Beyond bicarbonate: complete acid-base assessment in patients receiving intermittent hemodialysis.

Abstract

Acid-base assessments in hemodialysis patients have been limited almost entirely to measurements of total CO 2 concentration, and assumptions have been made about the presence of acid-base disorders. To gain a fuller understanding of the acid-base status of stable hemodialysis patients, we analyzed measurements of pCO 2 , pH and HCO 3 - obtained in a cohort of chronic stable hemodialysis patients over a 5-year period. We reviewed acid-base measurements taken pre-dialysis from fistula blood in 53 outpatients receiving hemodialysis thrice weekly between 2008 and 2012. In these patients, pH and pCO 2 were measured using an onsite blood gas analyzer, and HCO 3 - was computed. Relevant clinical and laboratory data were obtained from medical records. Factors affecting serum HCO 3 - were identified. Simple and mixed acid-base disorders were diagnosed using accepted rules. Serum HCO 3 - was affected by age, normalized protein catabolic rate, interdialytic weight gain and length of interval between treatments. As expected, metabolic acidosis was the most common acid-base disorder, but respiratory acid-base disturbances, as simple or complex disorders, were found in 41% of the measurements. Respiratory alkalosis was seen more frequently than respiratory acidosis, but the latter disorder was more commonly associated with serious comorbidities. Respiratory acid-base disorders are an important component of the acid-base abnormalities seen in hemodialysis patients and are not identified by measuring total CO 2 concentration; hence, complete acid-base measurements are needed to determine the components of hemodialysis patients' acid-base status that are contributing to mortality risk.