium lactate left both φCO2 and P50 unchanged. When plasma pH was varied by lactic acid (LA), the resulting fixed acid Bohr factors φLA were similar for cats (−0.420±0.016,n=21) and rabbits (−0.427±0.010,n=18), and not influenced by additional respiratory acidosis. Concomitant respiratory acidosis, however, shifted the P50 at a given plasma pH to higher values. The deviation of lgP50 from that under standard conditions (lgP50st) induced by both, respiratory and metabolic acid-base changes, can generally be expressed by Eqs. (1) or (2) (1) $$1gP_{50} - 1gP_{50} st = \varphi CO_2 \left( {pH - 7.4} \right) - \left( {\varphi CO_2 - \varphi LA} \right) \cdot \left[ {pH\left( {LA} \right) - 7.4} \right]$$ (2) $$1gP_{50} - 1gP_{50} st = \varphi LA\left( {pH - 7.4} \right) + \left( {\varphi CO_2 - \varphi LA} \right) \cdot \left[ {pH\left( {CO_2 } \right) - 7.4} \right].$$ Thereby, the first term considers the total pH-deviation, irrespective of its origin, and the second term represents the metabolic (1) or the respiratory (2) correction. For practical use and within the physiological range of plasma pH (7.2–7.6), φCO2 and φLA are assumed to be additively linked and to be independent of pH. Once these factors are determined for a given species, together with the buffer capacity for CO2, they provide sufficient data to estimate fairly accurately the position of the ODC. This is particularly important for in vivo conditions where respiratory and metabolic acid-base disturbances often occur simultaneously.
Materialart:
Digitale Medien
URL:
http://dx.doi.org/10.1007/BF00585068
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