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ABSTRACT: Background
The lung, the kidney, and the liver are major regulators of acid-base balance. Acidosis due to the dysfunction of one or more organs can increase mortality, especially in critically ill patients. Supporting compensation by increasing ventilation or infusing bicarbonate is often ineffective. Therefore, direct removal of acid may represent a novel therapeutic approach. This can be achieved with the ADVanced Organ Support (ADVOS) system, an enhanced renal support therapy based on albumin dialysis. Here, we demonstrate proof of concept for this technology.Methods
An ex vivo model of either hypercapnic (i.e., continuous CO2 supply) or lactic acidosis (i.e., lactic acid infusion) using porcine blood was subjected to hemodialysis with ADVOS. A variety of operational parameters including blood and dialysate flows, different dialysate pH settings, and acid and base concentrate compositions were tested. Comparisons with standard continuous veno-venous hemofiltration (CVVH) using high bicarbonate substitution fluid and continuous veno-venous hemodialysis (CVVHD) were also performed.Results
Sixty-one milliliters per minute (2.7?mmol/min) of CO2 was removed using a blood flow of 400?ml/min and a dialysate pH of 10 without altering blood pCO2 and HCO3- (36?mmHg and 20?mmol/l, respectively). Up to 142?ml/min (6.3?mmol/min) of CO2 was eliminated if elevated pCO2 (117?mmHg) and HCO3- (63?mmol/l) were allowed. During continuous lactic acid infusion, an acid load of up to 3?mmol/min was compensated. When acidosis was triggered, ADVOS multi normalized pH and bicarbonate levels within 1?h, while neither CVVH nor CVVHD could. The major determinants to correct blood pH were blood flow, dialysate composition, and initial acid-base status.Conclusions
In conclusion, ADVOS was able to remove more than 50% of the amount of CO2 typically produced by an adult human. Blood pH was maintained stable within the physiological range through compensation of a metabolic acid load by albumin dialysate. These in vitro results will require confirmation in patients.
SUBMITTER: Perez Ruiz de Garibay A
PROVIDER: S-EPMC6751235 | biostudies-literature | 2019 Sep
REPOSITORIES: biostudies-literature
Perez Ruiz de Garibay Aritz A Kellum John A JA Honigschnabel Johannes J Kreymann Bernhard B
Intensive care medicine experimental 20190918 1
<h4>Background</h4>The lung, the kidney, and the liver are major regulators of acid-base balance. Acidosis due to the dysfunction of one or more organs can increase mortality, especially in critically ill patients. Supporting compensation by increasing ventilation or infusing bicarbonate is often ineffective. Therefore, direct removal of acid may represent a novel therapeutic approach. This can be achieved with the ADVanced Organ Support (ADVOS) system, an enhanced renal support therapy based on ...[more]