Background: Routine chemistry testing is typically performed using serum or plasma to assess a patient's clinical status. At our institution, serum is the specimen type used. To reduce processing times, evaluation of plasma-based and rapid serum gel separator tubes was performed.
Methods: We compared the results of routine chemistry analytes collected in serum gel separator tubes (SST), plasma gel separator tubes (PST), rapid serum gel separator tubes (RST), and plasma tubes without gel separators (DGT). Result concordance was assessed at baseline (immediate testing after processing) and up to one week of refrigerated storage. Other parameters assessed were the susceptibility to hemolysis and lipemia interference, and changes in results after re-centrifugation. Percent changes were compared against the SST and evaluated according to established bias thresholds.
Results: Total protein and potassium results at baseline in plasma-based tubes had percent changes from the SST that exceeded acceptability thresholds. Stability was significantly shortened for glucose, potassium, aspartate aminotransferase (AST) and lactate dehydrogenase (LDH) when collected in the PST as compared to the SST. The RST was the least susceptible to hemolysis and lipemia interferents. Re-centrifugation affected the serum-based analysis of potassium.
Conclusions: Plasma may reduce processing time at the expense of shortened sample stability and may require specimen source-specific reference intervals for potassium and total protein. The RST provides an alternate option to reduce processing time, while maintaining storage stability.
Keywords: Anticoagulant; Hemolysis; Interference; Lipemia; Stability; Tube.
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