AIMS: To estimate short-term cost-effectiveness of insulin detemir vs. NPH insulin based on the incidence of mild hypoglycaemia in subjects with Type 1 diabetes in Denmark, Sweden, Finland and the Netherlands. METHODS: A model was developed to evaluate cost-effectiveness based on mild (self-treated) hypoglycaemia and pharmacy costs over 1 year. Published rates of mild hypoglycaemia were used for NPH insulin and insulin detemir. Effectiveness was calculated in terms of quality-adjusted life expectancy. Pharmacy costs were accounted using published prices and defined daily doses for both insulins. Costs were expressed in 2010 euros (€). RESULTS: Treatment with insulin detemir was associated with fewer mild hypoglycaemic events than NPH insulin (mean rates of 26.3 vs. 35.5 events per person-year), leading to an improvement in mean quality-adjusted life expectancy of approximately 0.019 (0.030) quality-adjusted life years (standard deviation). Annual costs were € 573.55 (110.42) vs. € 332.76 (62.18) in Denmark for insulin detemir and NPH insulin, respectively. These values were € 545.79 (106.54) vs. € 306.12 (57.78) in Sweden, € 720.10 (140.74) vs. € 408.73 (78.61) in Finland and € 584.01 (109.47) vs. € 359.60 (64.84) in the Netherlands. Incremental cost-effectiveness ratios were approximately € 12,644 (Denmark), € 12,612 (Sweden), € 16,568 (Finland) and € 12,216 (the Netherlands) per quality-adjusted life year gained for insulin detemir vs. NPH insulin. CONCLUSIONS: Insulin detemir is likely to be cost-effective vs. NPH insulin in subjects with Type 1 diabetes in Denmark, Sweden, Finland and the Netherlands. Increased pharmacy costs with insulin detemir should not be a barrier to therapy based on these findings.
AIMS: To estimate short-term cost-effectiveness of insulin detemir vs. NPH insulin based on the incidence of mild hypoglycaemia in subjects with Type 1 diabetes in Denmark, Sweden, Finland and the Netherlands. METHODS: A model was developed to evaluate cost-effectiveness based on mild (self-treated) hypoglycaemia and pharmacy costs over 1 year. Published rates of mild hypoglycaemia were used for NPH insulin and insulin detemir. Effectiveness was calculated in terms of quality-adjusted life expectancy. Pharmacy costs were accounted using published prices and defined daily doses for both insulins. Costs were expressed in 2010 euros (€). RESULTS: Treatment with insulin detemir was associated with fewer mild hypoglycaemic events than NPH insulin (mean rates of 26.3 vs. 35.5 events per person-year), leading to an improvement in mean quality-adjusted life expectancy of approximately 0.019 (0.030) quality-adjusted life years (standard deviation). Annual costs were € 573.55 (110.42) vs. € 332.76 (62.18) in Denmark for insulin detemir and NPH insulin, respectively. These values were € 545.79 (106.54) vs. € 306.12 (57.78) in Sweden, € 720.10 (140.74) vs. € 408.73 (78.61) in Finland and € 584.01 (109.47) vs. € 359.60 (64.84) in the Netherlands. Incremental cost-effectiveness ratios were approximately € 12,644 (Denmark), € 12,612 (Sweden), € 16,568 (Finland) and € 12,216 (the Netherlands) per quality-adjusted life year gained for insulin detemir vs. NPH insulin. CONCLUSIONS:Insulin detemir is likely to be cost-effective vs. NPH insulin in subjects with Type 1 diabetes in Denmark, Sweden, Finland and the Netherlands. Increased pharmacy costs with insulin detemir should not be a barrier to therapy based on these findings.
Authors: Andrea C Tricco; Huda M Ashoor; Jesmin Antony; Joseph Beyene; Areti Angeliki Veroniki; Wanrudee Isaranuwatchai; Alana Harrington; Charlotte Wilson; Sophia Tsouros; Charlene Soobiah; Catherine H Yu; Brian Hutton; Jeffrey S Hoch; Brenda R Hemmelgarn; David Moher; Sumit R Majumdar; Sharon E Straus Journal: BMJ Date: 2014-10-01
Authors: Cristóbal Morales; Daniel de Luis; Antonio Ramírez de Arellano; Maria Giovanna Ferrario; Luis Lizán Journal: Diabetes Ther Date: 2015-11-20 Impact factor: 2.945