Abstract
In patients with cystic fibrosis lung damages cause arterial hypoxia. As a typical compensatory reaction one might expect changes in oxygen affinity of hemoglobin. Therefore position (standard half saturation pressure P50st) and slope (Hill’s n) of the O2 dissociation curve as well as the Bohr coefficients (BC) for CO2 and lactic acid were determined in blood of 14 adult patients (8 males, 6 females) and 14 healthy controls (6 males, 8 females). While Hill’s n amounted to approximately 2.6 in all subjects, P50st was slightly increased by 1mmHg in both patient groups (controls male 26.7±0.2, controls female 27.0±0.1, patients male 27.7±0.5, patients female 28.0±0.3 mmHg; mean and standard error, overall p<0.01). Main cause was a rise of 1–2 µmol/g hemoglobin in erythrocytic 2,3-biphosphoglycerate concentration. One patient only, clearly identified as an outlier and with the mutation G551D, showed a reduction of both P50st (24.5 mmHg) and [2,3-biphosphoglycerate] (9.8 µmol/g hemoglobin). There were no differences in BCCO2, but small sex differences in the BC for lactic acid in the controls which were not detectable in the patients. Causes for the right shift of the O2 dissociation curve might be hypoxic stimulation of erythrocytic glycolysis and an increased red cell turnover both causing increased [2,3-biphosphoglycerate]. However, for situations with additional hypercapnia as observed in exercising patients a left shift seems to be a more favourable adaptation in cystic fibrosis. Additionally when in vivo PO2 values were corrected to the standard conditions they mostly lay left of the in vitro O2 dissociation curve in both patients and controls. This hints to unknown fugitive factors influencing oxygen affinity.
Highlights
Cystic fibrosis (CF) is the most frequent genetic disease in Caucasians [1,2,3]
A right shift of the oxygen dissociation curve (ODC) under standard conditions partly compensates for the reduced diffusion pressure in the tissues because of the low oxygen saturation (SO2) in the capillaries; the shift is caused by more 2,3-biphosphoglyrate (BPG) in the red cells
PCO2 tended to higher values in males and in patients
Summary
Cystic fibrosis (CF) is the most frequent genetic disease in Caucasians [1,2,3]. Mutations on chromosome 7 (location 7q31.2) reduce the effectiveness of the cystic fibrosis transmembrane conductance regulator (CFTR), which is essential for the secretion of chloride (Cl2) and water in many glands. Because of the resulting deteriorated lung function in patients with cystic fibrosis causing hypoxia and partly hypercapnia one might expect compensatory reactions in concentration and oxygen affinity of hemoglobin (Hb) to secure oxygen loading in spite of the reduced oxygen pressure (PO2) in pulmonary capillaries. A right shift of the oxygen dissociation curve (ODC) under standard conditions (pH 7.4, PCO2 40 mmHg, 37uC) partly compensates for the reduced diffusion pressure in the tissues because of the low oxygen saturation (SO2) in the capillaries; the shift is caused by more 2,3-biphosphoglyrate (BPG) in the red cells. In contrast typical altitude animals like llamas, guinea pigs and partly birds possess left-shifted ODCs securing oxygen loading in the lungs and rather low [Hb] reducing circulatory resistance. Recent in vivo determinations of the ODC in adults point to a possible left shift of its upper part at altitude [13,14]
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