Jan B Pietzsch1,2, Abigail M Garner1, William J Marks3. 1. Wing Tech Inc., Menlo Park, CA, USA. 2. Department of Management Science and Engineering, Stanford University, Stanford, CA, USA. 3. Department of Neurology, School of Medicine, University of California, San Francisco, San Francisco, CA, USA. William.Marks@ucsf.edu.
Abstract
OBJECTIVES: Deep brain stimulation (DBS), which uses an implantable device to modulate brain activity, is clinically superior to medical therapy for treating advanced Parkinson's disease (PD). We studied the cost-effectiveness of DBS in conjunction with medical therapy compared to best medical therapy (BMT) alone, using the latest clinical and cost data for the U.S. healthcare system. MATERIALS AND METHODS: We used a decision-analytic state-transition (Markov) model to project PD progression and associated costs for the two treatment strategies. We estimated the discounted incremental cost-effectiveness ratio (ICER) in U.S. dollars per quality-adjusted life-year (QALY) from the Medicare payer perspective, considering a ten-year horizon, and evaluated the robustness of our projections through extensive deterministic sensitivity analyses. RESULTS: Over ten years, DBS treatment led to discounted total costs of $130,510 compared to $91,026 for BMT and added 1.69 QALYs more than BMT, resulting in an ICER of $23,404 per QALY. This ICER was relatively insensitive to variations in input parameters, with neurostimulator replacement, costs for DBS implantation, and costs for treatment of disease-related falls having the greatest effects. Across all investigated scenarios, including a five-year horizon, ICERs remained under $50,000 per QALY. Longer follow-up periods and younger treatment age were associated with greater cost-effectiveness. CONCLUSIONS: DBS is a cost-effective treatment strategy for advanced PD in the U.S. healthcare system across a wide range of assumptions. DBS yields substantial improvements in health-related quality of life at a value profile that compares favorably to other well-accepted therapies.
OBJECTIVES: Deep brain stimulation (DBS), which uses an implantable device to modulate brain activity, is clinically superior to medical therapy for treating advanced Parkinson's disease (PD). We studied the cost-effectiveness of DBS in conjunction with medical therapy compared to best medical therapy (BMT) alone, using the latest clinical and cost data for the U.S. healthcare system. MATERIALS AND METHODS: We used a decision-analytic state-transition (Markov) model to project PD progression and associated costs for the two treatment strategies. We estimated the discounted incremental cost-effectiveness ratio (ICER) in U.S. dollars per quality-adjusted life-year (QALY) from the Medicare payer perspective, considering a ten-year horizon, and evaluated the robustness of our projections through extensive deterministic sensitivity analyses. RESULTS: Over ten years, DBS treatment led to discounted total costs of $130,510 compared to $91,026 for BMT and added 1.69 QALYs more than BMT, resulting in an ICER of $23,404 per QALY. This ICER was relatively insensitive to variations in input parameters, with neurostimulator replacement, costs for DBS implantation, and costs for treatment of disease-related falls having the greatest effects. Across all investigated scenarios, including a five-year horizon, ICERs remained under $50,000 per QALY. Longer follow-up periods and younger treatment age were associated with greater cost-effectiveness. CONCLUSIONS: DBS is a cost-effective treatment strategy for advanced PD in the U.S. healthcare system across a wide range of assumptions. DBS yields substantial improvements in health-related quality of life at a value profile that compares favorably to other well-accepted therapies.
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