Abstract
KEY POINTS: The mean delta anion gap (ΔAG)/delta bicarbonate (ΔHCO(3)) calculated using an albumin-corrected anion gap and each patient's individual baseline AG and serum HCO(3) was 1.20. The ΔAG/ΔHCO(3) using mean normal AG and serum HCO(3) was 1.6–1.8; use of mean normal values can result in misdiagnosis of complex acid-base disorders. The elevated ΔAG/ΔHCO(3) is likely due to unmeasured anions. BACKGROUND: The ratio of delta anion gap and delta bicarbonate (ΔAG/ΔHCO(3)) is used to detect coexisting acid-base disorders in patients with high anion gap metabolic acidosis. The ΔAG/ΔHCO(3) ratio of 1.6–1.8:1 in lactic acidosis is derived from limited data using mean normal values for anion gap (AG) and serum HCO(3). The objective of this study was to be the first to examine the ΔAG/ΔHCO(3) using each patient's individual baseline AG and serum HCO(3). METHODS: This was a retrospective cohort study of adult intensive care unit (ICU) patients with sepsis. Laboratory data from simultaneously drawn chemistry panel, including anion gap and serum lactate on admission to the ICU, were obtained. Baseline AG, HCO(3), and albumin measurements were obtained 1–24 months before ICU admission. The ΔAG/ΔHCO(3) was calculated using an albumin-corrected anion gap and each patient's individual baseline AG and serum HCO(3). RESULTS: Three hundred forty-four patients were included. One hundred twenty-eight patients had normal serum lactate levels (≤1.9 mmol/L), and 216 patients had elevated serum lactate levels (>1.9 mmol/L). ΔAG/ΔHCO(3) was calculated for the 216 patients who had elevated serum lactate levels (>1.9 mmol/L). The mean ΔAG/ΔHCO(3) for all patients with elevated serum lactate levels was 1.20 (SD 1.50). CONCLUSIONS: The mean ΔAG/ΔHCO(3) calculated using an albumin-corrected anion gap and each patient's individual baseline AG and serum HCO(3) was 1.20. The ΔAG/ΔHCO(3) reported in prior literature that used mean normal AG and serum HCO(3) was 1.6–1.8, highlighting that use of mean normal values affects the calculation of the ΔAG/ΔHCO(3) and subsequent conclusions about underlying pathophysiology. The use of these mean normal values can result in misdiagnosis of complex acid-base disorders and inappropriate treatment. Our analysis indicates that the elevated ΔAG/ΔHCO(3) is likely due to unmeasured anions contributing to an elevation in AG.