Indwelling Pleural Catheter Drainage Strategy for Malignant Effusion: A Cost-Effectiveness Analysis
Mājid Shafiq, Suzanne Simkovich, Shakir Hossen, David Feller‐Kopman
Abstract
Abstract Rationale The likelihood of achieving pleurodesis after indwelling pleural catheter (IPC) placement for malignant pleural effusion varies with the specific drainage strategy used: symptom-guided drainage, daily drainage, or talc instillation through the IPC (IPC + talc). The relative cost-effectiveness of one strategy over the other is unknown. Objectives We performed a decision tree model–based analysis to ascertain the cost-effectiveness of each IPC drainage strategy from a healthcare system perspective. Methods We developed a decision tree model using theoretical event probability data derived from three randomized clinical trials and used 2019 Medicare reimbursement data for cost estimation. The primary outcome was incremental cost-effectiveness ratio (ICER) over an analytical horizon of 6 months with a willingness-to-pay threshold of $100,000/quality-adjusted life-year (QALY). Monte Carlo probabilistic sensitivity analysis and one-way sensitivity analyses were conducted to measure the uncertainty surrounding base case estimates. Results IPC + talc was a cost-effective alternative to symptom-guided drainage, with an ICER of $59,729/QALY. Monte Carlo probabilistic sensitivity analysis revealed that this strategy was favored in 54% of simulations. However, symptom-guided drainage was cost effective for pleurodesis rates >20% and for life expectancy <4 months. Daily drainage was not cost effective in any scenario, including for patients with nonexpandable lung, in whom it had an ICER of $2,474,612/QALY over symptom-guided drainage. Conclusions For patients with malignant pleural effusion and an expandable lung, IPC + talc may be cost effective relative to symptom-guided drainage, although considerable uncertainty exists around this estimation. Daily IPC drainage is not a cost-effective strategy under any circumstance.