Effectiveness of the Stewart Method in the Evaluation of Blood Gas Parameters

Overview

Journal Turk J Emerg Med

Specialty Emergency Medicine

Date 2016 Jul 21

PMID 27437520

Citations 2

Authors

Mustafa Gezer

Fatih Bulucu

Kadir Ozturk

Selim Kilic

Umit Kaldirim

Yusuf Emrah Eyi

Affiliations

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Abstract

Objectives: In 1981, Peter A. Stewart published a paper describing his concept for employing Strong Ion Difference. In this study we compared the HCO3 levels and Anion Gap (AG) calculated using the classic method and the Stewart method.

Methods: Four hundred nine (409) arterial blood gases of 90 patients were collected retrospectively. Some were obtained from the same patients in different times and conditions. All blood samples were evaluated using the same device (ABL 800 Blood Gas Analyzer). HCO3 level and AG were calculated using the Stewart method via the website AcidBase.org. HCO3 levels, AG and strong ion difference (SID) were calculated using the Stewart method, incorporating the parameters of age, serum lactate, glucose, sodium, and pH, etc.

Results: According to classic method, the levels of HCO3 and AG were 22.4±7.2 mEq/L and 20.1±4.1 mEq/L respectively. According to Stewart method, the levels of HCO3 and AG were 22.6±7.4 and 19.9±4.5 mEq/L respectively.

Conclusions: There was strong correlation between the classic method and the Stewart method for calculating HCO3 and AG. The Stewart method may be more effective in the evaluation of complex metabolic acidosis.

Citing Articles

Evaluation of agreement between a noninvasive method for real-time measurement of critical blood values with a standard point-of-care device.

Ettrich R, Caballero J, Sakharkar P, Ahmed S, Hurlston T, Parmar J PLoS One. 2024; 19(6):e0304706.

PMID: 38889168 PMC: 11185484. DOI: 10.1371/journal.pone.0304706.

Revisiting Stewart's Approach toward Assessment of Unidentified or Complex Acid-Base Disorders.

Gopaldas J Indian J Crit Care Med. 2022; 26(1):5-6.

PMID: 35110833 PMC: 8783241. DOI: 10.5005/jp-journals-10071-24099.

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