Implementing dipstick test for checking proteinuria only bears scrutiny from the viewpoint of economic evaluation. We assume that 100% of insurers would stop providing dipstick test if policy 2 is adopted. We calculate incremental cost-effectiveness ratios
(ICERs) for these two policy G418 purchase options using our economic model. ICER is a primary endpoint of cost-effectiveness analysis, which is defined as follows: $$ \beginaligned \textICER selleck = & \frac\textIncremental\;cost\textIncremental effectiveness \\ = & \frac\textCost_\textNew\;policy – \textCost_\textStatus\;quo \textEffectiveness_\textNew\;policy – \textEffectiveness_\textStatus\;quo \\ \endaligned $$ This means the additional cost required to gain one more QALY under new policy. Sensitivity analysis Economic Apoptosis inhibitor modelling is fundamentally an accumulation of assumptions adopted from diverse sources.
Therefore, it is imperative to appraise the stability of the model. We perform one-way sensitivity analyses for our model assumptions. Assumed probabilities about the participant cohort, the decision tree and the Markov model are changed by ±50%. Reductions of transition probabilities brought about by treatment are also changed by ±50%. Utility weights for quality of life adjustments are changed by ±20%. Costs are changed by ±50%. Discount rate is changed from 0% to 5%. We also changed our assumption about status quo that 40% of insurers implement dipstick test only and 60% implement dipstick test and serum Cr assay by ±50% as well. Results Model estimators Table 2 presents the model estimators.
Under the do-nothing scenario, no patient is screened, with average cost of renal disease care per person of ¥2,125,490 (US $23,617) during average survival of 16.11639 QALY. When (a) dipstick test to check proteinuria only is applied, 832 patients out of 100,000 participants are screened, with additional cost of ¥7,288 (US $81) per person compared with the do-nothing scenario, for additional survival of 0.00639 QALY (2.332 quality-adjusted life days). When (b) serum Cr assay only is applied, 3,448 patients are screened with additional cost of ¥390,002 (US $4,333) per person compared with the do-nothing scenario, for additional survival of 0.04801 QALY (17.523 quality-adjusted Interleukin-3 receptor life days). When (c) dipstick test and serum Cr assay are applied, 3,898 patients are screened with additional cost of ¥395,655 (US $4,396) per person compared with the do-nothing scenario, for additional survival of 0.04804 QALY (17.535 quality-adjusted life days). Table 2 Model estimators No. of patients per 100,000 participants Cost (¥) Incremental cost (¥) Effectiveness (QALY) Incremental effectiveness (QALY) Incremental cost-effectiveness ratio (¥/QALY) Do-nothing 0 2,125,490 16.11639 (a) Dipstick test only 832 2,132,778 7,288 16.12278 0.00639 1,139,399 (b) Serum Cr assay only 3,448 2,515,492 390,002 16.16440 0.