Economic Value of Bronchoscopy Technologies that Improves Sensitivity for Malignancy for Peripheral Pulmonary Lesions.

David E Ost, Fabien Maldonado, Jason Shafrin, Jaehong Kim, Moises A Marin, Tony B Amos, Deanna S Hertz, Iftekhar Kalsekar, Anil Vachani
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引用次数: 0

Abstract

Rationale: Although previous studies have assessed the clinical or economic value of specific technologies, the economic value of improving sensitivity for malignancy in lung cancer diagnoses broadly across technologies is unclear. Objectives: To identify the economic value of improving sensitivity of bronchoscopy biopsy for the diagnosis of lung cancer. Methods: A decision analytic model was developed to quantify the economic value of increased sensitivity for malignancy for bronchoscopy biopsy of peripheral pulmonary lesions. Primary clinical outcomes included time to diagnosis and survival. Economic outcomes included 1) net monetary benefit (NMB), defined as the health benefits measured in quality-adjusted life-years (QALYs) times willingness to pay ($100,000/QALY) net of changes in medical costs; and 2) incremental cost-effectiveness ratio. A decision tree modeling framework with two Markov module branches was developed. The two Markov modules corresponded to patients with cancer who were 1) diagnosed and treated or 2) undiagnosed and remained untreated. Outcomes were measured from a U.S. payer perspective over 30 years. Results: Improving sensitivity for malignancy by 10 percentage points decreased average time to diagnosis for patients with lung cancer by 0.85 month (4 wk) and increased survival by 0.36 year (19 wk) because of faster treatment initiation. Overall health outcomes improved by 0.20 QALYs per patient. Cost increased by $6,727 per patient primarily through increased treatment costs among those diagnosed with cancer. Increasing sensitivity for malignancy by 10 percentage points improved NMB by $8,729 over 30 years (incremental cost-effectiveness ratio of $34,052), driven largely by improved sensitivity to early-stage cancer (stage-specific NMB, I/II, $19,805; III, $2,101; IV, -$1,438). Forty-two percent of overall NMB ($3,668) accrued within 5 years of biopsy. The relationship between change in sensitivity and NMB was approximately linear (1% vs. 10% sensitivity improvement corresponded to NMB of $885 vs. $8,729). The model was most sensitive to cancer treatment efficacy and follow-up time after a negative result. Conclusions: Increasing sensitivity of malignancy by 10 percentage points resulted in a $8,729 improvement in net economic value. Health systems can use this information when making decisions regarding the value of new bronchoscopy technologies.

提高周围肺部病变恶性肿瘤敏感性的支气管镜检查技术的经济价值。
理论依据:以往的研究对特定技术的临床或经济价值进行了评估,但提高肺癌诊断中各种技术的恶性肿瘤敏感性的经济价值尚不清楚:目的:确定提高支气管镜活检诊断肺癌灵敏度的经济价值:方法:建立了一个决策分析模型,以量化提高支气管镜活检外周肺部病变恶性敏感性的经济价值。主要临床结果包括诊断时间和生存率。经济学结果包括:(i) 净货币效益 (NMB),定义为以质量调整生命年 (QALY) 乘以支付意愿(100,000 美元/QALY),扣除医疗费用变化后的健康效益;(ii) 增量成本效益比 (ICER)。我们开发了一个决策树建模框架,其中有两个马尔可夫模块分支。这两个马尔可夫模块分别对应于(i)已确诊并接受治疗或(ii)未确诊且仍未接受治疗的癌症患者。从美国付款人的角度对30年来的结果进行了测量:将恶性肿瘤的敏感性提高 10 个百分点后,肺癌患者的平均诊断时间缩短了 0.85 个月(4 周),生存期延长了 0.36 年(19 周),这是因为开始治疗的时间缩短了。每位患者的总体健康状况提高了 0.20 QALYs。每位患者的成本增加了 6,727 美元,主要是由于确诊癌症患者的治疗成本增加。将对恶性肿瘤的敏感性提高 10 个百分点,可在 30 年内将 NMB 提高 8729 美元(ICER 为 34052 美元),这主要是由于提高了对早期癌症的敏感性(特异性 NMB:I/II 期:19805 美元;III 期:2101 美元;IV 期:-1438 美元)。总体 NMB 的 42% (3,668 美元)是在活检后 5 年内产生的。灵敏度变化与 NMB 之间呈近似线性关系(灵敏度提高 1%,NMB 为 885 美元;灵敏度提高 10%,NMB 为 8729 美元)。该模型对癌症治疗效果和阴性结果后的随访时间最为敏感:结论:将恶性肿瘤的敏感性提高 10 个百分点,可使净经济价值提高 8729 美元。医疗系统在决定支气管镜检查新技术的价值时可以利用这一信息。本文根据知识共享署名非商业性无衍生品许可 4.0 ( http://creativecommons.org/licenses/by-nc-nd/4.0/ ) 条款开放获取和发布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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