Lobo Jennifer M, Trifiletti Daniel M, Sturz Vanessa N, Dicker Adam P, Buerki Christine, Davicioni Elai, Cooperberg Matthew R, Karnes R Jeffrey, Jenkins Robert B, Den Robert B, Showalter Timothy N
Department of Public Health Sciences, University of Virginia School of Medicine, Charlottesville, VA.
Department of Radiation Oncology, University of Virginia School of Medicine, Charlottesville, VA.
Clin Genitourin Cancer. 2017 Jun;15(3):e299-e309. doi: 10.1016/j.clgc.2016.08.012. Epub 2016 Aug 17.
Controversy exists regarding the effectiveness of early adjuvant versus salvage radiation therapy after prostatectomy for prostate cancer. Estimates of prostate cancer progression from the Decipher genomic classifier (GC) could guide informed decision-making and improve the outcomes for patients.
We developed a Markov model to compare the costs and quality-adjusted life years (QALYs) associated with GC-based treatment decisions regarding adjuvant therapy after prostatectomy with those of 2 control strategies: usual care (determined from patterns of care studies) and the alternative of 100% adjuvant radiation therapy. Using the bootstrapping method of sampling with replacement, the cases of 10,000 patients were simulated during a 10-year time horizon, with each subject having individual estimates for cancer progression (according to GC findings) and noncancer mortality (according to age).
GC-based care was more effective and less costly than 100% adjuvant radiation therapy and resulted in cost savings up to an assay cost of $11,402. Compared with usual care, GC-based care resulted in more QALYs. Assuming a $4000 assay cost, the incremental cost-effectiveness ratio was $90,833 per QALY, assuming a 7% usage rate of adjuvant radiation therapy. GC-based care was also associated with a 16% reduction in the percentage of patients with distant metastasis at 5 years compared with usual care.
The Decipher GC could be a cost-effective approach for genomics-driven cancer treatment decisions after prostatectomy, with improvements in estimated clinical outcomes compared with usual care. The individualized decision analytic framework applied in the present study offers a flexible approach to estimate the potential utility of genomic assays for personalized cancer medicine.
前列腺癌前列腺切除术后早期辅助放疗与挽救性放疗的有效性存在争议。Decipher基因组分类器(GC)对前列腺癌进展的估计可为明智的决策提供指导,并改善患者的治疗结果。
我们开发了一个马尔可夫模型,将基于GC的前列腺切除术后辅助治疗决策相关的成本和质量调整生命年(QALY)与两种对照策略进行比较:常规治疗(根据护理模式研究确定)和100%辅助放疗。采用有放回抽样的自抽样法,在10年的时间范围内模拟了10000例患者的情况,每个受试者对癌症进展(根据GC结果)和非癌症死亡率(根据年龄)有个体估计。
基于GC的治疗比100%辅助放疗更有效且成本更低,在检测成本高达11402美元的情况下可节省成本。与常规治疗相比,基于GC的治疗可带来更多的QALY。假设检测成本为4000美元,在辅助放疗使用率为7%的情况下,增量成本效益比为每QALY 90833美元。与常规治疗相比,基于GC的治疗还使5年时远处转移患者的百分比降低了16%。
Decipher GC可能是前列腺切除术后基于基因组学的癌症治疗决策的一种具有成本效益的方法,与常规治疗相比,估计的临床结果有所改善。本研究中应用的个体化决策分析框架为评估基因组检测在个性化癌症医学中的潜在效用提供了一种灵活的方法。
