Evaluation of a point‐of‐care electrochemical meter to detect subclinical ketosis and hypoglycaemia in lactating dairy cows

Objectives To evaluate and validate a hand‐held electrochemical meter (Precision Xtra®) as a screening test for subclinical ketosis and hypoglycaemia in lactating dairy cattle. Design Method comparison study using a convenience sample. Procedure Blood samples were collected into plain tubes from the...

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Bibliographic Details
Published in:Australian veterinary journal 2017-04, Vol.95 (4), p.123-128
Main Authors: Zakian, A, Tehrani‐Sharif, M, Mokhber‐Dezfouli, MR, Nouri, M, Constable, PD
Format: Article
Language:English
Subjects:
3-Hydroxybutyric Acid - blood
Animals
Blood Chemical Analysis - instrumentation
Blood Chemical Analysis - veterinary
Blood Glucose - analysis
Cattle
Cattle Diseases - diagnosis
dairy cattle
Dairying - instrumentation
Dairying - methods
Female
hyperketonaemia
hypoglycaemia
Hypoglycemia - diagnosis
Hypoglycemia - veterinary
Iran
ketosis
Ketosis - diagnosis
Ketosis - veterinary
Lactation
method comparison
Point-of-Care Systems
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Summary:Objectives To evaluate and validate a hand‐held electrochemical meter (Precision Xtra®) as a screening test for subclinical ketosis and hypoglycaemia in lactating dairy cattle. Design Method comparison study using a convenience sample. Procedure Blood samples were collected into plain tubes from the coccygeal vessels of 181 Holstein cows at 2–4 weeks of lactation during summer in Iran. Blood β‐hydroxybutyrate concentration (BHB) and glucose concentration were immediately measured by the electrochemical meter after applying 20 μL of blood to the reagent strip. Passing–Bablok regression and Bland‐Altman plots were used to determine the accuracy of the meter against laboratory reference methods (BHB dehydrogenase and glucose oxidase). Results Serum BHB ranged from 0.1 to 7.3 mmol/L and serum glucose ranged from 0.9 to 5.1 mmol/L. Passing–Bablok regression analysis indicated that the electrochemical meter and reference methods were linearly related for BHB and glucose, with a slope estimate that was not significantly different from 1.00. Clinically minor, but statistically significant, differences were present for the intercept value for Passing–Bablok regression analysis for BHB and glucose, and bias estimates in the Bland‐Altman plots for BHB and glucose. Conclusion The electrochemical meter provided a clinically useful method to detect subclinical ketosis and hypoglycaemia in lactating dairy cows. Compared with other method validation studies using the meter, we attributed the improved performance of the electrochemical meter to application of a fixed volume of blood (20 μL) to the reagent strip, use of the meter in hot ambient conditions and use of glucose oxidase as the reference method for glucose analysis.
ISSN:0005-0423
1751-0813
DOI:10.1111/avj.12568