Ben Dori Shani, Aizic Asaf, Sabo Edmond, Hershkovitz Dov
B. Rappaport Faculty of Medicine, Technion-Israel Institute of Technology, Israel.
Institute of Pathology, Tel-Aviv Sourasky Medical Center, Tel-Aviv, Israel.
Lung Cancer. 2020 Sep;147:91-98. doi: 10.1016/j.lungcan.2020.07.012. Epub 2020 Jul 13.
Intra-tumor heterogeneity for PD-L1 expression in non-small cell lung cancer (NSCLC) might lead to inaccurate stratification of patients to immunotherapy. The purpose of this research was to quantitate the effect of different factors on the risk of inaccurate diagnosis of PD-L1 expression.
MATLAB software was used to model tumor with a different fraction, distribution and clustering of PD-L1 protein expression and their effect on false positive and negative diagnosis in subsets of the modeled tumor (representing biopsies). Additionally, we evaluated the agreement between PD-L1 status in random segments and whole slides of PD-L1 stained clinical NSCLC cases.
Our computer-based model showed a significant increase in error rate when the fraction of PD-L1 positive cells was closer to the cut-off value (error rate of 33.33 %, 0.45 % and 0.74 % for PD-L1 positivity in 40-60%, ≤20 % and ≥80 % of tumor cells, respectively, P < 0.0001). In addition, biopsy size showed negative correlation with error rate (P < 0.0001) and larger clusters of PD-L1 positive cells were associated with higher error rate (P < 0.0001). Analysis of the clinical samples supported those of the computer-based model with higher error rate in cases with positive PD-L1 expression closer to the cutoff value. Based on our computerized model and clinical analysis, we developed a model to predict error rate based on biopsy size and the fraction of PD-L1 positive cells in the biopsy.
Analysis of small biopsies for PD-L1 expression might be associated with significant error rate. The model presented can be used to identify cases with increased risk for error in whom interpretation of the test results should be made with caution.
非小细胞肺癌(NSCLC)中程序性死亡受体配体1(PD-L1)表达的肿瘤内异质性可能会导致患者免疫治疗分层不准确。本研究旨在定量分析不同因素对PD-L1表达诊断不准确风险的影响。
使用MATLAB软件对具有不同比例、分布和聚集的PD-L1蛋白表达的肿瘤进行建模,并分析其对建模肿瘤亚组(代表活检样本)假阳性和假阴性诊断的影响。此外,我们评估了随机切片与PD-L1染色的临床NSCLC病例全切片中PD-L1状态的一致性。
我们的计算机模型显示,当PD-L1阳性细胞比例接近临界值时,错误率显著增加(肿瘤细胞中PD-L1阳性率为40%-60%、≤20%和≥80%时,错误率分别为33.33%、0.45%和0.74%,P<0.0001)。此外,活检样本大小与错误率呈负相关(P<0.0001),PD-L1阳性细胞的较大簇与较高的错误率相关(P<0.0001)。临床样本分析支持计算机模型的结果,即PD-L1表达阳性且接近临界值的病例错误率更高。基于我们的计算机模型和临床分析,我们开发了一个基于活检样本大小和活检中PD-L1阳性细胞比例来预测错误率的模型。
对PD-L1表达进行小活检分析可能会有显著的错误率。所提出的模型可用于识别错误风险增加的病例,对于这些病例,在解释检测结果时应谨慎。
