Table 4.
Incremental lifetime population-level cost and clinical outcomes on the basis of projected reductions in DKA events and resulting improved HbA1c from screening and follow-up
| Percent reduction in DKA events (screening vs. no screening) | Proportion of patients with DKA events in screening arm | Incremental population average HbA1c for patients with type 1 diabetes | Incremental DKA treatment costs at diagnosis§ | Incremental other diabetes complication costs over a lifetime† | Incremental effectiveness, QALYs | Incremental total costs (ASK screening vs. no screening)‡ | Incremental total costs (routine screening vs. no screening)‡ |
|---|---|---|---|---|---|---|---|
| 0% | 46% | 0.0% | $0 | $0 | 0 | $560,000 | $1,641,000 |
| 20% | 37% | −0.1% | −$37,000 | −$506,000 | 17 | $18,000* | $1,098,000* |
| 40% | 28% | −0.3% | −$73,000 | −$965,000 | 33 | −$478,000** | $602,000* |
| 60% | 18% | −0.4% | −$110,000 | −$1,384,000 | 49 | −$934,000** | $147,000* |
| 80% | 9% | −0.5% | −$146,000 | −$1,769,000 | 64 | −$1,355,000** | −$274,000** |
All costs are in 2018 USD and rounded to the nearest $1,000.
Other diabetes complication costs include treatment and management of annual hypoglycemic events and long-run diabetes-related complications.
Total costs include screening costs for 10,029 children and adolescents, DKA treatment costs for case patients diagnosed with type 1 diabetes and experience a DKA event, and all other diabetes complication costs over a lifetime for the predicted case patients who convert to diabetes.
Costs of screening offset enough for screening to be cost-effective at ≤$150,000 per QALY.
Costs of screening offset completely, resulting in a cost savings scenario.