Objective: Structural inequities impede technology uptake in marginalized populations living with type 1 diabetes (T1D). Our objective was to describe hemoglobin A1c (HbA1c), time in range (TIR), and pump use to evaluate the impact of a universal funding policy for continuous glucose monitoring (CGM) across levels of deprivation in children with T1D in the Canadian province of British Columbia (BC). Methods: Patients with T1D and at least one outpatient visit after June 10, 2020 (1-year before universal CGM funding) who were enrolled in the BC Pediatric Diabetes Registry were included (n = 477). The Canadian Index of Multiple Deprivation (quintile 1 = least deprived; quintile 5 = most deprived) was determined using postal code. Mixed effects models were used to describe HbA1c, TIR, and pump use, and an interrupted time series generalized additive model estimated the change in CGM use pre- and postintroduction of universal coverage. Results: No differences were observed among the five levels of deprivation for HbA1c and TIR; however, for residential instability, those with the highest level of deprivation had a lower probability of pump use (-18.9%, 95% confidence interval [CI] = -26.1% to -11.7% for quintile 5 vs. 1). There was an increase in CGM uptake across all levels of deprivation 1-year after introduction of universal CGM funding. For example, the difference in sensor use from the most to least deprived situational group was -21.0% (-35.4%, -6.6%) at the time of universal coverage and shrank to -4.6% (-21.6%, 12.4%) after 12 months of coverage. However, an equity gap in CGM use persisted between the least and most deprived groups (-21.9, 95% CI = -34.5 to -9.4 for quintile 5 vs. 1 in economic dependency). Conclusions: Universal coverage of CGM improved uptake; however, equity gaps persisted. More research is needed to explore nonfinancial barriers to diabetes technology use in marginalized populations.
Keywords: access; continuous glucose monitoring; deprivation; equity; type 1 diabetes.