Serum bicarbonate stability study at room temperature - influence of time to centrifugation and air exposure on bicarbonate measurement reported according to the CRESS checklist
- PMID: 36645354
- DOI: 10.1515/cclm-2022-1182
Serum bicarbonate stability study at room temperature - influence of time to centrifugation and air exposure on bicarbonate measurement reported according to the CRESS checklist
Abstract
Objectives: The aim was to evaluate the stability of serum bicarbonate at room temperature, depending on time to centrifugation and air exposure.
Methods: Stability study was conducted in the laboratory of Clinical Hospital Centre Rijeka, Croatia in January-February 2022. Nine samples from 10 volunteers were collected in clot activator gel tubes (Greiner Bio-One). Bicarbonate was measured on Beckman Coulter AU480 (Beckman Coulter, Brea, USA). Three tubes were left at room temperature for 30 min, three tubes for 2 h, three tubes for 4 h until centrifugation. First tube from first group (baseline) was measured immediately after centrifugation. Other measurements were expressed as percentage deviation (PD%) from baseline. First tube was remeasured after 1 and 2 h (OT_0h_1h; OT_0h_2h). Second and third tubes were opened 1 and 2 h after centrifugation (C_0h_1h; C_0h_2h). Second group of tubes was processed the same way with 2-hour centrifugation delay (WB_2h; OT_2h_1h; OT_2h_2h; C_2h_1h; C_2h_2h), and third group with 4-hour delay (WB_4h; OT_4h_1h; OT_4h_2h; C_4h_1h; C_4h_2h). PD% was compared to Maximum Permissible Difference (MPD=5.69%). MedCalc statistical software was used (MedCalc, Ostend, Belgium).
Results: Bicarbonate baseline mean value (range) was 27.3 (23.4-29.6) mmol/L. Obtained PD% (95%CI) were: C_0h_1h 0.46 (-1.21, 2.12); C_0h_2h 0.18 (-2.22, 2.57); OT_0h_1h -6.46 (-7.57, -5.36); OT_0h_2h -10.67 (-12.13, -9.21); WB_2h -0.15 (-2.04, 1.74); C_2h_1h 0.01 (-1.52, 1.54); C_2h_2h -0.40 (-2.65, 1.85); OT_2h_1h -5.43 (-7.30, -3.55); OT_2h_2h -11.32 (-13.57, -9.07); WB_4h -0.85 (-3.28, 1.58); C_4h_1h -2.52 (-4.93, 0.11); C_4h_2h -3.02 (-5.62, 0.43); OT_4h_1h -7.34 (-9.64, -5.05); OT_4h_2h -11.85 (-14.38, -9.33).
Conclusions: Serum bicarbonate is stable for 4 h in closed uncentrifuged tubes, another 2 h in closed tubes after centrifugation, and is unstable within 1 h in opened tube.
Keywords: bicarbonates; checklist; preanalytical phase; stability.
© 2023 Walter de Gruyter GmbH, Berlin/Boston.
References
-
- Lippi, G, Betsou, F, Cadamuro, J, Cornes, M, Fleischhacker, M, Fruekilde, P, et al.. Working group for preanalytical phase (WG-PRE), European federation of clinical chemistry and laboratory medicine (EFLM). Preanalytical challenges – time for solutions. Clin Chem Lab Med 2019;57:974–81. https://doi.org/10.1515/cclm-2018-1334 . - DOI
-
- Gomez-Rioja, R, Espartosa, DM, Segovia, M, Ibarz, M, Llopis, MA, Bauca, JM, et al.. Laboratory sample stability. Is it possible to define a consensus stability function? An example of five blood magnitudes. Clin Chem Lab Med 2018;56:1806–18. https://doi.org/10.1515/cclm-2017-1189 . - DOI
-
- Gomez-Rioja, R, Amaro, MS, Diaz-Garzon, J, Bauca, JM, Espartosa, DM, Fernandez-Calle, P. A protocol for testing the stability of biochemical analytes. Technical document. Clin Chem Lab Med 2019;57:1829–36. https://doi.org/10.1515/cclm-2019-0586 . - DOI
-
- Hedayati, M, Razavi, SA, Boroomand, S, Kia, SK. The impact of preanalytical variations on biochemical analytes stability: a systematic review. J Clin Lab Anal 2020;34:e23551. https://doi.org/10.1002/jcla.23551 . - DOI
-
- Dupuy, AM, Cristol, JP, Vincent, B, Bargnoux, AS, Mendes, M, Philibert, P, et al.. Stability of routine biochemical analytes in whole blood and plasma/serum: focus on potassium stability from lithium heparin. Clin Chem Lab Med 2018;56:413–21. https://doi.org/10.1515/cclm-2017-0292 . - DOI
MeSH terms
Substances
LinkOut - more resources
Full Text Sources
