Estimating Glycemia From HbA1c and CGM: Analysis of Accuracy and Sources of Discrepancy

Diabetes Care. 2024 Mar 1;47(3):460-466. doi: 10.2337/dc23-1177.

Abstract

Objective: To examine the accuracy of different periods of continuous glucose monitoring (CGM), hemoglobin A1c (HbA1c), and their combination for estimating mean glycemia over 90 days (AG90).

Research design and methods: We retrospectively studied 985 CGM periods of 90 days with <10% missing data from 315 adults (86% of whom had type 1 diabetes) with paired HbA1c measurements. The impact of mean red blood cell age as a proxy for nonglycemic effects on HbA1c was estimated using published theoretical models and in comparison with empirical data. Given the lack of a gold standard measurement for AG90, we applied correction methods to generate a reference (eAG90) that we used to assess accuracy for HbA1c and CGM.

Results: Using 14 days of CGM at the end of the 90-day period resulted in a mean absolute error (95th percentile) of 14 (34) mg/dL when compared with eAG90. Nonglycemic effects on HbA1c led to a mean absolute error for average glucose calculated from HbA1c of 12 (29) mg/dL. Combining 14 days of CGM with HbA1c reduced the error to 10 (26) mg/dL. Mismatches between CGM and HbA1c >40 mg/dL occurred more than 5% of the time.

Conclusions: The accuracy of estimates of eAG90 from limited periods of CGM can be improved by averaging with an HbA1c-based estimate or extending the monitoring period beyond ∼26 days. Large mismatches between eAG90 estimated from CGM and HbA1c are not unusual and may persist due to stable nonglycemic factors.

MeSH terms

  • Adult
  • Blood Glucose Self-Monitoring / methods
  • Blood Glucose* / analysis
  • Diabetes Mellitus, Type 1*
  • Glycated Hemoglobin
  • Humans
  • Retrospective Studies

Substances

  • Glycated Hemoglobin
  • Blood Glucose