%0 Journal Article
%T Influence of study model, baseline catalytic concentrations and analytical system on the stability of serum alanine aminotransferase.
%A Bauça JM
%A Caballero A
%A Gómez C
%A Martínez-Espartosa D
%A García Del Pino I
%A Puente JJ
%A Llopis MA
%A Marzana I
%A Segovia M
%A Ibarz M
%A Ventura M
%A Salas P
%A Gómez-Rioja R
%J Adv Lab Med
%V 1
%N 2
%D 2020 Jun
%M 37363778
暂无%R 10.1515/almed-2020-0021
%X UNASSIGNED: The stability of the analytes most commonly used in routine clinical practice has been the subject of intensive research, with varying and even conflicting results. Such is the case of alanine aminotransferase (ALT). The purpose of this study was to determine the stability of serum ALT according to different variables.
UNASSIGNED: A multicentric study was conducted in eight laboratories using serum samples with known initial catalytic concentrations of ALT within four different ranges, namely: <50 U/L (<0.83 μkat/L), 50-200 U/L (0.83-3.33 μkat/L), 200-400 U/L (3.33-6.67 μkat/L) and >400 U/L (>6.67 μkat/L). Samples were stored for seven days at two different temperatures using four experimental models and four laboratory analytical platforms. The respective stability equations were calculated by linear regression. A multivariate model was used to assess the influence of different variables.
UNASSIGNED: Catalytic concentrations of ALT decreased gradually over time. Temperature (-4%/day at room temperature vs. -1%/day under refrigeration) and the analytical platform had a significant impact, with Architect (Abbott) showing the greatest instability. Initial catalytic concentrations of ALT only had a slight impact on stability, whereas the experimental model had no impact at all.
UNASSIGNED: The constant decrease in serum ALT is reduced when refrigerated. Scarcely studied variables were found to have a significant impact on ALT stability. This observation, added to a considerable inter-individual variability, makes larger studies necessary for the definition of stability equations.