RESUMEN
BACKGROUND: The prevalence of diabetes has increased substantially in Mexico over the last 40 years, leading to significant impacts on population health and the healthcare system. Technology-based solutions may improve diabetes outcomes in areas where lack of efficient transportation creates barriers to care. OBJECTIVES: To estimate the lifetime cost-effectiveness of a technology-based diabetes care management program from the perspective of the Mexican healthcare system. METHODS: Clinical outcomes and cost data from a 3-arm randomized clinical trial of Dulce Wireless Tijuana, a diabetes care management program incorporating short-term mobile technology, were used as inputs in a validated simulation model for type 2 diabetes. Study arms included a control group (CG), Project Dulce diabetes care management (PD), and Project Dulce with technology enhancement (PD-TE). RESULTS: Intervention costs were $1448 for PD and $1740 for PD-TE compared with $740 for CG. Both intervention arms increased quality-adjusted life-years and costs. The incremental cost-effectiveness ratio for PD was $1635 and for PD-TE was $2220, both compared with CG. The incremental cost-effectiveness ratio for PD-TE versus PD was $4299. The results were sensitive to the time horizon. The PE and PD-TE interventions were cost-effective under time horizons of 15 to 20 years, but were not cost-effective under time horizons of 5 to 10 years. CONCLUSIONS: Both the PD and PD-TE were highly cost-effective from a Mexican health system perspective. Considering the economic impact of the diabetes epidemic and the widespread use of cellular technology in Mexico, implementation of PD-TE is warranted.