Peer-reviewed veterinary case report
Accuracy of flash glucose monitor in dogs with diabetic ketoacidosis
By Malerba, Eleonora et al.·Published in Journal of veterinary internal medicine·2020·Department of Veterinary Medical Sciences, Italy·View original on PubMed →
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Original publication title: Accuracy of a flash glucose monitoring system in dogs with diabetic ketoacidosis.
- Species:
- dog
Plain-English summary
A group of 14 dogs with diabetic ketoacidosis (DKA) were monitored using a flash glucose monitoring system (FGMS) to see how accurately it measured their blood sugar levels. The results showed that the FGMS provided reliable readings both before and after the dogs recovered from DKA, even though it didn't meet all technical standards. This means that while the device may not be perfect, it can still give veterinarians useful information about a dog's blood sugar during a serious condition like DKA.
People also search for: dog diabetic ketoacidosis treatment · flash glucose monitor for dogs · blood sugar monitoring in dogs
Abstract
BACKGROUND: A factory-calibrated flash glucose monitoring system (FGMS; FreeStyle Libre) recently was evaluated in dogs with uncomplicated diabetes mellitus. It is not known if this system is reliable during diabetic ketoacidosis (DKA). OBJECTIVES: To assess the performance of the FGMS in dogs with DKA and to determine the effect of severity of ketosis and acidosis, lactate concentration, body condition score (BCS), and time wearing the sensor on the accuracy of the device. ANIMALS: Fourteen client-owned dogs with DKA. METHODS: The interstitial glucose (IG) measurements were compared with blood glucose (BG) measurements obtained using a validated portable glucometer. The influence of changes in metabolic variables (β-hydroxybutyrate, pH, bicarbonate, and lactate) and the effect of BCS and time wearing on sensor performance were evaluated. Accuracy was determined by fulfillment of ISO15197:2013 criteria. RESULTS: Metabolic variables, BCS, and time wearing were not associated with the accuracy of the sensor. Good agreement between IG measurements and BG was obtained both before and after DKA resolution (r = .88 and r = .93, respectively). Analytical accuracy was not achieved, whereas clinical accuracy was demonstrated with 100% and 99.6% of results in zones A + B of the Parkes consensus error grid analysis before and after DKA resolution, respectively. CONCLUSIONS AND CLINICAL IMPORTANCE: Changes in metabolic variables, BCS, and time wearing do not seem to affect agreement between IG and BG. Despite not fulfilling the ISO requirements, the FGMS provides clinically accurate estimates of BG in dogs with DKA.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/31725202/