PURPOSE: To ascertain the incremental cost-effectiveness of therapeutic interventions for improving visual loss associated with branch retinal vein occlusion. METHODS: A cost-utility analysis incorporating data from the Branch Vein Occlusion Study Group was performed using patient-based preferences obtained from time tradeoff utility analysis, decision analysis with Markov modeling, and economic modeling with future value analysis. The cost-effectiveness results are expressed in dollars/QALY (dollars expended per quality-adjusted life-year) gained. This unique model takes into account the visual acuity in the better seeing eye and the recurrent risk for visual loss in the contralateral eye. RESULTS: Laser therapy for macular edema secondary to branch retinal vein occlusion was associated with an incremental dollars/QALY gained of 6118 dollars (in year 2000 U.S. dollars). Two-way sensitivity analysis, varying the discount rate and the proportion of patients developing a vascular occlusion in the contralateral eye, revealed a range of dollars/QALY gained from 3370 dollars to 19,299 dollars. CONCLUSIONS: Laser therapy appears to be a cost-effective intervention for improving visual loss associated with macular edema secondary to branch retinal vein occlusion. Variants of the methodology employed to calculate the incremental cost-effectiveness of this intervention can be widely applied across all specialties in medicine.
PURPOSE: To ascertain the incremental cost-effectiveness of therapeutic interventions for improving visual loss associated with branch retinal vein occlusion. METHODS: A cost-utility analysis incorporating data from the Branch Vein Occlusion Study Group was performed using patient-based preferences obtained from time tradeoff utility analysis, decision analysis with Markov modeling, and economic modeling with future value analysis. The cost-effectiveness results are expressed in dollars/QALY (dollars expended per quality-adjusted life-year) gained. This unique model takes into account the visual acuity in the better seeing eye and the recurrent risk for visual loss in the contralateral eye. RESULTS: Laser therapy for macular edema secondary to branch retinal vein occlusion was associated with an incremental dollars/QALY gained of 6118 dollars (in year 2000 U.S. dollars). Two-way sensitivity analysis, varying the discount rate and the proportion of patients developing a vascular occlusion in the contralateral eye, revealed a range of dollars/QALY gained from 3370 dollars to 19,299 dollars. CONCLUSIONS: Laser therapy appears to be a cost-effective intervention for improving visual loss associated with macular edema secondary to branch retinal vein occlusion. Variants of the methodology employed to calculate the incremental cost-effectiveness of this intervention can be widely applied across all specialties in medicine.
Authors: Gary C Brown; Melissa M Brown; Sanjay Sharma; Heidi Brown; Lindsay Smithen; David B Leeser; George Beauchamp Journal: Trans Am Ophthalmol Soc Date: 2004