Effect of the Independent Acid Base Variables on Anion Gap Variation in Cardiac Surgical Patients: A Stewart-Figge Approach

Purpose. To determine the effect of each of independent acid base variables on the anion gap (AG) value in cardiac surgical patients. Methods. This retrospective study involved 128 cardiac surgical patients admitted for postoperative care. The variation of AG ( A G v a r ) between the day of admissi...

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Published in:TheScientificWorld 2014-01, Vol.2014 (2014), p.1-6
Main Authors: Michaelidis, Vassileios, Diplaris, Konstantinos, Diminikos, George, Papoti, Sofia, Keklikoglou, Ilias, Agrafiotis, Michalis
Format: Article
Language:English
Subjects:
Acid-Base Equilibrium
Acid-Base Imbalance - diagnosis
Acid-Base Imbalance - etiology
Acids
Aged
Carbon dioxide
Cardiac Surgical Procedures - adverse effects
Clinical Study
Electrolytes
Equilibrium
Female
Gases
Health aspects
Heart
Hospitals
Humans
Intensive Care Units
Male
Mathematical models
Middle Aged
Patients
Postoperative period
Retrospective Studies
Studies
Surgery
Variables
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Summary:Purpose. To determine the effect of each of independent acid base variables on the anion gap (AG) value in cardiac surgical patients. Methods. This retrospective study involved 128 cardiac surgical patients admitted for postoperative care. The variation of AG ( A G v a r ) between the day of admission and the first postoperative day was correlated via a multiple linear regression model with the respective variations of the independent acid base variables, that is, apparent strong ion difference ( S I D a ), strong ion gap (SIG), carbon dioxide (PCO2), and albumin and phosphate concentrations. Results. The variations of all the above variables contributed significantly to the prediction of A G v a r (adjusted R 2 = 0.9999 , F = 201890.24 , and P < 0.001 ). According to the standardized coefficients (β), S I G v a r (β = 0.948, P < 0.001 ), [ A l b u m i n ] v a r (β = 0.260, P < 0.001 ), and [ P h o s p h a t e ] v a r (β = 0.191, P < 0.001 ) were the major determinants of A G v a r with lesser contributions from S I D a , v a r (β = 0.071, P < 0.001 ) and P C O 2 , v a r (β = −0.067, P < 0.001 ). Conclusions. All the independent acid base variables contribute to the prediction of the AG value. However, albumin and phosphate and SIG variations seem to be the most important predictors, while AG appears to be rather stable with changes in PCO2 and S I D a .
ISSN:2356-6140
1537-744X
1537-744X
DOI:10.1155/2014/907521