Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration

Ariadna Arbiol-Roca; Claudia Elizabeth Imperiali; Dolors Dot-Bach; José Valero-Politi; Macarena Dastis-Arias

doi:10.3343/alm.2020.40.6.448

@article{ART002638220,
author={Ariadna Arbiol-Roca and Claudia Elizabeth Imperiali and Dolors Dot-Bach and José Valero-Politi and Macarena Dastis-Arias},
title={Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration},
journal={Annals of Laboratory Medicine},
issn={2234-3806},
year={2020},
volume={40},
number={6},
pages={448-456},
doi={10.3343/alm.2020.40.6.448}
}

TY - JOUR
AU - Ariadna Arbiol-Roca
AU - Claudia Elizabeth Imperiali
AU - Dolors Dot-Bach
AU - José Valero-Politi
AU - Macarena Dastis-Arias
TI - Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration
T2 - Annals of Laboratory Medicine
JO - Annals of Laboratory Medicine
PY - 2020
VL - 40
IS - 6
PB - 대한진단검사의학회
SP - 448
EP - 456
SN - 2234-3806
AB - Background: The storage temperature and time of blood gas samples collected in syringes constitute preanalytical variables that could affect blood gas or lactate concentration measurement results. We analyzed the effect of storage temperature and time delay on arterial or venous blood gas stability related to pH, partial pressure of carbon dioxide (pCO2) and oxygen (pO2), hemoglobin oxygen saturation (sO2), and lactate concentration. Methods: In total, 1,200 arterial and venous blood sample syringes were analyzed within 10 minutes of collection. The samples were divided into different groups to determine parameter stability at 25, 4–8, and 0–3.9°C and at different storage times, 60, 45, 30, and 15 minutes. Independent sample groups were used for each analysis. Percentage deviations were calculated and compared with acceptance stability limits (1.65× coefficient of variation). Additionally, sample group sub analysis was performed to determine whether stability was concentration-dependent for each parameter. Results: The pH was stable over all storage times at 4–8 and 0–3.9°C and up to 30 minutes at 25°C. pCO2 was stable at ≤60 minutes at all temperatures. pO2 was stable for 45 minutes at 0–3.9°C, and sO2 was stable for 15 minutes at 25°C and for ≤60 minutes at 0–3.9°C. Lactate concentration was stable for 45 minutes at 0–3.9°C. Subanalysis showed that stability was concentration-dependent. Conclusions: The strictest storage temperature and time criteria (0–3.9°C, 45 minutes) should be adopted for measuring pH, pCO2, pO2, sO2, and lactate concentration in blood gas syringes.
KW - Stability, Blood gases, Storage, Temperature, Time, Preanalytical variables.
DO - 10.3343/alm.2020.40.6.448
ER -

Ariadna Arbiol-Roca, Claudia Elizabeth Imperiali, Dolors Dot-Bach, José Valero-Politi and Macarena Dastis-Arias. (2020). Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration. Annals of Laboratory Medicine, 40(6), 448-456.

Ariadna Arbiol-Roca, Claudia Elizabeth Imperiali, Dolors Dot-Bach, José Valero-Politi and Macarena Dastis-Arias. 2020, "Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration", Annals of Laboratory Medicine, vol.40, no.6 pp.448-456. Available from: doi:10.3343/alm.2020.40.6.448

Ariadna Arbiol-Roca, Claudia Elizabeth Imperiali, Dolors Dot-Bach, José Valero-Politi, Macarena Dastis-Arias "Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration" Annals of Laboratory Medicine 40.6 pp.448-456 (2020) : 448.

Ariadna Arbiol-Roca, Claudia Elizabeth Imperiali, Dolors Dot-Bach, José Valero-Politi, Macarena Dastis-Arias. Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration. 2020; 40(6), 448-456. Available from: doi:10.3343/alm.2020.40.6.448

Ariadna Arbiol-Roca, Claudia Elizabeth Imperiali, Dolors Dot-Bach, José Valero-Politi and Macarena Dastis-Arias. "Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration" Annals of Laboratory Medicine 40, no.6 (2020) : 448-456.doi: 10.3343/alm.2020.40.6.448

Ariadna Arbiol-Roca; Claudia Elizabeth Imperiali; Dolors Dot-Bach; José Valero-Politi; Macarena Dastis-Arias. Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration. Annals of Laboratory Medicine, 40(6), 448-456. doi: 10.3343/alm.2020.40.6.448

Ariadna Arbiol-Roca; Claudia Elizabeth Imperiali; Dolors Dot-Bach; José Valero-Politi; Macarena Dastis-Arias. Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration. Annals of Laboratory Medicine. 2020; 40(6) 448-456. doi: 10.3343/alm.2020.40.6.448

Ariadna Arbiol-Roca, Claudia Elizabeth Imperiali, Dolors Dot-Bach, José Valero-Politi, Macarena Dastis-Arias. Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration. 2020; 40(6), 448-456. Available from: doi:10.3343/alm.2020.40.6.448

Ariadna Arbiol-Roca, Claudia Elizabeth Imperiali, Dolors Dot-Bach, José Valero-Politi and Macarena Dastis-Arias. "Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration" Annals of Laboratory Medicine 40, no.6 (2020) : 448-456.doi: 10.3343/alm.2020.40.6.448

Stability of pH, Blood Gas Partial Pressure, Hemoglobin Oxygen Saturation Fraction, and Lactate Concentration

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