Oznur Yilmaz1, Tolga Karapinar1. 1. Department of Internal Medicine, Faculty of Veterinary Medicine, Firat University, Elazig, Turkey.
Abstract
BACKGROUND: Information regarding the performance of the i-STAT, a point-of-care analyzer, to determine ionized calcium (iCa2+ ) concentration in bovine blood is limited. OBJECTIVE: The primary goal of this study was to evaluate the agreement of the i-STAT against a traditional bench-top blood gas analyzer (Radiometer ABL800 FLEX) in the measurement of iCa2+ in the blood of cattle with various disorders. METHODS: In this study, 121 cattle with various diseases were used. Venous blood samples were run on the i-STAT and the Radiometer ABL800 FLEX for determination of blood iCa2+ concentrations. Data were subjected to Passing-Bablok regression and Bland-Altman plots. The Radiometer ABL800 FLEX was the reference method and the i-STAT was the test method. The i-STAT performance was evaluated at two different cutoff values for iCa2+ concentrations (<1.00 and <1.18 mmol/L) using the receiver operating characteristic curve. RESULTS: The Passing-Bablok regression equation that fit the iCa2+ concentration as measured with the i-STAT (Y) and the Radiometer ABL800 FLEX (X), was Y = -0.108276 [-0.15/-0.06] + 1.103448 [1.06/1.14] × X, with a residual deviation of 0.02. The deviation from the identity line was not significant (P = 0.64). The Bland-Altman difference plot revealed no bias between the i-STAT and the Radiometer ABL 800 FLEX. The i-STAT had a sensitivity of 100% (95% CI, 87.7-100.0) and 94.8% (95% CI, 87.2-98.6) at the iCa2+ concentration cutoff values of <1.00 and <1.18 mmol/L, respectively. CONCLUSIONS: iCa2+ concentrations in bovine blood measured with the i-STAT agreed with those of the Radiometer ABL800 FLEX. In particular, the i-STAT predicted hypocalcemia with a high sensitivity.
BACKGROUND: Information regarding the performance of the i-STAT, a point-of-care analyzer, to determine ionizedcalcium (iCa2+ ) concentration in bovine blood is limited. OBJECTIVE: The primary goal of this study was to evaluate the agreement of the i-STAT against a traditional bench-top blood gas analyzer (Radiometer ABL800 FLEX) in the measurement of iCa2+ in the blood of cattle with various disorders. METHODS: In this study, 121 cattle with various diseases were used. Venous blood samples were run on the i-STAT and the Radiometer ABL800 FLEX for determination of blood iCa2+ concentrations. Data were subjected to Passing-Bablok regression and Bland-Altman plots. The Radiometer ABL800 FLEX was the reference method and the i-STAT was the test method. The i-STAT performance was evaluated at two different cutoff values for iCa2+ concentrations (<1.00 and <1.18 mmol/L) using the receiver operating characteristic curve. RESULTS: The Passing-Bablok regression equation that fit the iCa2+ concentration as measured with the i-STAT (Y) and the Radiometer ABL800 FLEX (X), was Y = -0.108276 [-0.15/-0.06] + 1.103448 [1.06/1.14] × X, with a residual deviation of 0.02. The deviation from the identity line was not significant (P = 0.64). The Bland-Altman difference plot revealed no bias between the i-STAT and the Radiometer ABL 800 FLEX. The i-STAT had a sensitivity of 100% (95% CI, 87.7-100.0) and 94.8% (95% CI, 87.2-98.6) at the iCa2+ concentration cutoff values of <1.00 and <1.18 mmol/L, respectively. CONCLUSIONS:iCa2+ concentrations in bovine blood measured with the i-STAT agreed with those of the Radiometer ABL800 FLEX. In particular, the i-STAT predicted hypocalcemia with a high sensitivity.
Authors: Jasper E Burke; Thuy Hien T Nguyen; Tanya Davis; Amie Koenig; Selena L Lane; Jennifer Good; Benjamin M Brainard Journal: J Vet Diagn Invest Date: 2021-05-28 Impact factor: 1.569
Authors: Ingeborg Hospach; Jacques Goldstein; Kai Harenski; John G Laffey; Dominique Pouchoulin; Manuela Raible; Stefanie Votteler; Markus Storr Journal: Intensive Care Med Exp Date: 2020-05-13